BEGIN:VCALENDAR VERSION:2.0 PRODID:-//Engineering Institute of Technology - ECPv6.16.2//NONSGML v1.0//EN CALSCALE:GREGORIAN METHOD:PUBLISH X-WR-CALNAME:Engineering Institute of Technology X-ORIGINAL-URL:https://www.eit.edu.au X-WR-CALDESC:Events for Engineering Institute of Technology REFRESH-INTERVAL;VALUE=DURATION:PT1H X-Robots-Tag:noindex X-PUBLISHED-TTL:PT1H BEGIN:VTIMEZONE TZID:UTC BEGIN:STANDARD TZOFFSETFROM:+0000 TZOFFSETTO:+0000 TZNAME:UTC DTSTART:20230101T000000 END:STANDARD END:VTIMEZONE BEGIN:VEVENT DTSTART;TZID=UTC:20251016T140000 DTEND;TZID=UTC:20251016T160000 DTSTAMP:20260522T012103 CREATED:20250925T110633Z LAST-MODIFIED:20250925T110633Z UID:62139-1760623200-1760630400@www.eit.edu.au SUMMARY:Future-Proof Your Engineering Career (Live-Streamed from the United Kingdom) DESCRIPTION:2025 Insights & 2026 Key Skills\nThe engineering landscape is evolving fast – are you ready for what’s next? \nAre you based in the UK? Join us in-person! Register here\nThis live-streamed webinar is part of a face-to-face panel discussion hosted in person by our sister institute\, the Engineering College of Technology\, at the Institution of Engineering in the UK. \nWebinar details\nThis session brings together leading minds in industrial automation\, sustainable manufacturing\, engineering education\, and smart technologies to explore what skills\, mindsets\, and strategies are needed to future-proof your engineering career. \nWhether you’re navigating mid-career changes\, teaching the next generation of engineers\, or just getting started\, this event will offer practical insights into how digital transformation\, automation\, and Industry 4.0 are reshaping the engineering profession – and how you can thrive in the years ahead. \n\nThe webinar will be recorded and will be sent out to registered attendees afterwards.\nA certificate of attendance will be provided to attendees who request one near the end of the live webinar session.\nPlease note: the time stated on this event is in UTC. You will need to convert this to your own time zone.\n\nWhat You’ll Experience:\nFuture-Ready Panel Discussion\nGet expert insight into how automation\, digitalisation\, and advanced manufacturing are impacting engineering roles—and what this means for your career. \nLive Q&A – Ask the Experts\nBring your questions to the panel for real-time advice from professionals with decades of experience across industry and academia. \nEmerging Trends Explained\nFrom sustainable design and energy monitoring to AI integration and hybrid fuel systems—discover what’s coming in 2026 and beyond. \nActionable Career Advice\nLearn how to upskill\, re-skill\, and stay relevant as new technologies and practices transform the engineering sector. \nWhat You’ll Gain: \n\nA clear understanding of the skills engineers need to thrive in 2026 and beyond.\nInsider views on how the UK engineering sector is adapting to global tech trends.\nPractical steps to strengthen your career or curriculum in response to industry shifts.\nNew professional connections and ideas to support your growth.\n\nWho Should Attend? \n\nEngineering professionals in all fields of engineering.\nEmployers interested in workforce development and future skill needs.\nLecturers\, researchers\, and academic leaders in engineering.\nStudents and recent graduates keen to explore the role of AI in their future careers.\n\nAbout the Moderator\n \nLeading the discussion is David Gajdus \nDavid plays a key role across the Group\, connecting students\, partners\, and industry. With deep experience in higher education and business development\, he knows how to bring people together and spark meaningful conversations. \nAbout the Panellists\n \nDr. Gary Thompson\nOld school engineer who has a wealth of experience in manufacturing and product development. Looking to support UK manufacturing from the grass roots and convince people we can still make products in the UK and put engineering back on its feet. Gary has worked across the globe and is known for his idea generation and manufacturing knowledge. \n \nAssociate Professor Hamid Mehrabi\nHe is a Mechanical Engineer with a PhD in heat treatment of steels and over 30 years of experience across industry\, research\, and academia. His work focuses on industry-driven research in manufacturing\, particularly in additive and sustainable processes\, and he is dedicated to mentoring the next generation while promoting resource-efficient and sustainable practices. \n \nSue Armstrong\nAn Industrial Automation Expert with extensive experience across both industry and academia\, she has led major initiatives in electronics and electrical engineering education. Most recently serving as Programme Leader for Electronics and Electrical at the University of Sunderland\, she has played a key role in developing industry-aligned curricula and mentoring future engineers\, while previously delivering complex automation and control systems across diverse industrial sectors. \n \nAbdulrahman Shaalan\nAn experienced academic and researcher\, he is currently the Programme Leader for Industrial Automation at the Engineering College of Technology. He previously led the BEng Electronic and Electrical Engineering and MSc Advanced Engineering Design programs at the University of Sunderland\, with expertise in advanced maintenance strategies\, Industry 4.0\, sustainable manufacturing\, and a strong background in automation\, IoT applications\, and quality assurance. \n \nAdrian Morris\nAdrian Morris is a researcher in the Department of Engineering and Advanced Manufacturing at the University of Sunderland\, focusing on the impact of energy monitoring on maintenance and productivity. His research spans automotive systems\, manufacturing\, and automotive engineering\, with recent work including the development of a low-cost hydrogen/petrol fuel system to reduce vehicle emissions. He is also the former Programme Leader for Engineering Degree Apprenticeships. \n \nRichard Scott\nRichard Scott is a Senior Instrumentation and Control Engineer and experienced lecturer\, currently teaching industrial automation at the Engineering Institute of Technology. With over two decades of industry experience\, he has worked on complex engineering projects in the energy and process sectors\, specialising in ICSS\, metering systems\, and SCADA software integration. \n\n\n \n \n Event Registration\n \n "*" indicates required fields \n \n \n Complete the form below to receive further information about this event.\n\n\n Complete the form below.\n Follow the email instructions to gain access to your event.\n \n\n*If you do not see the email in a few minutes\, check your “junk mail” or “spam” folder.\n \n If you need assistance\, please contact us \nFirst name*Last name*Email*\n \n Phone*Country*Select your countryAfghanistanÅland IslandsAlbaniaAlgeriaAmerican SamoaAndorraAngolaAnguillaAntarcticaAntigua and BarbudaArgentinaArmeniaArubaAustraliaAustriaAzerbaijanBahamasBahrainBangladeshBarbadosBelarusBelgiumBelizeBeninBermudaBhutanBoliviaBonaire\, Sint Eustatius and SabaBosnia and HerzegovinaBotswanaBouvet IslandBrazilBritish Indian Ocean TerritoryBrunei DarussalamBulgariaBurkina FasoBurundiCambodiaCameroonCanadaCape VerdeCayman IslandsCentral African RepublicChadChileChinaChristmas IslandCocos IslandsColombiaComorosCongo\, Democratic Republic of theCongo\, Republic of theCook IslandsCosta RicaCote d`IvoireCroatiaCubaCuraçaoCyprusCzech RepublicDenmarkDjiboutiDominicaDominican RepublicEcuadorEgyptEl SalvadorEquatorial GuineaEritreaEstoniaEswatini (Swaziland)EthiopiaFalkland IslandsFaroe IslandsFijiFinlandFranceFrench GuianaFrench PolynesiaFrench Southern TerritoriesGabonGambiaGeorgiaGermanyGhanaGibraltarGreeceGreenlandGrenadaGuadeloupeGuamGuatemalaGuernseyGuineaGuinea-BissauGuyanaHaitiHeard and McDonald IslandsHoly SeeHondurasHong KongHungaryIcelandIndiaIndonesiaIranIraqIrelandIsle of ManIsraelItalyJamaicaJapanJerseyJordanKazakhstanKenyaKiribatiKuwaitKyrgyzstanLao People`s Democratic RepublicLatviaLebanonLesothoLiberiaLibyaLiechtensteinLithuaniaLuxembourgMacauMacedoniaMadagascarMalawiMalaysiaMaldivesMaliMaltaMarshall IslandsMartiniqueMauritaniaMauritiusMayotteMexicoMicronesiaMoldovaMonacoMongoliaMontenegroMontserratMoroccoMozambiqueMyanmarNamibiaNauruNepalNetherlandsNew CaledoniaNew ZealandNicaraguaNigerNigeriaNiueNorfolk IslandNorth KoreaNorthern Mariana IslandsNorwayOmanPakistanPalauPalestine\, State ofPanamaPapua New GuineaParaguayPeruPhilippinesPitcairnPolandPortugalPuerto RicoQatarRéunionRomaniaRussiaRwandaSaint BarthélemySaint HelenaSaint Kitts and NevisSaint LuciaSaint MartinSint MaartenSaint Pierre and MiquelonSaint Vincent and the GrenadinesSamoaSan MarinoSao Tome and PrincipeSaudi ArabiaSenegalSerbiaSeychellesSierra LeoneSingaporeSint MaartenSlovakiaSloveniaSolomon IslandsSomaliaSouth AfricaSouth GeorgiaSouth KoreaSouth SudanSpainSri LankaSudanSurinameSvalbard and Jan Mayen IslandsSwedenSwitzerlandSyriaTaiwanTajikistanTanzaniaThailandTimor-LesteTogoTokelauTongaTrinidad and TobagoTunisiaTurkeyTurkmenistanTurks and Caicos IslandsTuvaluUgandaUkraineUnited Arab EmiratesUnited KingdomUnited StatesUruguayUS Minor Outlying IslandsUzbekistanVanuatuVenezuelaVietnamVirgin Islands\, BritishVirgin Islands\, U.S.Wallis and FutunaWestern SaharaYemenZambiaZimbabweStateQueenslandNews South WalesACTVictoriaTasmaniaSouth AustraliaWestern AustraliaNorthern TerritoryUS StateAlabamaAlaskaAmerican SamoaArizonaArkansasCaliforniaColoradoConnecticutDelawareDistrict of ColumbiaFloridaGeorgiaGuamHawaiiIdahoIllinoisIndianaIowaKansasKentuckyLouisianaMaineMarylandMassachusettsMichiganMinnesotaMississippiMissouriMontanaNebraskaNevadaNew HampshireNew JerseyNew MexicoNew YorkNorth CarolinaNorth DakotaNorthern Mariana IslandsOhioOklahomaOregonPennsylvaniaPuerto RicoRhode IslandSouth CarolinaSouth DakotaTennesseeTexasUtahU.S. Virgin IslandsVermontVirginiaWashingtonWest VirginiaWisconsinWyomingArmed Forces AmericasArmed Forces EuropeArmed Forces PacificEIT Promotions Subscribe\n \n I would like to receive email updates from EIT about engineering courses\, offers\, events\, webinars\, newsletters\, and other relevant information. I understand that I can unsubscribe at any time\, and my information will be used in accordance with EIT’s Privacy Policy\n EIT SMS-WhatsApp Subscribe\n \n I would like to receive SMS and/or WhatsApp updates from EIT about engineering courses\, offers\, events\, webinars\, and other relevant information. I understand that I can unsubscribe at any time\, and my information will be used in accordance with EIT’s Privacy Policy\n This field is hidden when viewing the formRecord_IDEvent nameThis field is hidden when viewing the formEvent Date\n \n \n Year\n \n \n Month\n \n \n Day\n \n This field is hidden when viewing the formEvent Time\n \n \n Hours\n \n :\n \n \n Minutes\n \n \n \n \n AM\n PM\n \n AM/PM \n \n Event URL\n \n TimeZoneThis field is hidden when viewing the formTag Categories URL:https://www.eit.edu.au/event/future-proof-your-engineering-career-live-streamed-from-the-united-kingdom/ LOCATION:Online CATEGORIES:Technical Engineering Topics Webinar ATTACH;FMTTYPE=image/jpeg:https://www.eit.edu.au/wp-content/uploads/2025/09/26.11_FutureProofYourEngineeringCareer_00.00.2025_BannerImage_.jpg END:VEVENT BEGIN:VEVENT DTSTART;TZID=UTC:20251015T100000 DTEND;TZID=UTC:20251015T110000 DTSTAMP:20260522T012103 CREATED:20250225T125508Z LAST-MODIFIED:20251016T160645Z UID:56484-1760522400-1760526000@www.eit.edu.au SUMMARY:Recent Advancements in Semiconductor Switches DESCRIPTION:The live presentation of this event has already taken place. \nPlease view the PDF slides here or watch the video recording below: \nWebinar details\nRecent advancements in semiconductor switches have revolutionized power electronics by improving efficiency\, reliability\, and performance in high-power and high-frequency applications. Innovations in wide-bandgap materials such as Silicon Carbide (SiC) and Gallium Nitride (GaN) have enabled switches with higher breakdown voltages\, lower conduction losses\, and faster switching speeds compared to traditional silicon-based devices. These advancements are driving the development of next-generation power converters\, electric vehicles\, renewable energy systems\, and telecommunications infrastructure. Key areas of progress include enhanced fabrication techniques\, novel device architectures\, and the integration of these switches into compact\, high-performance systems. \nKey takeaways from this webinar\n\nAdvancements in Wide-Bandgap Materials: Explore how Silicon Carbide (SiC) and Gallium Nitride (GaN) are revolutionizing semiconductor switches with higher efficiency\, faster switching\, and better thermal performance.\nBreakthroughs in Device Design and Fabrication: Understand the latest innovations in semiconductor switch architectures and manufacturing techniques that enhance performance and reliability.\nReal-World Applications and Emerging Trends: Gain insights into how these advancements are transforming industries such as renewable energy\, electric vehicles\, and telecommunications\, and learn about the future directions in semiconductor technology.\n\nRelated courses\nThis webinar/topic is multidisciplinary and covers the Electrical engineering and Electronic Engineering school and is particularly found in the following courses: \n\nProfessional Certificate of Competency in Circuit Breakers\, Switchgear and Power Transformers\nProfessional Certificate of Competency in Power Distribution\nProfessional Certificate of Competency in Electrical Power System Protection\nUndergraduate Certificate in Electrical and Electronics Engineering\nUET60222 Advanced Diploma of ESI – Power Systems (Australia & New Zealand Only)\n52914WA Graduate Certificate in Mechatronics\nGraduate Certificate in Power System Analysis and Design\n\nTo learn more about tuition fees\, please click here. \nAbout the presenter\n \nDr. Hamid Amini Moghadam\, EIT Lecturer \nDr. Hamid Amini Moghadam is an accomplished academic and researcher with extensive expertise in the physics and fabrication of power semiconductor devices\, specializing in Silicon Carbide (SiC) and High Electron Mobility Transistors (HEMTs). His research focuses on the fabrication and analysis of power semiconductor devices\, aiming to drive innovation and enhance performance in modern electronic systems. \nWith a strong background in academia\, Dr. Amini Moghadam has significant experience teaching a wide range of electrical and electronic engineering courses\, where he combines theoretical depth with practical insights to inspire and empower his students. \nHis contributions to the field of power semiconductors and his dedication to education position him as a leader in advancing both the research and application of cutting-edge technologies in electrical and electronic engineering. URL:https://www.eit.edu.au/event/recent-advancements-in-semiconductor-switches/ LOCATION:Online CATEGORIES:Technical Engineering Topics Webinar ATTACH;FMTTYPE=image/jpeg:https://www.eit.edu.au/wp-content/uploads/2025/02/TechWebinar_Semiconductor-Switches_32.07__00.00.2025_BannerImage_-2.jpg END:VEVENT BEGIN:VEVENT DTSTART;TZID=UTC:20251008T040000 DTEND;TZID=UTC:20251008T050000 DTSTAMP:20260522T012103 CREATED:20250731T101321Z LAST-MODIFIED:20250819T101148Z UID:60727-1759896000-1759899600@www.eit.edu.au SUMMARY:Welcome to Sports Field Lighting (AS 2560) DESCRIPTION:Webinar details\nThis presentation will provide an overview of the general design approach of Sports Field lighting covered under the Australian Standard of AS 2560. Attendees will gain a comprehensive understanding of the fundamental principles guiding sports lighting\, general principals to consider as well as coordination aspects to this type of lighting design. \nWith the 2032 Olympics planned for Australia\, there is a lot of conversation and marketing for sports field lighting and the impact of this prestigious event on the lighting market will also be discussed. \nBy the end of the presentation\, attendees will be equipped with the knowledge to implement efficient and compliant lighting solutions in various settings. \n\nThe webinar will be recorded and will be sent out to registered attendees afterwards.\nA certificate of attendance will be provided to attendees who request one near the end of the live webinar session.\nPlease note: the time stated on this event is in UTC. You will need to convert this to your own time zone.\n\nKey takeaways from this webinar\n\nUnderstanding the general principles of sports field lighting design.\nUnderstanding key factors to be considered for various sports\, locations\, and type of competitions.\nFamiliarization with Australian Standards for the above and recent updates to these standards.\n\nRelated courses\nThis webinar/topic relates to our school of Electrical Engineering and is particularly found in the following courses: \n\n52856WA Advanced Diploma of Illumination Engineering and Lighting Design\nUET60222 Advanced Diploma of ESI – Power Systems (Australia & New Zealand Only)\n52883WA Advanced Diploma of Applied Electrical Engineering (Electrical Systems)\nOnline – Bachelor of Science (Electrical Engineering)\nOnline – Master of Engineering (Electrical Systems)\n\nAbout the presenter\n \nAlexandra Gregory\, Senior EIT Lecturer and AECOM Principal Electrical Engineer \nAlex Gregory is a Principal Electrical Engineer within AECOM Design Consultancy in Brisbane and has worked as a lead design engineer\, managing contractor and project manager across a variety of projects in the Building Industry. Her project coverage is broad and includes Defence\, Commercial\, Government\, Cultural and Healthcare industries. \nWithin this role\, Alex has completed many electrical designs for building services branching across small power\, lighting and power infrastructure. \n\n \n \n Event Registration\n \n "*" indicates required fields \n \n \n Complete the form below to receive further information about this event.\n\n\n Complete the form below.\n Follow the email instructions to gain access to your event.\n \n\n*If you do not see the email in a few minutes\, check your “junk mail” or “spam” folder.\n \n If you need assistance\, please contact us \nFirst name*Last name*Email*\n \n Phone*Country*Select your countryAfghanistanÅland IslandsAlbaniaAlgeriaAmerican SamoaAndorraAngolaAnguillaAntarcticaAntigua and BarbudaArgentinaArmeniaArubaAustraliaAustriaAzerbaijanBahamasBahrainBangladeshBarbadosBelarusBelgiumBelizeBeninBermudaBhutanBoliviaBonaire\, Sint Eustatius and SabaBosnia and HerzegovinaBotswanaBouvet IslandBrazilBritish Indian Ocean TerritoryBrunei DarussalamBulgariaBurkina FasoBurundiCambodiaCameroonCanadaCape VerdeCayman IslandsCentral African RepublicChadChileChinaChristmas IslandCocos IslandsColombiaComorosCongo\, Democratic Republic of theCongo\, Republic of theCook IslandsCosta RicaCote d`IvoireCroatiaCubaCuraçaoCyprusCzech RepublicDenmarkDjiboutiDominicaDominican RepublicEcuadorEgyptEl SalvadorEquatorial GuineaEritreaEstoniaEswatini (Swaziland)EthiopiaFalkland IslandsFaroe IslandsFijiFinlandFranceFrench GuianaFrench PolynesiaFrench Southern TerritoriesGabonGambiaGeorgiaGermanyGhanaGibraltarGreeceGreenlandGrenadaGuadeloupeGuamGuatemalaGuernseyGuineaGuinea-BissauGuyanaHaitiHeard and McDonald IslandsHoly SeeHondurasHong KongHungaryIcelandIndiaIndonesiaIranIraqIrelandIsle of ManIsraelItalyJamaicaJapanJerseyJordanKazakhstanKenyaKiribatiKuwaitKyrgyzstanLao People`s Democratic RepublicLatviaLebanonLesothoLiberiaLibyaLiechtensteinLithuaniaLuxembourgMacauMacedoniaMadagascarMalawiMalaysiaMaldivesMaliMaltaMarshall IslandsMartiniqueMauritaniaMauritiusMayotteMexicoMicronesiaMoldovaMonacoMongoliaMontenegroMontserratMoroccoMozambiqueMyanmarNamibiaNauruNepalNetherlandsNew CaledoniaNew ZealandNicaraguaNigerNigeriaNiueNorfolk IslandNorth KoreaNorthern Mariana IslandsNorwayOmanPakistanPalauPalestine\, State ofPanamaPapua New GuineaParaguayPeruPhilippinesPitcairnPolandPortugalPuerto RicoQatarRéunionRomaniaRussiaRwandaSaint BarthélemySaint HelenaSaint Kitts and NevisSaint LuciaSaint MartinSint MaartenSaint Pierre and MiquelonSaint Vincent and the GrenadinesSamoaSan MarinoSao Tome and PrincipeSaudi ArabiaSenegalSerbiaSeychellesSierra LeoneSingaporeSint MaartenSlovakiaSloveniaSolomon IslandsSomaliaSouth AfricaSouth GeorgiaSouth KoreaSouth SudanSpainSri LankaSudanSurinameSvalbard and Jan Mayen IslandsSwedenSwitzerlandSyriaTaiwanTajikistanTanzaniaThailandTimor-LesteTogoTokelauTongaTrinidad and TobagoTunisiaTurkeyTurkmenistanTurks and Caicos IslandsTuvaluUgandaUkraineUnited Arab EmiratesUnited KingdomUnited StatesUruguayUS Minor Outlying IslandsUzbekistanVanuatuVenezuelaVietnamVirgin Islands\, BritishVirgin Islands\, U.S.Wallis and FutunaWestern SaharaYemenZambiaZimbabweStateQueenslandNews South WalesACTVictoriaTasmaniaSouth AustraliaWestern AustraliaNorthern TerritoryUS StateAlabamaAlaskaAmerican SamoaArizonaArkansasCaliforniaColoradoConnecticutDelawareDistrict of ColumbiaFloridaGeorgiaGuamHawaiiIdahoIllinoisIndianaIowaKansasKentuckyLouisianaMaineMarylandMassachusettsMichiganMinnesotaMississippiMissouriMontanaNebraskaNevadaNew HampshireNew JerseyNew MexicoNew YorkNorth CarolinaNorth DakotaNorthern Mariana IslandsOhioOklahomaOregonPennsylvaniaPuerto RicoRhode IslandSouth CarolinaSouth DakotaTennesseeTexasUtahU.S. Virgin IslandsVermontVirginiaWashingtonWest VirginiaWisconsinWyomingArmed Forces AmericasArmed Forces EuropeArmed Forces PacificEIT Promotions Subscribe\n \n I would like to receive email updates from EIT about engineering courses\, offers\, events\, webinars\, newsletters\, and other relevant information. I understand that I can unsubscribe at any time\, and my information will be used in accordance with EIT’s Privacy Policy\n EIT SMS-WhatsApp Subscribe\n \n I would like to receive SMS and/or WhatsApp updates from EIT about engineering courses\, offers\, events\, webinars\, and other relevant information. I understand that I can unsubscribe at any time\, and my information will be used in accordance with EIT’s Privacy Policy\n This field is hidden when viewing the formRecord_IDEvent nameThis field is hidden when viewing the formEvent Date\n \n \n Year\n \n \n Month\n \n \n Day\n \n This field is hidden when viewing the formEvent Time\n \n \n Hours\n \n :\n \n \n Minutes\n \n \n \n \n AM\n PM\n \n AM/PM \n \n Event URL\n \n TimeZoneThis field is hidden when viewing the formTag Categories URL:https://www.eit.edu.au/event/welcome-to-sports-field-lighting-as-2560/ LOCATION:Online CATEGORIES:Technical Engineering Topics Webinar ATTACH;FMTTYPE=image/jpeg:https://www.eit.edu.au/wp-content/uploads/2025/07/TechWebinar_-Welcome-to-Sports-Field-Lighting_00.00.2025_BannerImage_.jpg END:VEVENT BEGIN:VEVENT DTSTART;TZID=UTC:20250828T080000 DTEND;TZID=UTC:20250828T090000 DTSTAMP:20260522T012103 CREATED:20250625T124036Z LAST-MODIFIED:20250828T111719Z UID:59804-1756368000-1756371600@www.eit.edu.au SUMMARY:Gen AI Application for Industrial Automation DESCRIPTION:The live presentation of this event has already taken place. \nPlease view the PDF slides here or watch the video recording below: \nWebinar details\nGenerative AI is transforming industrial automation by enabling intelligent systems that not only optimize existing processes but also generate adaptive solutions in real time. By integrating large language models (LLMs) and multi-modal AI frameworks with industrial control systems\, organizations can automate complex decision-making\, enhance predictive maintenance\, and improve production efficiency. Applications include intelligent process optimization\, automated report generation\, failure prediction\, and contextual response systems that adapt to real-time data from sensors\, machines\, and enterprise systems. These capabilities reduce downtime\, lower operational costs\, and support continuous process improvement across manufacturing and industrial operations. \nThe webinar will explore practical implementations of Gen AI in industrial automation\, focusing on how technologies such as Retrieval-Augmented Generation (RAG)\, reinforcement learning\, and model distillation are deployed to build scalable\, efficient\, and interpretable AI solutions. Emphasis will be placed on use cases such as real-time monitoring\, automated quality control through computer vision\, and dynamic workflow optimization. Technical considerations including data integration\, edge deployment\, model reliability\, and safety in automated environments will also be addressed. This session aims to provide a clear understanding of how Gen AI can drive innovation and operational excellence in industrial settings. \n\nThe webinar will be recorded and will be sent out to registered attendees afterwards.\nA certificate of attendance will be provided to attendees who request one near the end of the live webinar session.\nPlease note: the time stated on this event is in UTC. You will need to convert this to your own time zone.\n\nKey takeaways from this webinar\n\nUnderstand how Generative AI technologies can be applied to optimize and automate industrial processes in real-time.\nLearn about the integration of large language models\, sensor data\, and edge computing for predictive maintenance and dynamic workflow management.\nGain insights into deploying scalable and interpretable Gen AI solutions within existing industrial automation infrastructure.\n\nRelated courses\nThis webinar/topic relates to our school of Industrial Automation\, Instrumentation and Process Control and is particularly found in the following courses: \n\n52886WA Advanced Diploma of Industrial Automation Engineering\n52872WA Advanced Diploma of Robotics and Mechatronics Engineering\nOnline – Bachelor of Science (Industrial Automation Engineering)\nGraduate Certificate in Industrial Automation and Machine Learning\nGraduate Diploma of Engineering (Industrial Automation)\nOnline – Master of Engineering (Industrial Automation\n\nTo learn more about tuition fees\, please click here. \nAbout the presenter\n \nDr. Krutika Shahabadkar\, EIT Lecturer\, Swinburne Lecturer and Tutor and Gen AI Research Engineer in Studiosity \nDr. Krutika Shahabadkar is an AI Engineer and Researcher with a strong foundation in developing end-to-end machine learning and Generative AI systems across healthcare\, industrial domains\, and academic research. Her work centers on integrating large language models (LLMs)\, Retrieval-Augmented Generation (RAG)\, and real-time sensor data to create intelligent\, scalable solutions that support enhanced decision-making in complex and dynamic environments. \nDr. Shahabadkar brings expertise in fine-tuning LLMs\, applying reinforcement learning with human feedback (RLHF)\, and deploying AI models across both cloud and edge infrastructures. She is dedicated to designing systems that are not only technically sound but also aligned with real-world needs\, with a particular focus on low-resource and high-impact settings. \nBeyond her research and engineering contributions\, Dr. Shahabadkar has taught postgraduate courses in Data Analytics\, Machine Learning\, and Artificial Intelligence. She has mentored students in both theoretical and applied aspects of AI\, fostering the next generation of data scientists and engineers. Her collaborative work spans interdisciplinary teams including clinicians\, engineers\, and policymakers\, with an emphasis on delivering ethical and impactful AI solutions. \nHer technical skill set includes proficiency with tools and platforms such as AWS SageMaker\, Azure\, TensorFlow\, PyTorch\, Hugging Face\, Docker\, and CI/CD pipelines. Passionate about responsible AI\, Dr. Shahabadkar is committed to building systems that deliver measurable value while advancing equitable access to technology. URL:https://www.eit.edu.au/event/gen-ai-application-for-industrial-automation/ LOCATION:Online CATEGORIES:Technical Engineering Topics Webinar ATTACH;FMTTYPE=image/jpeg:https://www.eit.edu.au/wp-content/uploads/2025/06/TechWebinar_Gen-AI-application_00.00.2025_BannerImage_.jpg END:VEVENT BEGIN:VEVENT DTSTART;TZID=UTC:20250821T140000 DTEND;TZID=UTC:20250821T150000 DTSTAMP:20260522T012103 CREATED:20250603T104539Z LAST-MODIFIED:20250828T105156Z UID:58853-1755784800-1755788400@www.eit.edu.au SUMMARY:Computer Aided Design and Manufacturing DESCRIPTION:The live presentation of this event has already taken place. \nPlease view the PDF slides here or watch the video recording below: \nWebinar details\nThe term Computer-Aided Design (CAD) refers to the process of creating\, modifying\, analyzing\, or optimizing a design with the assistance of computers and software. Numerous industries including engineering\, architecture\, product design\, and manufacturing heavily rely on CAD. The use of CAD reduces design time and errors\, enhances documentation quality\, allows for easy modifications\, and facilitates digital manufacturing. \nComputer-Aided Manufacturing (CAM) involves the use of software and computer-controlled machinery to automate the manufacturing process. CAM works hand-in-hand with CAD systems: once a design is created in CAD\, CAM software generates the toolpaths and instructions needed to produce the physical part using machines such as CNC (Computer Numerical Control) routers\, mills\, lathes\, or 3D printers. \nCAD/CAM has been utilized in engineering practice in various ways\, including drafting\, design\, simulation\, analysis\, and manufacturing. These systems are commonly used in daily engineering tasks. Engineering companies both large and small acquire CAD/CAM systems and train their engineers accordingly. It is not uncommon for different groups within the same company to use different CAD/CAM platforms. \nThis webinar will cover four major areas of CAD/CAM: geometric modeling\, computer graphics\, design applications\, and manufacturing applications. \n\nThe webinar will be recorded and will be sent out to registered attendees afterwards.\nA certificate of attendance will be provided to attendees who request one near the end of the live webinar session.\nPlease note: the time stated on this event is in UTC. You will need to convert this to your own time zone.\n\nKey takeaways from this webinar\n\nThe Role of CAD in Industry 4.0\nThe fundamental concepts of geometric modeling\nCAD/CAM Integration\nThe Role of CAD/ CAM and its integration in the manufacturing industry\n\nRelated courses\nThis multi-disciplinary webinar/topic relates to our schools of Mechanical and Industrial Automation\, Instrumentation and Process Control Engineering and is particularly found in the courses below: \n\nProfessional Certificate of Competency in Mechanical Engineering\nProfessional Certificate of Competency in Industrial Automation Engineering\n52886WA Advanced Diploma of Industrial Automation Engineering\n52884WA Advanced Diploma of Mechanical Engineering Technology\nGraduate Diploma of Engineering (Industrial Automation)\nOnline – Master of Engineering (Industrial Automation)\n\nAbout the presenter\n \nDr. Pratik Shah\, EIT Lecturer \nDr. Pratik Shah is presently working as an Associate Professor in the Department of Mechanical Engineering and Head of the Aeronautical department at Sardar Vallabhbhai Patel Institute of Technology\, Vasad. He holds a Ph.D. degree in Mechanical Engineering. He has over 25 years of teaching experience\, over 6 years of research experience and 2 years of industrial experience. He has completed a Masters degree in CAD/CAM from Gujarat University and Ph.D. from CHARUSAT. He has published around 30 research papers in various National/International Journals and Conference proceedings. \nHe is also a reviewer for journals of international repute. He has supervised one Ph.D. scholar and currently has two research scholars pursuing their Ph.D. under his guidance. He is actively involved in supervising postgraduate projects. He has been granted two patents for his inventions titled “Multicutter Groove Cutting Machine” and “Two-Piece Plus Type Cruci-trap Welded Joint (CTWJ)”. He is regularly invited to deliver expert talks at various universities. Mr. Shah is a member of several professional bodies\, including ISTE and IIW. His areas of interest include manufacturing\, welding\, and finite element analysis. URL:https://www.eit.edu.au/event/computer-aided-design-and-manufacturing/ LOCATION:Online CATEGORIES:Technical Engineering Topics Webinar ATTACH;FMTTYPE=image/jpeg:https://www.eit.edu.au/wp-content/uploads/2025/06/TechWebinar_Computer-Aided-Design-and-Manufacturing_00.00.2025_BannerImage_.jpg END:VEVENT BEGIN:VEVENT DTSTART;TZID=UTC:20250814T110000 DTEND;TZID=UTC:20250814T120000 DTSTAMP:20260522T012103 CREATED:20250516T113643Z LAST-MODIFIED:20250820T160049Z UID:58759-1755169200-1755172800@www.eit.edu.au SUMMARY:Concrete Admixtures: Life Cycle Assessment and Avoided Emissions DESCRIPTION:The live presentation of this event has already taken place. \nPlease view the PDF slides here or watch the video recording below: \nWebinar details\nIn this webinar\, Dr. Nam Le will provide an overview of concrete admixtures with respect to their life cycle assessment (LCA) and the potential for avoided emissions. Although admixtures typically account for a small portion of concrete by weight\, they play a critical role in enhancing both technical performance and sustainability. \nWith rising interest in the environmental impact of construction materials\, more Environmental Product Declarations (EPDs) for admixtures are being published each year. Understanding their life cycle helps reduce emissions and promote transparency. Additionally\, admixtures can act as enablers for significantly reducing greenhouse gas emissions beyond their own life cycle—a concept known as avoided emissions. \n\nThe webinar will be recorded and will be sent out to registered attendees afterwards.\nA certificate of attendance will be provided to attendees who request one near the end of the live webinar session.\nPlease note: the time stated on this event is in UTC. You will need to convert this to your own time zone.\n\nKey takeaways from this webinar\n\nUnderstand why accurate life cycle assessment of concrete admixtures depends on access to comprehensive product data.\nLearn how Environmental Product Declarations reveal the impact of formulation optimization in significantly lowering emissions.\nDiscover how a case study revealed that concrete admixtures can significantly reduce greenhouse gas emissions through avoided emissions.\n\n\n\n\n\n\n\n\n\nRelated courses\nThis webinar/topic relates to our school of Civil Engineering  and is particularly found in the following courses: \n\nProfessional Certificate of Competency in Repair of Concrete\nProfessional Certificate of Competency in Structural Design for Non-Structural Engineers\n52873WA Advanced Diploma of Civil and Structural Engineering\n52896WA Advanced Diploma of Civil and Structural Engineering (Materials Testing)\nOnline – Bachelor of Science (Civil & Structural Engineering)\nOnline – Master of Engineering (Civil: Structural)\n\nAbout the presenter\n \nDr Nam. Le\, EIT Lecturer and Sika Australia R&D Sustainability Manager \nDr Nam Le is an experienced professional in construction materials\, with a background spanning both academia and industry.\nHe obtained his PhD in Civil Engineering from National University of Singapore\, his Master of Engineering and Bachelor of Engineering in Construction Materials from Ho Chi Minh City University of Technology. \nDr. Nam Le is passionate about sustainable material solutions and initiatives for reducing carbon emissions. He has a proven leadership record in management roles across various functions\, including Technical\, Technical Service\, Product Management\, and R&D Sustainability. He was a lecturer for Hutech University in Vietnam during three years. He periodically delivers lectures and supervises research theses at EIT. URL:https://www.eit.edu.au/event/concrete-admixtures-life-cycle-assessment-and-avoided-emissions/ LOCATION:Online CATEGORIES:Technical Engineering Topics Webinar ATTACH;FMTTYPE=image/jpeg:https://www.eit.edu.au/wp-content/uploads/2025/05/TechWebinar_Concrete-Admixtures__00.00.2025_BannerImage_.jpg END:VEVENT BEGIN:VEVENT DTSTART;TZID=UTC:20250806T070000 DTEND;TZID=UTC:20250806T080000 DTSTAMP:20260522T012103 CREATED:20250625T125344Z LAST-MODIFIED:20250806T094000Z UID:59774-1754463600-1754467200@www.eit.edu.au SUMMARY:Introduction to Optimal Power Flow in Australian Electricity Distribution Networks DESCRIPTION:The live presentation of this event has already taken place. \nPlease view the PDF slides here or watch the video recording below:\n \nWebinar details\nAustralia has the highest per capita penetration of roof-top solar generation systems in the world. Most of these solar generation systems are connected to the low voltage distribution networks\, causing significant reverse power flow during high solar generation period. Compounding this situation is the steady increase in peak electricity demand caused by electrification of domestic gas appliances and uptake in electric vehicle charging. Optimal power flow techniques can be used by distribution utilities to model and forecast the import and export capacity of each supply connection point\, allowing applications such as dynamic operating envelopes to be used to maximize the utilization of the distribution networks. \n\nThe webinar will be recorded and will be sent out to registered attendees afterwards.\nA certificate of attendance will be provided to attendees who request one near the end of the live webinar session.\nPlease note: the time stated on this event is in UTC. You will need to convert this to your own time zone.\n\nKey takeaways from this webinar\n\nUnderstand the motivation behind optimal power flows.\nUse cases of optimal power flows in Australian electricity distribution networks.\nAreas to benefit from further research activities.\n\nRelated courses\nThis webinar/topic is multidisciplinary and covers the Electrical Engineering and Renewable Energy Engineering  schools and is particularly found in the following courses: \n\nProfessional Certificate of Competency in Power Distribution\nProfessional Certificate of Competency in Electrical Power System Protection\n52883WA Advanced Diploma of Applied Electrical Engineering (Electrical Systems)\n52888WA Advanced Diploma of Applied Electrical Engineering (Power Industry)\n52894WA Advanced Diploma of Applied Electrical Engineering (Renewable Energy)\nOnline – Bachelor of Science (Electrical Engineering)\nGraduate Certificate in Power Engineering\n\nTo learn more about tuition fees\, please click here. \nAbout the presenter\n\nDr. Peter Wong\, EIT lecturer and Director & Principal Consultant\, Eagles Engineering Consultants Pty Ltd \nPeter is currently director and principal consultant of Eagles Engineering Consultants Pty Ltd\, providing consulting services to utilities\, industry and governments on electricity distribution engineering and renewable energy integration. Prior to that\, Peter was with Jemena (a multi Australian utility operating in electricity\, gas and water areas) for 25 years in various asset management roles\, including the last seven years championing new network technologies and DER integration. \nPeter is a chartered professional engineer\, a Fellow of Engineers Australia and a Senior Member of IEEE. He has a Bachelor Degree in Electrical Engineering from the University of Hong Kong\, post graduate diploma in leadership and management from University of Western Australia\, and a PhD degree from Victoria University\, Melbourne. His PhD thesis is on smart distribution voltage control in the presence of intermittent PV generation. \nPeter has a distinguished career as a professional engineer. He received the Energy Networks Association Overseas Study Tour Award in 2011 which he used to study smart grid developments in Asia\, Europe and the U.S. He was awarded the John Madsen medal for the best paper published in the Australian Journal of Electrical & Electronic Engineering in 2015\, and received the Lifetime Achievement in Energy Award from the Electrical Energy Society of Australia in 2017. URL:https://www.eit.edu.au/event/introduction-to-optimal-power-flow-in-australian-electricity-distribution-networks/ LOCATION:Online CATEGORIES:Technical Engineering Topics Webinar ATTACH;FMTTYPE=image/jpeg:https://www.eit.edu.au/wp-content/uploads/2025/06/TechWebinar_Introduction-to-optimal-power_00.00.2025_BannerImage_.jpg END:VEVENT BEGIN:VEVENT DTSTART;TZID=UTC:20250716T050000 DTEND;TZID=UTC:20250716T060000 DTSTAMP:20260522T012103 CREATED:20250409T135045Z LAST-MODIFIED:20250716T122211Z UID:57764-1752642000-1752645600@www.eit.edu.au SUMMARY:External Lighting Design: Overview and Updates (AS/NZS 1158 and AS/NZS 4282) DESCRIPTION:The live presentation of this event has already taken place. \nPlease view the PDF slides here or watch the video recording below: \nWebinar details\nThis presentation will provide an overview of the general design approach and updates to two key standards relating to external lighting design: AS/NZS 1158 and AS/NZS 4282. These standards cover external lighting design as well as obtrusive effects of external lighting\, which is highly prevalent in public and residential spaces. Attendees will gain a comprehensive understanding of the fundamental principles guiding external lighting design and how to effectively manage obtrusive lighting. \nThe session will also cover the latest updates to these Australian Standards\, ensuring participants are well-versed in current regulations and best practices. By the end of the presentation\, attendees will be equipped with the knowledge to implement efficient and compliant lighting solutions in various settings. \n\nThe webinar will be recorded and will be sent out to registered attendees afterwards.\nA certificate of attendance will be provided to attendees who request one near the end of the live webinar session.\nPlease note: the time stated on this event is in UTC. You will need to convert this to your own time zone.\n\nKey takeaways from this webinar\n\nUnderstanding the general principles of external lighting design\nUnderstanding key principles of obtrusive lighting in relation to external lighting designs\nFamiliarization with Australian Standards for the above and recent updates to these standards\n\nRelated courses\nThis webinar/topic relates to our school of Electrical Engineering and is particularly found in the following courses: \n\n52856WA Advanced Diploma of Illumination Engineering and Lighting Design\nUET60222 Advanced Diploma of ESI – Power Systems (Australia & New Zealand Only)\n52883WA Advanced Diploma of Applied Electrical Engineering (Electrical Systems)\nOnline – Bachelor of Science (Electrical Engineering)\nOnline – Master of Engineering (Electrical Systems)\n\nAbout the presenter\n \nAlexandra Gregory\, EIT Lecturer and AECOM Principal Electrical Engineer \nAlex Gregory is a Princpal Electrical Engineer within AECOM Design Consultancy in Brisbane and has worked as a lead design engineer\, managing contractor and project manager across a variety of projects in the Building Industry. Her project coverage is broad and includes Defence\, Commercial\, Government\, Cultural and Healthcare industries. \nWithin this role\, Alex has completed many electrical designs for building services branching across small power\, lighting and power infrastructure. URL:https://www.eit.edu.au/event/external-lighting-design-overview-and-updates-as-nzs-1158-as-nzs-4282/ LOCATION:Online CATEGORIES:Technical Engineering Topics Webinar ATTACH;FMTTYPE=image/jpeg:https://www.eit.edu.au/wp-content/uploads/2025/04/TechWebinar_External-Lighting-Design_16.07__00.00.2025_BannerImage_.jpg END:VEVENT BEGIN:VEVENT DTSTART;TZID=UTC:20250710T080000 DTEND;TZID=UTC:20250710T090000 DTSTAMP:20260522T012103 CREATED:20250530T103907Z LAST-MODIFIED:20250714T131718Z UID:58866-1752134400-1752138000@www.eit.edu.au SUMMARY:Green Hydrogen Economics and Transition Challenges DESCRIPTION:The live presentation of this event has already taken place. \nPlease view the PDF slides here or watch the video recording below: \nWebinar details\nAlthough hydrogen has been known since 1670 and an average of 56 million tons is produced annually for industrial purposes\, the large-scale production\, widespread distribution\, and use of green hydrogen remains a relatively new concept globally. While some countries\, particularly within the EU\, possess well-developed gas distribution infrastructure\, the distribution of green hydrogen still presents significant challenges. Its adoption is further hindered by economic models that currently make it more expensive than natural gas. \nAs a fuel\, green hydrogen’s combustion characteristics present additional difficulties for the designers of gas turbines and piston engines. Consequently\, a phased approach is often adopted\, initially blending small percentages of hydrogen with natural or petroleum-based gases. Some manufacturers anticipate that internal combustion engines capable of running on 100% hydrogen will take years to fully develop\, and are therefore producing upgradeable engine units in the interim. \nSafety is another key concern. Public perception often equates hydrogen with high risk\, viewing it as potentially explosive. However\, despite hydrogen’s high calorific value\, its physical properties as a gas can make it safer than many other conventional fuels. \n\nThe webinar will be recorded and will be sent out to registered attendees afterwards.\nA certificate of attendance will be provided to attendees who request one near the end of the live webinar session.\nPlease note: the time stated on this event is in UTC. You will need to convert this to your own time zone.\n\nKey takeaways from this webinar\n\nUnderstand the different types of hydrogen\, with a focus on how green hydrogen fits within the broader industrial hydrogen landscape.\nRecognize the technical\, logistical\, and financial challenges involved in the distribution and adoption of green hydrogen\, both locally and for export.\nGain insight into hydrogen’s combustion and safety characteristics\, as well as the complexities of adapting internal combustion engines for hydrogen use.\n\n\n\n\n\nRelated courses\nThis webinar/topic relates to our school of Renewable Energy  and is particularly found in the following courses: \n\nProfessional Certificate of Competency in Fundamentals of Green Hydrogen Technology\nProfessional Certificate of Competency in Hydrogen Energy – Production\, Delivery\, Storage and Use\nProfessional Certificate of Competency in Hydrogen Powered Vehicles\nProfessional Certificate of Competency in Green Smelting Technologies\n52894WA Advanced Diploma of Applied Electrical Engineering (Renewable Energy)\n52910WA Graduate Certificate in Hydrogen Engineering and Management\n\n\nAbout the presenter\n \nDr. Andries Van der Linde\, EIT Lecturer and Technical Director of Harvard Green Energy \nStarting from humble beginnings as an apprentice electrician at the South African Railways\, Dr Van der Linde caught the eye of the training officer at Volkswagen SA where he subsequently worked as an electrician resulting in an electrical engineering scholarship. After completing his studies\, he worked at Volkswagen as engineering planner until he was offered a full-time post as a lecturer at the now\, Nelson Mandela University. After adding Mechanical Engineering to his name\, it did not take him long to initiate one of the first renewable energy research programs in South Africa to which he added several firsts resulting in him being awarded both the De Beers and Oppenheimer Awards for research\, enabling him to read for his PhD at the University of Hertfordshire in the United Kingdom. During this time\, he published prolifically and was invited to speak at conferences across the globe. His research career ended on a high note with him being awarded the largest grant in academic history to initiate a large-scale wind demonstration project. This project resulted in the first commercial wind farm in South Africa earning him the accolade as the initiator of the South African wind energy industry. \nHe left the academic environment to start his own energy consultancy. However\, he never left the academic environment behind because since then he supervised post graduate students at the Da Vinci Institute\, moderating examinations at the Tswane University of Technology\, while acting as a visiting academic at the Texas Southern University. At the time the educational system was being restructured in South Africa and even here he left his footprint as a consultant to several SETAs\, the Engineering Council and the South African Qualification Authority whom he assisted with Unit Standard and Course Development. URL:https://www.eit.edu.au/event/green-hydrogen-economics-and-transition-challenges/ LOCATION:Online CATEGORIES:Technical Engineering Topics Webinar ATTACH;FMTTYPE=image/jpeg:https://www.eit.edu.au/wp-content/uploads/2025/05/TechWebinar_Green-Hydrogen-Economics_00.00.2025_BannerImage_.jpg END:VEVENT BEGIN:VEVENT DTSTART;TZID=UTC:20250704T140000 DTEND;TZID=UTC:20250704T160000 DTSTAMP:20260522T012103 CREATED:20250625T095937Z LAST-MODIFIED:20250708T125706Z UID:59958-1751637600-1751644800@www.eit.edu.au SUMMARY:Shape the Future of Engineering (Live-Streamed from the United Kingdom) DESCRIPTION:The live presentation of this event has already taken place. \nPlease view the PDF slides here or watch the video recording below: \nAI\, Machine Learning & Innovation in Action\nAre you based in the UK? Join us in-person! Register here\nThis live-streamed webinar is part of a face-to-face workshop hosted in person by our sister institute\, the Engineering College of Technology\, at the Institution of Engineering in the UK. \nWebinar details\nThis live and online session will explore how artificial intelligence and machine learning are reshaping the world of engineering and show you how to harness these tools to future-proof your skills. \n\nThe webinar will be recorded and will be sent out to registered attendees afterwards.\nA certificate of attendance will be provided to attendees who request one near the end of the live webinar session.\nPlease note: the time stated on this event is in UTC. You will need to convert this to your own time zone.\n\nWhat You’ll Gain: \n\nA clear understanding of how AI and machine learning can be applied across engineering disciplines.\nFirst-hand experience using LLMs to improve efficiency\, decision-making\, and system design.\nPractical strategies for integrating AI tools into your work or studies.\nValuable new contacts in the engineering and technology community.\n\nWho Should Attend: \n\nEngineering professionals in all fields of engineering\nLecturers\, researchers\, and academic leaders in engineering\nStudents and recent graduates keen to explore the role of AI in their future careers\n\nRelated courses\nThis webinar/topic relates to our School of Industrial Automation\, Instrumentation and Process Control Engineering at ECT and EIT and is particularly found in the courses below: \n\nProfessional Certificate of Competency in Industrial Automation Engineering\n52886WA Advanced Diploma of Industrial Automation Engineering\nGraduate Diploma of Engineering (Industrial Automation)\n52911WA Graduate Certificate in Internet of Things (loT) for Engineering (Foundations)\nBachelor of Engineering (Honours) in Industrial Automation \nOnline – Bachelor of Science (Industrial Automation Engineering)\nMaster of Science (Industrial Automation and Instrumentation Control)\nOnline – Master of Engineering (Industrial Automation)\n\nAbout the presenters\n \nDr. Steve Mackay\nDean of Engineering at EIT and ECT \nSteve Mackay is a Chartered Professional Engineer with over 40 years of international experience. He has trained more than 30\,000 engineers and is a pioneer in practical\, hands-on engineering education using innovative digital platforms. \n \nDr. Hadi Harb\nAI Consultant and Lecturer at EIT \nStreaming live from Spain\, Dr. Hadi Harb is an AI and machine learning expert with a background in research\, consultancy\, and startup innovation. His current work focuses on natural language processing and intelligent system design. URL:https://www.eit.edu.au/event/shape-the-future-of-engineering-live-streamed-from-the-united-kingdom/ LOCATION:Online CATEGORIES:Technical Engineering Topics Webinar ATTACH;FMTTYPE=image/jpeg:https://www.eit.edu.au/wp-content/uploads/2025/06/TechWebinar_AI-Machine-Learning_00.00.2025_BannerImage_.jpg END:VEVENT BEGIN:VEVENT DTSTART;TZID=UTC:20250703T100000 DTEND;TZID=UTC:20250703T110000 DTSTAMP:20260522T012103 CREATED:20250207T114445Z LAST-MODIFIED:20250704T110603Z UID:56135-1751536800-1751540400@www.eit.edu.au SUMMARY:Driving Sustainability: Energy Efficiency and Renewable Energy in the Mining Industry DESCRIPTION:The live presentation of this event has already taken place. \nPlease view the PDF slides here or watch the video recording below: \nWebinar details\nThe mining industry faces increasing pressure to reduce its environmental impact while maintaining operational efficiency. This webinar explores innovative strategies for integrating energy efficiency and renewable energy solutions into mining operations\, helping companies transition toward sustainability and carbon reduction. Attendees will gain insights into best practices for optimizing energy use\, leveraging renewable technologies such as solar and wind power\, and implementing energy management systems to enhance operational resilience and cost-effectiveness. \n\nThe webinar will be recorded and will be sent out to registered attendees afterwards.\nA certificate of attendance will be provided to attendees who request one near the end of the live webinar session.\nPlease note: the time stated on this event is in UTC. You will need to convert this to your own time zone.\n\nKey takeaways from this webinar\n\nEnergy Efficiency Strategies in Mining Operations: Understand how energy optimization techniques can reduce operational costs and carbon emissions in the mining industry.\nIntegration of Renewable Energy in Mining: Explore the role of solar and wind systems in powering mining operations.\nPathways to Decarbonization and Regulatory Compliance: Discover how energy efficiency and renewables contribute to achieving net-zero targets in mining.\n\nRelated courses\nThis webinar/topic is multidisciplinary and covers the Mechanical engineering and Electrical engineering schools and is particularly found in the following courses: \n\nProfessional Certificate of Competency in Renewable Energy Systems\nProfessional Certificate of Competency in Battery Energy Storage and Applications\n52892WA Advanced Diploma of Electrical and Instrumentation (E&I) Engineering in Mining\n52894WA Advanced Diploma of Applied Electrical Engineering (Renewable Energy)\n52884WA Advanced Diploma of Mechanical Engineering Technology\nOnline – Bachelor of Science (Electrical Engineering)\nOnline – Bachelor of Science (Mechanical Engineering)\n\nTo learn more about tuition fees\, please click here. \nAbout the presenter\n \nMorteza Abdolzadeh\, EIT Lecturer and EPCA Energy Advisor \nMorteza Abdolzadeh is a dedicated and results-driven mechanical engineer with extensive experience in the mining and energy sectors. Holding a Ph.D. in Mechanical Engineering with a specialization in energy conversion\, he has led research and industrial projects focused on energy efficiency\, energy modeling\, and renewable energy integration. His expertise spans engineering design\, renewable energy\, and sustainable energy solutions\, contributing to advancements in both academia and industry. \nPreviously\, Dr. Abdolzadeh served as an Associate Professor in Iran\, where he led research initiatives\, supervised graduate students\, and collaborated with industry partners on energy and decarbonization projects. \nCurrently based in Perth\, Australia\, he works as a lecturer at the Engineering Institute of Technology and an energy adviser at Electric Power Conversions Australia (EPCA). His research interests include optimizing battery performance\, thermal management systems\, and electrification in mining operations. Passionate about bridging the gap between research and industry\, he actively engages in designing energy systems\, mentoring students\, and developing decarbonization strategies. His work aims to drive sustainable engineering solutions and foster impactful collaborations across the energy and mining sectors. URL:https://www.eit.edu.au/event/driving-sustainability-energy-efficiency-and-renewable-energy-in-the-mining-industry/ LOCATION:Online CATEGORIES:Technical Engineering Topics Webinar ATTACH;FMTTYPE=image/jpeg:https://www.eit.edu.au/wp-content/uploads/2025/01/TechWebinar_Driving-Sustainability__00.00.2025_BannerImage_-1.jpg END:VEVENT BEGIN:VEVENT DTSTART;TZID=UTC:20250626T060000 DTEND;TZID=UTC:20250626T070000 DTSTAMP:20260522T012103 CREATED:20250227T103642Z LAST-MODIFIED:20250627T101246Z UID:57016-1750917600-1750921200@www.eit.edu.au SUMMARY:Performance-Based Design for Beginners: Basic Concepts and Applications DESCRIPTION:The live presentation of this event has already taken place. \nPlease view the PDF slides here or watch the video recording below: \nWebinar details\nJoin us for an introductory session on Performance-Based Design (PBD) tailored for beginners. This webinar will explore the fundamental concepts and applications of PBD in the design of G+2 reinforced concrete structures\, following the guidelines of FEMA 356\, ASCE 41-17\, and ATC 40. \nWe will begin with an overview of performance-based design principles\, focusing on structural behavior\, nonlinear analysis techniques\, and performance objectives. Participants will gain insights into how PBD differs from traditional prescriptive methods and why it is essential for designing structures that can withstand seismic forces effectively. \nThe session will then introduce pushover analysis and nonlinear time history analysis\, demonstrating their practical applications using ETABS. \n\nThe webinar will be recorded and will be sent out to registered attendees afterwards.\nA certificate of attendance will be provided to attendees who request one near the end of the live webinar session.\nPlease note: the time stated on this event is in UTC. You will need to convert this to your own time zone.\n\nKey takeaways from this webinar\n\n Structural modeling for PBD\, including material properties and section definitions\nLoad patterns and performance objectives based on FEMA 356 and ASCE 41-17\nPushover analysis: step-by-step implementation and interpretation of results\nEvaluating structural performance and retrofitting strategies\n\nRelated courses\nThis webinar/topic relates to our school of Civil Engineering particularly found in the following courses: \n\nProfessional Certificate of Competency in Building Information Modelling (BIM)\nProfessional Certificate of Competency in Green Building: Carbon Management in Infrastructure\n52873WA Advanced Diploma of Civil and Structural Engineering\n52924WA Graduate Certificate in Civil Construction Management\nOnline – Bachelor of Science (Civil and Structural Engineering)\nGraduate Certificate in Civil Engineering: Structural\n\nAbout the presenter\n \nDr. Mistreselasie Sentayehu Abate\, EIT Lecturer \nDr. Mistreselasie Sentayehu Abate\, (DENG\, PMP\, M.Sc.\, MBA\, PPST) is a pro-active and result-oriented individual with almost 20 years of experience in the field of Civil Engineering. Well-disciplined and dedicated\, he has the proven ability to manage multiple assignments efficiently while meeting tight deadlines. He can work well with people and conveys complex information in an easily understood format. He has years of diverse hands-on structural design and project management experience\, having worked in various roles\, including project manager for UNWFP (United Nations World Food Program) road project\, which was funded by European Union in South Sudan. Currently He is a professional civil engineer at a company called NEB (National Engineering Bureau www.neb.ae) in Dubai\, United Arab Emirates; NEB is the number one architectural firm in Middle East and No. 40 in the world. The World Architecture 100 ranking is released every year by Building Design UK and NEB has been steadily moving-up in list for 10 consecutive years. \nDr. Abate is proficient in utilizing industry-leading software tools such as ETABS\, SAP2000\, MS-Project\, Eagle Point\, AutoCAD Civil 3D\, ArchiCAD\, WaterCAD\, Epanet\, Inroads\, Microsoft Office\, Primavera\, SAFE\, PROKON\, GEO5\, ELPLA\, RSTAB\, ADAPT-PT\, REWARD\, and ADAPT Builder\, among others\, for structural analysis and design. Specialized in PT (Post-Tensioned) design and implementation\, with extensive training in prestressed concrete design from PTI. Skilled in conducting research in performance-based design\, with a focus on seismic performance evaluation of high-rise structures. Currently pursuing a Doctor of Engineering degree at the Engineering Institute of Technology (EIT)\, demonstrating a keen interest in advancing structural engineering methodologies for enhanced safety and resilience. \nIn his research pursuits\, Mistreselasie primarily focuses on evaluating the performance of built structures under extreme conditions\, such as severe earthquakes and high winds. His expertise spans seismic resilience\, innovative structural systems\, site-specific seismic hazard analysis\, vulnerability assessments\, nonlinear modeling of structures\, and studying the dynamic behavior of complex systems during seismic events. With a wealth of experience in structural modeling\, analysis\, and design of buildings\, bridges\, and various structures\, Abate has made significant contributions to academia-industry collaborations. URL:https://www.eit.edu.au/event/performance-based-design-for-beginners-basic-concepts-and-applications/ LOCATION:Online CATEGORIES:Technical Engineering Topics Webinar ATTACH;FMTTYPE=image/jpeg:https://www.eit.edu.au/wp-content/uploads/2025/02/TechWebinar_Performance-Based_26-06_Banner.jpg END:VEVENT BEGIN:VEVENT DTSTART;TZID=UTC:20250619T073000 DTEND;TZID=UTC:20250619T083000 DTSTAMP:20260522T012103 CREATED:20250225T064311Z LAST-MODIFIED:20250619T115107Z UID:56749-1750318200-1750321800@www.eit.edu.au SUMMARY:Battery Storage Systems: Key Solutions for Renewable Energy Integration DESCRIPTION:The live presentation of this event has already taken place. \nPlease view the PDF slides here or watch the video recording below: \nWebinar details\nThe challenges posed by the intermittent nature of renewable energy resources\, particularly in wind and PV power plants\, present significant obstacles for countries with substantial installations of such energy sources. During peak power generation periods\, an excess of generated power from renewable sources beyond load demand can lead to power system overload\, triggering protection devices. An effective solution to this issue is incorporating energy storage systems. \nThis webinar aims to explain various energy storage systems\, primarily focusing on battery energy storage systems. It will comprehensively review diverse battery technologies\, comparing their respective features. Additionally\, a concise examination of power electronic converters\, essential for linking battery energy storage systems to the grid\, will be provided. Finally\, we will delve into an overview of different grid support functions\, including virtual inertia\, peak shaving\, and time shifting. \n\nThe webinar will be recorded and will be sent out to registered attendees afterwards.\nA certificate of attendance will be provided to attendees who request one near the end of the live webinar session.\nPlease note: the time stated on this event is in UTC. You will need to convert this to your own time zone.\n\nKey takeaways from this webinar\n\nCurrent challenges of power systems with high penetration of renewable resources.\nExplore different battery energy storage technologies\nThrough simulations\, the features and advantages of integrating battery energy storage systems into the power grid will be demonstrated to you.\n\nRelated courses\nThis webinar/topic is multidisciplinary and covers the Electrical Engineering and Renewable Energy Engineering  schools and is particularly found in the following courses: \n\nProfessional Certificate of Competency in Battery Energy Storage and Applications\nProfessional Certificate of Competency of Energy Storage\n52883WA Advanced Diploma of Applied Electrical Engineering (Electrical Systems)\n52894WA Advanced Diploma of Applied Electrical Engineering (Renewable Energy)\nOnline – Bachelor of Science (Electrical Engineering)\n52859WA Graduate Certificate in Renewable Energy Technologies\n\nTo learn more about tuition fees\, please click here. \nAbout the presenter\n \nDr. Hossein Dehghani Tafti\, Senior EIT Lecturer \nHossein Dehghani Tafti earned his B.Sc. and M.Sc. degrees in electrical engineering and power system engineering from the Amirkabir University of Technology\, Tehran\, Iran\, in 2009 and 2011\, respectively. He went on to complete his PhD in electrical engineering at Nanyang Technological University Singapore in 2018. From January 2018 to April 2020\, he served as a Research Fellow at Nanyang Technological University\, focusing on the control of photovoltaic systems for grid support. Following that\, from May 2020 to May 2021\, Dr. Tafti held the position of senior research associate at the University of New South Wales\, Sydney\, Australia. During this time\, he concentrated on the modelling and testing of commercial photovoltaic inverters. Currently\, he serves as a senior lecturer at the Engineering Institute of Technology (EIT) and concurrently holds a research fellow position at the Department of Electrical\, Electronic\, and Computer Engineering\, University of Western Australia\, Perth\, WA. His research interests encompass the grid integration of renewable energy sources\, specifically photovoltaics and energy storage\, as well as the design and control of multilevel power converters. URL:https://www.eit.edu.au/event/battery-storage-systems-key-solutions-for-renewable-energy-integration/ LOCATION:Online CATEGORIES:Technical Engineering Topics Webinar ATTACH;FMTTYPE=image/jpeg:https://www.eit.edu.au/wp-content/uploads/2025/02/TechWebinar_Battery-Storage-Systems_19.07_00.00.2025_BannerImage_.jpg END:VEVENT BEGIN:VEVENT DTSTART;TZID=UTC:20250612T120000 DTEND;TZID=UTC:20250612T130000 DTSTAMP:20260522T012103 CREATED:20250311T052806Z LAST-MODIFIED:20250613T101522Z UID:57287-1749729600-1749733200@www.eit.edu.au SUMMARY:Big Data Analytics in Power Systems DESCRIPTION:The live presentation of this event has already taken place. \nPlease view the PDF slides here or watch the video recording below: \nWebinar details\nAs power systems become increasingly complex with the integration of renewable energy\, smart grids\, and IoT technologies\, vast amounts of data are continuously generated. This webinar will explore how big data and machine learning are transforming the energy sector by enabling real-time monitoring\, predictive maintenance\, demand forecasting\, and optimization of energy distribution. \nAttendees will gain insights into data collection\, storage\, and cleaning techniques\, as well as advanced analytics methods applied to enhance reliability\, efficiency\, and sustainability in power networks. Real-world case studies and future trends\, including AI-driven solutions and digital twins\, will also be discussed\, providing a practical understanding of how data-driven technologies are shaping the future of power engineering. \n\nThe webinar will be recorded and will be sent out to registered attendees afterwards.\nA certificate of attendance will be provided to attendees who request one near the end of the live webinar session.\nPlease note: the time stated on this event is in UTC. You will need to convert this to your own time zone.\n\nKey takeaways from this webinar\n\nUnderstand the role of Big Data and Machine Learning in enhancing the efficiency\, reliability\, and sustainability of modern power systems.\nLearn about data lifecycle management in power networks\, including best practices for data collection\, cleaning\, storage\, and real-time analytics.\nExplore real-world applications and case studies showcasing predictive maintenance\, demand forecasting\, smart grid optimization\, and the future of AI in power system management.\n\nRelated courses\nThis webinar/topic relates to the following schools of engineering Electrical Engineering and Industrial Automation\, Instrumentation and Process Control is particularly found in the following courses: \n\nProfessional Certificate of Competency in Big Data and Analytics in Electricity Grids\nProfessional Certificate of Competency in Electrical Power System Protection\n52886WA Advanced Diploma of Industrial Automation Engineering\n52883WA Advanced Diploma of Applied Electrical Engineering (Electrical Systems)\n52911WA Graduate Certificate in Internet of Things (loT) for Engineering (Foundations)\nGraduate Certificate in Industrial Automation and Machine Learning\n\nAbout the presenter\n \nSaeideh Sekhavat\, EIT Lecturer \nSaeideh Sekhavat (Sadie) is a Lecturer\, Researcher\, and IT professional with a strong background in mathematics and a focus on applying artificial intelligence in healthcare. She holds a bachelor’s degree in Applied Mathematics and a graduate degree in Systems Analysis from the National University of Singapore. Her experience includes the use of AI tools and deep learning techniques for medical image processing and analysis to support healthcare applications. Sadie has also been involved in projects related to data analysis\, mathematical modeling\, and computational image analysis. She is currently working as a full-time lecturer at the Engineering Institute of Technology (EIT)\, where she is passionate about delivering practical\, industry-focused education. URL:https://www.eit.edu.au/event/big-data-analytics-in-power-systems-12-june-2025/ LOCATION:Online CATEGORIES:Technical Engineering Topics Webinar ATTACH;FMTTYPE=image/jpeg:https://www.eit.edu.au/wp-content/uploads/2025/03/TechWebinar_Big-Data-Analytics_06.12__00.00.2025_BannerImage_.jpg END:VEVENT BEGIN:VEVENT DTSTART;TZID=UTC:20250605T040000 DTEND;TZID=UTC:20250605T050000 DTSTAMP:20260522T012103 CREATED:20250514T105558Z LAST-MODIFIED:20250605T125823Z UID:58635-1749096000-1749099600@www.eit.edu.au SUMMARY:The Fourth Industrial Revolution: Key Technologies Driving Change DESCRIPTION:The live presentation of this event has already taken place. \nPlease view the PDF slides here or watch the video recording below: \nWebinar details\nJoin Dr. Vishal S Sharma as he delves into the vital technologies that are reshaping industries and show how they can be leveraged for a competitive advantage. \nThis presentation is particularly suited for engineers specializing in Mechanical and Industrial Automation\, along with other professionals interested in mastering these advanced technologies for effective application in their work. Attend this webinar to deepen your knowledge and utilize these innovations to propel your career forward. \n\nThe webinar will be recorded and will be sent out to registered attendees afterwards.\nA certificate of attendance will be provided to attendees who request one near the end of the live webinar session.\nPlease note: the time stated on this event is in UTC. You will need to convert this to your own time zone.\n\nKey takeaways from this webinar\n\nUnderstanding emerging technologies and their industry applications.\nStrategies for practical implementation in mechanical and industrial automation.\nKnowledge on how to maintain a competitive edge in a rapidly evolving tech landscape.\n\nRelated courses\nThis multi-disciplinary webinar/topic relates to our schools of Mechanical and Industrial Automation\, Instrumentation and Process Control Engineering and is particularly found in the  courses below: \n\nProfessional Certificate of Competency in Mechanical Engineering\nProfessional Certificate of Competency in Industrial Automation Engineering\nProfessional Certificate of Competency in Chemical Engineering and Plant Design\n52857WA Advanced Diploma of Plant Engineering\n52884WA Advanced Diploma of Mechanical Engineering Technology\n 52886WA Advanced Diploma of Industrial Automation Engineering\n\nTo learn more about tuition fees\, please click here. \nAbout the presenter\n \nDr. Vishal Sharma\, Senior On-Campus Lecturer & DEng Research Coordination \n\n\n\n\nVishal Santosh Sharma is an accomplished Senior On-Campus Lecturer and Doctoral Research Coordinator at EIT in the field of Mechanical Engineering. He holds a PhD degree from Kurukshetra University in India\, followed by a post-doctoral fellowship at Paris Tech France\, one of the renowned Grandes Écoles. Subsequently\, he actively participated in various projects related to wind turbines and machining at NTNU Norway. \nWith an extensive experience of over 25 years in teaching and research\, specializing in advanced manufacturing\, Vishal has made significant contributions to his field. He has previously worked with the University of the Witwatersrand in Johannesburg\, South Africa\, as well as NIT Jalandhar\, India. Prior to his academic career\, he spent three years working in the industry\, and even while pursuing teaching and research\, he maintained strong ties with the industrial sector\, successfully completing multiple collaborative projects. \nVishal’s research primarily focuses on Advanced Manufacturing\, resulting in the publication of 108 scientific articles. His work has garnered over 3\,600 citations\, establishing an impressive H-index of 34 on Scopus. His expertise has been acknowledged globally\, as he was recognized among the top 2% researchers worldwide\, according to a study conducted by Stanford University. Furthermore\, Vishal has demonstrated his leadership abilities by organizing seven international conferences\, editing special journal issues\, and publishing three books in collaboration with Springer publishers. \nAs a sought-after supervisor\, Vishal has successfully guided thirteen PhD and 28 Masters students in their research journeys\, fostering their academic growth. He has also forged productive collaborations with international faculty members and industry partners\, further enriching his contributions to the field. Additionally\, Vishal has served as an Associate Editor for esteemed journals such as the Journal of Intelligent Manufacturing\, Alexandria Engineering Journal\, and International Journal of Mechatronics and Manufacturing Systems\, further highlighting his influential contributions in academia. URL:https://www.eit.edu.au/event/the-fourth-industrial-revolution-key-technologies-driving-change/ LOCATION:Online CATEGORIES:Technical Engineering Topics Webinar ATTACH;FMTTYPE=image/jpeg:https://www.eit.edu.au/wp-content/uploads/2025/02/The-Fourth-Industrial-Revolution__00.00.2025_BannerImage_.jpg END:VEVENT BEGIN:VEVENT DTSTART;TZID=UTC:20250515T020000 DTEND;TZID=UTC:20250515T030000 DTSTAMP:20260522T012103 CREATED:20250224T125425Z LAST-MODIFIED:20250515T104653Z UID:56148-1747274400-1747278000@www.eit.edu.au SUMMARY:A Study on an Innovative Pin-Connected Structural System for Large-Span Steel Structures DESCRIPTION:The live presentation of this event has already taken place. \nPlease view the PDF slides here or watch the video recording below: \nWebinar details\nJoin us for an in-depth webinar exploring the innovative use of pin-connected joints in long-span steel structures. This session will cover the introduction of a pin-connected joint designed to accommodate in-plane rotation and resist shear forces. \nThese pinned-connections were applied to truss-column joints to support heavy-loaded floors and roofs\, designed in accordance with European codes and compared with American and Australian standards. To gain a comprehensive understanding of the material behavior and structural performance of this pin-connection system\, four specimens\, including two full-scale pin-connections and two truss connections\, were tested under both monotonic and cyclic loads. The webinar will present findings on load–displacement curves\, hysteretic behavior\, ultimate loads\, failure modes\, capacity\, and ductility\, demonstrating the excellent ductility\, load transfer ability\, and capacity of the pin-connection through experimental and numerical results. \n\nThe webinar will be recorded and will be sent out to registered attendees afterwards.\nA certificate of attendance will be provided to attendees who request one near the end of the live webinar session.\nPlease note: the time stated on this event is in UTC. You will need to convert this to your own time zone.\n\nKey takeaways from this webinar\n\nUnderstanding Pin-connected new systems\nChallenges in Large-Span Structures\nBehavior of Truss-Column Pinned Connections\n\nRelated courses\nThis webinar/topic relates to our school of Civil Engineering  and is particularly found in the following courses: \n\nProfessional Certificate of Competency in Structural Design for Non-Structural Engineers\n52873WA Advanced Diploma of Civil and Structural Engineering\n52896WA Advanced Diploma of Civil and Structural Engineering (Materials Testing)\nOnline – Bachelor of Science (Civil & Structural Engineering)\nOnline – Master of Engineering (Civil: Structural)\n\nAbout the presenter\n \nDr. Jianwei Ma\, EIT DEng Candidate & Charted Engineer \nWith over 20 years of experience in structural design\, Dr. Jianwei Ma has successfully led projects across various sectors\, including residential\, high-rise\, industrial\, and commercial buildings. His expertise extends to Australian codes and specifications\, ensuring compliance and excellence in every project. \nProficient in a range of industry-standard software\, Dr. Ma has extensive experience with Space Gass\, Inducta (SLB\, RCB\, PTD)\, Rapt\, Sap2000\, ETABS\, Finite Element Analysis (Abaqus)\, and AutoCAD. His technical skills are complemented by a strong academic background\, highlighted by his published research paper\, “A Multi-Criteria Decision-Making Approach for Assessing the Sustainability of an Innovative Pin-Connected Structural System.” \nDr. Ma is dedicated to advancing structural engineering practices and delivering innovative\, sustainable solutions for complex design challenges. URL:https://www.eit.edu.au/event/a-study-on-an-innovative-pin-connected-structural-system-for-large-span-steel-structures/ LOCATION:Online CATEGORIES:Technical Engineering Topics Webinar ATTACH;FMTTYPE=image/jpeg:https://www.eit.edu.au/wp-content/uploads/2025/02/TechWebinar_A-Study-on-Innovative_00.00.2025_BannerImage_.jpg END:VEVENT BEGIN:VEVENT DTSTART;TZID=UTC:20250507T060000 DTEND;TZID=UTC:20250507T070000 DTSTAMP:20260522T012103 CREATED:20250306T073121Z LAST-MODIFIED:20250507T122932Z UID:57184-1746597600-1746601200@www.eit.edu.au SUMMARY:The Challenge of Water Security in Arid Economies DESCRIPTION:The live presentation of this event has already taken place. \nPlease view the PDF slides here or watch the video recording below: \nWebinar details\nAs the global population grows\, the world is increasingly constrained by water stress. In arid economies this poses a unique set of challenges that require the ability to integrate different skills into high impact teams. In the case of Australia\, a major contributor to the economy is mining. This suggests that growing demands will be made on the Social License to Operate\, which will directly impact the investor confidence needed to sustain economic growth. \nThis webinar provides insight into a conceptual model of water as a changing risk over time. It defines threshold events typically associated with transition from one phase of development to another. Central to this is the need to deal with the cumulative impact of past engineering interventions\, which introduces the notion of non-linearity into the process. It also proposes a new paradigm capable of integrating a broader range of skill sets into technical teams by aligning their output with strategic interests such as investment risk. \n\nThe webinar will be recorded and will be sent out to registered attendees afterwards.\nA certificate of attendance will be provided to attendees who request one near the end of the live webinar session.\nPlease note: the time stated on this event is in UTC. You will need to convert this to your own time zone.\n\nKey takeaways from this webinar\n\nUnderstanding what water security means for arid economies.\nLearning how to manage aridity from an engineering perspective.\nLinking these activities to the capacity for economic growth despite growing water constraints.\n\nRelated courses\nThis webinar/topic is multidisciplinary and relates to the following schools of engineering: \n\nCivil Engineering\nIndustrial Automation\, Instrumentation and Process Control\nData Comms & Industrial IT\n\nAbout the presenter\n \nDr. Anthony Turton\, EIT lecturer and Head of Strategy Nexus Resilience \nDr. Anthony Turton completed his PhD on water as a national security risk\, focusing on contested shared rivers. His work was classified at the time and involved professional engagement with various governments worldwide where water was a national security issue. He later transitioned from the classified environment and became a Fellow at the CSIR. In that role\, he was appointed Vice Chairman of the Research Advisory Panel (RAP)\, the highest organ in the CSIR responsible for the parliamentary grant allocation to the national water strategy. Part of his core responsibility at the CSIR was serving as a media spokesperson for water\, which significantly raised his profile. He also served as Deputy Governor on the World Water Council and continues to work as an editor for their official journal\, Water Policy. He was the Executive Director of the International Water Resource Association (IWRA) and later became Deputy President. He also became a founding member of the Universities Partnership for Transboundary Water. In these roles\, he gained considerable experience working in transdisciplinary teams that included process engineers\, mining engineers\, environmental scientists\, and geohydrologists. \nAfter leaving the CSIR\, Dr. Turton was appointed as a Professor at the Center for Environmental Management at the University of the Free State. He began working on water as a risk and opportunity for mining companies. In that role\, he was appointed as an advisor to the Chairman of the Board and/or CEO of two Australian-listed mining companies operating in South Africa. One was a gold tailing recovery process\, and the other was a major open-cast metallurgical coal mining operation. He has worked with various governments in an advisory role\, including those of the Nile\, Mekong\, Helmand\, and Jordan Rivers. On the commercial side\, he has worked as a consultant to the financial services industry\, including institutional investment fund managers\, focusing on water as a risk to their portfolios. One of his last professional assignments before immigrating was as an advisor to various litigators involving the collapse of water and sewage services in South Africa. His work in Australia has included serving as an external reviewer for Vic Water in Melbourne and the Burdekin River Forum in Queensland. URL:https://www.eit.edu.au/event/the-challenge-of-water-security-in-arid-economies/ LOCATION:Online CATEGORIES:Technical Engineering Topics Webinar ATTACH;FMTTYPE=image/jpeg:https://www.eit.edu.au/wp-content/uploads/2025/03/TechWebinar_The-Challenge-of-Water-Security-in-Arid-Economies_00.00.2025_BannerImage_.jpg END:VEVENT BEGIN:VEVENT DTSTART;TZID=UTC:20250501T060000 DTEND;TZID=UTC:20250501T070000 DTSTAMP:20260522T012103 CREATED:20250324T110925Z LAST-MODIFIED:20250502T123033Z UID:57547-1746079200-1746082800@www.eit.edu.au SUMMARY:Optimizing Operations Through Digital Transformation DESCRIPTION:The live presentation of this event has already taken place. \nPlease view the PDF slides here or watch the video recording below:\n \nWebinar details\nWith over 13 years of experience in asset management and maintenance planning\, Alex Payne-Billard will share valuable insights on how digital transformation can enhance operational performance. From the development of the digital uptake for an Australian operator to optimizing asset management frameworks for a world-class Rail Loop\, Alex has successfully leveraged data-driven solutions to improve asset performance and streamline maintenance operations. Her experience implementing predictive maintenance strategies and enhancing rolling stock management through advanced data analytics has delivered significant improvements in efficiency and reliability. \nIn this webinar\, Alex will explore how digital tools such as asset performance monitoring systems\, predictive analytics\, GenAI and digital twins can help organizations reduce downtime\, improve decision-making\, and enhance customer experience. Using case studies from her experience\, highlighting lessons learned and how to fill those gaps\, she guides the end user on a digital transformation journey. Attendees will gain practical strategies for managing change\, improving cross-functional collaboration\, and achieving long-term operational success through digital transformation. \n\nThe webinar will be recorded and will be sent out to registered attendees afterwards.\nA certificate of attendance will be provided to attendees who request one near the end of the live webinar session.\nPlease note: the time stated on this event is in UTC. You will need to convert this to your own time zone.\n\nKey takeaways from this webinar\n\nEnhance Asset Performance with Digital Tools: Leverage predictive analytics\, GenAI\, and digital twins to reduce downtime and boost operational efficiency.\nBridge Strategy and Execution: Learn from real-world case studies on optimizing asset management frameworks and implementing predictive maintenance strategies.\nDrive Successful Digital Transformation: Master change management techniques to improve collaboration and deliver seamless customer experiences.\n\nRelated courses\nThis webinar/topic is multidisciplinary and relates to the following schools of engineering: \n\nCivil Engineering\nIndustrial Automation\, Instrumentation and Process Control\nData Comms & Industrial IT\nElectronic Engineering\nMechanical Engineering\nElectrical Engineering\n\nAbout the presenter\n \nAlex Payne-Billard\, Lead Engineer\, Rail & Mass Transit \nAlex Payne-Billard has extensive experience leading digital transformation initiatives and ensuring operational readiness across the transport and infrastructure sectors. In her role at Aurecon\, she provided asset management expertise and implemented process improvements for major rail projects\, including the Suburban Rail Loop and Queensland Rail’s projects. She successfully leveraged data analytics and digital tools to enhance maintenance strategies\, improve asset performance\, and streamline operations. Her ability to align digital solutions with business objectives and manage change has been instrumental in driving efficiency and improving customer outcomes. \nAdditionally\, Alex has worked closely with stakeholders to assess system requirements\, implement new technologies\, and ensure seamless transitions from project delivery to day-one operational readiness. Her focus on customer experience and risk management has allowed her to deliver successful outcomes in complex environments while managing the technical and cultural aspects of digital transformation. URL:https://www.eit.edu.au/event/optimizing-operations-through-digital-transformation/ LOCATION:Online CATEGORIES:Technical Engineering Topics Webinar ATTACH;FMTTYPE=image/jpeg:https://www.eit.edu.au/wp-content/uploads/2025/03/TechWebinar_Optimizing-Operations-Through-Digital-Transformation__00.00.2025_BannerImage_.jpg END:VEVENT BEGIN:VEVENT DTSTART;TZID=UTC:20250424T080000 DTEND;TZID=UTC:20250424T090000 DTSTAMP:20260522T012103 CREATED:20250115T133712Z LAST-MODIFIED:20250515T104629Z UID:55618-1745481600-1745485200@www.eit.edu.au SUMMARY:Six Easy Pieces of Physics As Applied to Engineering DESCRIPTION:The live presentation of this event has already taken place. \nPlease view the PDF slides here or watch the video recording below: \nWebinar details\nThis webinar offers a rare chance to explore six of the most fascinating topics from The Feynman Lectures on Physics in a simplified\, engaging format without requiring a formal mathematics background. Whether you’re a seasoned enthusiast or new to physics\, this session provides an accessible and enriching experience. \nThis is taken from the book Six Easy Pieces Essentials of Physics by Richard P. Feynman: Explained by its most Brilliant Teacher. \nThere are six sections; \n\nAtoms in Motion\nBasic Physics\nRelation of Physics to other Sciences\nConservation of Energy\nThe Theory of Gravitation\nQuantum Behaviour\n\nFive compelling reasons why you should attend this: \n\nUnderstand the Movement of Atoms and Its Impact on Everyday Life\nThe first section\, Atoms in Motion\, delves into the fundamental building blocks of matter and how their motion shapes everything we see and experience. This foundational concept is not only fascinating but also explains real-world phenomena in a way that’s easy to grasp for a general audience.\nExplore Conservation of Energy in Action\nThe Conservation of Energy section breaks down this cornerstone of physics\, showing how energy is never lost but transforms from one form to another. Understanding this principle helps in interpreting everything from mechanical systems to renewable energy technologies\, making it practical and relevant.\nDemystify Quantum Behavior Without Complex Math\nThe Quantum Behavior section introduces one of the most perplexing and revolutionary ideas in modern science. By attending\, you’ll gain an accessible understanding of concepts like wave-particle duality and uncertainty\, which underpin technologies like semiconductors\, lasers\, and quantum computing—presented in a way anyone can comprehend.\nThese materials not only showcase the beauty of physics but also connect them to everyday applications and groundbreaking technologies\, ensuring an engaging and enlightening experience.\nEngage in Interactive Learning\nUnlike passive lectures\, this webinar incorporates hands-on demonstrations using Python code. Participants can interact with physics concepts in real-time\, fostering deeper understanding and offering practical skills that can be applied beyond the session.\nBroaden Your Horizons Beyond Science\nRichard Feynman’s multidisciplinary approach—spanning science\, problem-solving\, art\, and even music—is an inspiring reminder of the interconnectedness of knowledge. This webinar doesn’t just teach physics; it offers a philosophy of curiosity and innovation that can energize personal and professional growth.\n\nRichard Feynman was one of the most famous and beloved but riveting physicists of the 20th century. He was Professor of Theoretical Physics at the California Institute of Technology and was awarded the Nobel Prize for his work in quantum field theory. Steve Mackay\, the presenter\, really enjoyed reading (some of) his incredible volume of writings and attending his lectures online. A practical person – he chaired the Challenger Rocket disaster and gave a simple and practical explanation of what caused the crash. He was also a repairer of radios\, a picker of locks\, an artist\, a dancer\, a bongo player and a decipherer of Mayan hieroglyphics. \nThis will be presented in one hour and you will have the opportunity to demonstrate some of the concepts with Python code online. \n\nThe webinar will be recorded and will be sent out to registered attendees afterwards.\nA certificate of attendance will be provided to attendees who request one near the end of the live webinar session.\nPlease note: the time stated on this event is in UTC. You will need to convert this to your own time zone.\n\nKey takeaways from this webinar\n\nA Unique Perspective on Physics\nExplore six fundamental topics from The Feynman Lectures on Physics\, including atoms in motion\, basic physics\, and quantum behavior\, presented in an accessible\, mathematics-free format for a general audience.\nRichard Feynman’s Legacy\nGain insights into the life and contributions of Nobel Laureate Richard Feynman\, a legendary physicist known for his groundbreaking work in quantum field theory\, practical problem-solving\, and multidisciplinary interests.\nInteractive Learning with Python\nParticipate in a hands-on opportunity to demonstrate key physics concepts using Python code\, making the session both engaging and practically applicable.\n\nRelated courses\nThis multi-disciplinary webinar/topic relates to our schools of: \n\nMechanical Engineering\nElectrical Engineering\nIndustrial Automation\, Instrumentation and Process Control\nCivil Engineering\n\nTo learn more about tuition fees\, please click here. \nAbout the presenter\n \nSteve Mackay\, EIT’s Dean of Engineering \nDr. Mackay has enjoyed a varied career in engineering\, having worked in automation\, data acquisition\, instrumentation\, data communications\, and process control throughout Australia\, Europe\, Africa\, and North America over the past 35 years. He has successfully pioneered the application of new technologies in Australia and overseas\, installing industrial data communication systems and implementing live online education\, (including remote laboratories)\, for engineering students worldwide. \nSteve Mackay has been involved in a range of industries\, including power stations\, mining\, mineral processing\, oil/gas/petrochemical plants\, and platforms. He has presented courses on industrial data communications\, data acquisition\, instrumentation\, and process control to over 30\,000 engineers and technicians worldwide for clients such as NASA\, Rolls Royce\, and BP. He has also co-authored and edited 25 engineering books that have been published across the world. Steve Mackay is a Fellow of Engineers Australia with a license to practice as a Chemical\, Mechanical\, and Electrical Chartered Professional Engineer. \nAs Dean of the Engineering Institute of Technology\, Steve Mackay leads the institute in providing micro-credentials and engineering qualifications to over 1500 students per year from 140 countries. He has an unswerving focus on student outcomes and on excellence in education. URL:https://www.eit.edu.au/event/six-easy-pieces-of-physics-as-applied-to-engineering/ LOCATION:Online CATEGORIES:Technical Engineering Topics Webinar ATTACH;FMTTYPE=image/jpeg:https://www.eit.edu.au/wp-content/uploads/2025/01/24.04.2025_BannerImage.jpg END:VEVENT BEGIN:VEVENT DTSTART;TZID=UTC:20250313T010000 DTEND;TZID=UTC:20250313T020000 DTSTAMP:20260522T012103 CREATED:20250130T123048Z LAST-MODIFIED:20250424T125436Z UID:56099-1741827600-1741831200@www.eit.edu.au SUMMARY:Integrated Risk Assessment and Management Frameworks DESCRIPTION:The live presentation of this event has already taken place. \nPlease view the PDF slides here or watch the video recording below: \nWebinar details\nThis topic focuses on the principles and practices of integrating risk assessment and management into structured\, cohesive frameworks that enhance decision-making\, safety\, and operational resilience across diverse industries. It provides a detailed exploration of methodologies for identifying\, analyzing\, and mitigating risks\, ensuring alignment with organizational objectives and regulatory standards. \nParticipants will gain insights into the importance of embedding risk management frameworks into operational processes\, fostering a proactive approach to risk identification\, and implementing sustainable strategies to mitigate potential threats. This approach ensures greater efficiency\, compliance\, and long-term organizational success. \n\nThe webinar will be recorded and will be sent out to registered attendees afterwards.\nA certificate of attendance will be provided to attendees who request one near the end of the live webinar session.\nPlease note: the time stated on this event is in UTC. You will need to convert this to your own time zone.\n\nKey takeaways from this webinar\n\nUnderstanding Integrated Risk Management Frameworks\nProactive Risk Identification and Mitigation\nEnhancing Decision-Making and Operational Resilience\n\nRelated courses\nThis multi-disciplinary webinar/topic relates to our schools of: \n\n\n\nCivil Engineering\nMechanical Engineering\nElectrical Engineering\nIndustrial Automation\, Instrumentation and Process Control\n\n\n\nTo learn more about tuition fees\, please click here. \nAbout the presenter\n \nAsieh Soltani\, EIT Lecturer & Civil Engineer \nAsieh is a distinguished Railway Engineer with extensive experience in rail and transit systems\, specializing in safety management. Her expertise encompasses developing and implementing comprehensive safety frameworks for rail transport\, tramways\, and urban transit infrastructure. Asieh has led initiatives in safety audits\, design reviews\, and quality assurance\, ensuring compliance with industry standards while enhancing system reliability and resilience. Her contributions also include master planning\, infrastructure optimization\, and conducting in-depth safety analyses to advance safer and more efficient railway operations. \nIn addition to her engineering achievements\, Asieh holds a Master’s degree in Natural Disaster Risk Management and a Doctorate in Business Administration (DBA). These qualifications equip her with a unique ability to integrate risk mitigation and strategic planning into railway projects. Since joining EIT in 2020\, Asieh has been teaching the unit Incident/Accident Investigations and Learning from Disasters\, where she shares her expertise and insights to educate the next generation of industry professionals. URL:https://www.eit.edu.au/event/integrated-risk-assessment-and-management-frameworks/ LOCATION:Online CATEGORIES:Technical Engineering Topics Webinar ATTACH;FMTTYPE=image/jpeg:https://www.eit.edu.au/wp-content/uploads/2025/01/TechWebinar_-Integrated-Risk__00.00.2025_BannerImage_.jpg END:VEVENT BEGIN:VEVENT DTSTART;TZID=UTC:20250305T210000 DTEND;TZID=UTC:20250305T220000 DTSTAMP:20260522T012103 CREATED:20250117T125746Z LAST-MODIFIED:20250306T110950Z UID:55729-1741208400-1741212000@www.eit.edu.au SUMMARY:Discover the Future of Urban Living Through Sustainable Infrastructure DESCRIPTION:The live presentation of this event has already taken place. \nPlease view the PDF slides here or watch the video recording below: \nWebinar details\nThis webinar will provide an in-depth exploration of the future of urban living\, with a focus on how innovative sustainable infrastructure solutions are revolutionizing the way we design and manage cities. Throughout the presentation\, we will explore the integration of cutting-edge smart city technologies such as Digital Twin\, the Internet of Things (IoT)\, and advanced data analytics to create urban environments that are not only resilient but also energy-efficient. \nWe will highlight eco-friendly construction practices\, including green building materials and low-carbon technologies\, which play a critical role in reducing the environmental footprint of urban developments. In addition\, the webinar will examine how these engineering advancements align with the United Nations’ Sustainable Development Goals (SDGs)\, particularly in the areas of environmental sustainability\, social equity\, and economic growth. \n\nThe webinar will be recorded and will be sent out to registered attendees afterwards.\nA certificate of attendance will be provided to attendees who request one near the end of the live webinar session.\nPlease note: the time stated on this event is in UTC. You will need to convert this to your own time zone.\n\nKey takeaways from this webinar\n\nUnderstand the role of sustainable infrastructure in the future of urban living.\nLearn how emerging technologies like Digital Twin and IoT are transforming urban environments.\nGain insights into practical strategies for implementing sustainable construction practices to meet global sustainability goals.\n\nRelated courses\nThis webinar/topic relates to our school of Civil Engineering and is particularly found in the following courses: \n\nProfessional Certificate of Competency in Industrial Internet of Things\nProfessional Certificate of Competency in Geotechnical Monitoring and Structural Instrumentation\nProfessional Certificate of Competency in Building Information Modelling (BIM)\n52873WA Advanced Diploma of Civil and Structural Engineering\nOnline – Bachelor of Science (Civil & Structural Engineering)\nOnline – Master of Engineering (Civil: Structural)\n52924WA Graduate Certificate in Civil Construction Management\n\nTo learn more about tuition fees\, please click here. \nAbout the presenter\n \nDr. Karoline Figueiredo\, EIT Lecturer \nDr. Karoline Figueiredo is a civil engineer with a strong focus on sustainable construction and the integration of cutting-edge technologies such as Digital Twins and Blockchain. She holds a Ph.D. in Environmental Engineering (Built Environment Concentration) from the Federal University of Rio de Janeiro (UFRJ – Brazil)\, where her research aimed to minimize the environmental\, social\, and economic impacts of construction projects. Dr Karoline has also collaborated internationally as a researcher at Universitat Rovira I Virgili (Spain) and Western Sydney University (Australia)\, contributing significantly to advancements in life cycle assessment methodologies for construction. \nDr. Karoline is the co-editor of the book “Materials Selection for Sustainability in the Built Environment: Environmental\, Social and Economic Aspects”\, which addresses critical decision-making processes for selecting sustainable construction materials. In addition to her academic roles\, she serves as a reviewer and editor for prominent international journals. Currently\, she lectures at the Engineering Institute of Technology (EIT)\, Australia\, and UFRJ\, Brazil\, where she specializes in Building Information Modeling (BIM)\, Life Cycle Sustainability Assessment (LCSA)\, and other essential methodologies and technologies\, empowering students and professionals to develop innovative solutions for construction challenges. URL:https://www.eit.edu.au/event/discover-the-future-of-urban-living-through-sustainable-infrastructure/ LOCATION:Online CATEGORIES:Technical Engineering Topics Webinar ATTACH;FMTTYPE=image/jpeg:https://www.eit.edu.au/wp-content/uploads/2025/01/05.03.2025_BannerImage.jpg END:VEVENT BEGIN:VEVENT DTSTART;TZID=UTC:20250219T020000 DTEND;TZID=UTC:20250219T030000 DTSTAMP:20260522T012103 CREATED:20241011T075025Z LAST-MODIFIED:20250219T070930Z UID:53158-1739930400-1739934000@www.eit.edu.au SUMMARY:Unlocking the Power of Edge Computing: Real-Time Decision Making at the Device Level DESCRIPTION:Please view the PDF slides here or watch the video recording below: \nWebinar details\nAs connected devices become more widespread and sophisticated\, the demand for real-time decision-making without relying on cloud latency has grown significantly. This shift has fueled the rise of edge computing – a transformative technology that allows for instantaneous data processing directly on local devices. Whether it’s remote mining equipment\, autonomous vehicles\, or military drones\, edge computing enables these devices to analyze data on the spot\, even in environments with limited connectivity. \nIn this webinar\, we will demystify edge computing and explore its crucial role in the evolving landscape of industrial automation. You’ll learn how edge computing streamlines data transmission between machines and humans\, powering advanced technologies like machine learning and augmented reality. Attendees will gain valuable insights into how edge computing operates and how it can drive innovation and efficiency across various sectors. To make these concepts tangible\, we’ll wrap up with a demonstration using a simple hardware setup that showcases how edge computing works in real-time. \nJoin us to cut through the hype and discover the true value of edge computing in today’s digital world. \n\nThe webinar will be recorded and will be sent out to registered attendees afterwards.\nA certificate of attendance will be provided to attendees who request one near the end of the live webinar session.\nPlease note: the time stated on this event is in UTC. You will need to convert this to your own time zone.\n\nKey takeaways from this webinar\n\nStreamlining Data Transmission: Discover how edge computing enhances data transmission between machines and humans\, enabling advanced technologies like machine learning and augmented reality.\nDriving Innovation and Efficiency: Gain insights into the operational aspects of edge computing and its potential to revolutionize efficiency and innovation across diverse sectors.\nReal-Time Demonstration: Experience the practical application of edge computing through a live demonstration using a simple hardware setup\, showcasing its real-time functionality.\n\nRelated courses\nThis webinar/topic relates to our school of Industrial Automation\, Instrumentation and Process Control and Electronic Engineering and is particularly found in the following courses: \n\nProfessional Certificate of Competency in Industrial Internet of Things\nGraduate Certificate in Industrial Automation and Machine Learning\n52867WA Advanced Diploma of Industrial Data Communication\, Networking and IT\nOnline – Bachelor of Science (Industrial Automation Engineering)\nOnline – Master of Engineering (Industrial Automation)\n\nTo learn more about tuition fees\, please click here. \nAbout the presenter\n \nDr. Ali Marzoughi \, EIT Lecturer  \nDr. Ali Marzoughi is a highly experienced professional engineer with a robust academic foundation and over 20 years of diverse industry experience. He holds a Bachelor’s degree in Electrical/Electronics Engineering\, a Master’s degree in Mechatronics and Automatic Control\, and a PhD in Robotics and Automatic Control from the University of New South Wales (UNSW)\, Australia. \nAfter graduating with his bachelor’s degree\, Dr. Marzoughi began his career as an instrumentation engineer in the oil and gas industry. His expertise and leadership quickly propelled him to project management roles\, where he led electrical and instrumentation efforts on several major EPC projects. \nThroughout his career\, Dr. Marzoughi has maintained a strong connection to academia and R&D\, working in various technical and leadership roles both nationally and internationally. Since 2019\, he has been affiliated with the Engineering Institute of Technology (EIT) as a unit coordinator\, lecturer\, and thesis supervisor\, where he continues to contribute to the academic and professional development of future engineers. URL:https://www.eit.edu.au/event/unlocking-the-power-of-edge-computing-real-time-decision-making-at-the-device-level/ LOCATION:Online CATEGORIES:Technical Engineering Topics Webinar ATTACH;FMTTYPE=image/jpeg:https://www.eit.edu.au/wp-content/uploads/2024/09/18.12.2024_BannerImage.jpg END:VEVENT BEGIN:VEVENT DTSTART;TZID=UTC:20250212T060000 DTEND;TZID=UTC:20250212T070000 DTSTAMP:20260522T012103 CREATED:20250212T085245Z LAST-MODIFIED:20250212T131556Z UID:56191-1739340000-1739343600@www.eit.edu.au SUMMARY:Power Quality Challenges in Power Systems with High Renewable Penetration DESCRIPTION:The live presentation of this event has already taken place. \nPlease view the PDF slides here or watch the video recording below:\n \nWebinar details\nConventional power production resources\, such as coal and petroleum\, emit carbon\, which is hazardous to the environment. To address this issue\, renewable energy resources are increasingly used for power generation. Among these\, solar power is one of the most abundant and accessible resources. Its lack of mechanical involvement makes it easy to integrate at various scales\, from residential homes to large industrial firms. \nIn 2020\, solar PV production reportedly increased by 23% compared to 2019\, highlighting the growing global popularity of solar power. However\, issues related to power quality and harmonics in integrated systems remain critical when transferring power to the grid. To improve PV system performance\, various inverter configurations have been proposed in the literature. Among these\, multilevel converters have proven to be the most effective option for minimizing harmonics and reducing noise interference\, thereby addressing key power quality challenges. \n\nThe webinar will be recorded and will be sent out to registered attendees afterwards.\nA certificate of attendance will be provided to attendees who request one near the end of the live webinar session.\nPlease note: the time stated on this event is in UTC. You will need to convert this to your own time zone.\n\nKey takeaways from this webinar\n\nRenewable Energy Penetration in Power Systems\nPotential Power Quality Challenges\nResearch based Case Study\n\nRelated courses\nThis webinar/topic relates to our school of Electrical Engineering and Renewable Energy and is particularly found in the following courses: \n\nProfessional Certificate of Competency in Fundamentals of Green Hydrogen Technology\nUndergraduate Certificate in Electrical Engineering\n52888WA Advanced Diploma of Applied Electrical Engineering (Power Industry)\nOnline – Bachelor of Science (Electrical Engineering)\n52859WA Graduate Certificate in Renewable Energy Technologies\nOnline – Master of Engineering (Electrical Systems)\n\nTo learn more about tuition fees\, please click here. \nAbout the presenter\n \nDr. Munira Batool\, EIT Lecturer \nDr. Munira Batool received the Ph.D. degree from Curtin University\, Australia\, in May 2019. She has over 15 years of extensive experience of teaching and research in the university sector. She is currently an Assistant Professor with the University of Engineering and Technology Taxila. She is also a Postgraduate Research Supervisor with the Electrical Engineering Department\, EIT Australia. \nShe has commendable teaching experiences in power system generation\, power system transmission\, power system distribution and utilization\, power system protection\, and electric power system analysis. Her research interests include distributed energy generation-based power systems\, renewable energy sources integration and control\, microgrids\, and smart grids. Initially\, this was applied to improve the performance of distributed energy generation systems using optimization methods. More recently\, her research efforts have involved the optimal sizing and siting of renewable energy sources (like PV and wind) in distribution networks using novel power electronic converters and controllers. She is a subject matter expertise on modelling and simulating\nrenewable energy-based power system networks using software commonly used in the industry. The results of her research have been published in high ranked journals and conference papers. URL:https://www.eit.edu.au/event/power-quality-challenges-in-power-systems-with-high-renewable-penetration-2/ LOCATION:Online CATEGORIES:Technical Engineering Topics Webinar ATTACH;FMTTYPE=image/jpeg:https://www.eit.edu.au/wp-content/uploads/2024/12/12.02.2025_BannerImage.jpg END:VEVENT BEGIN:VEVENT DTSTART;TZID=UTC:20250206T060000 DTEND;TZID=UTC:20250206T070000 DTSTAMP:20260522T012103 CREATED:20250117T124749Z LAST-MODIFIED:20250213T082937Z UID:55743-1738821600-1738825200@www.eit.edu.au SUMMARY:Data Communications: The Backbone of Modern Power Systems DESCRIPTION:Please view the PDF slides here or watch the video recording below:\n \nWebinar details\nIn the age of digital transformation\, reliable\, efficient\, and sustainable power systems depend on seamless data communication. This technical webinar dives deep into the pivotal role communication technologies play in modern power system infrastructure. Designed for professionals and enthusiasts alike\, the session offers a thorough exploration of cutting-edge communication solutions\, their practical integration\, and the challenges they address in today’s energy landscape. \nAttendees will gain actionable insights into state-of-the-art technologies\, industry standards\, and future innovations shaping the power systems of tomorrow. From foundational protocols to emerging trends\, this webinar equips participants with the knowledge to navigate the complexities of data communication in energy systems confidently. \n\nThe webinar will be recorded and will be sent out to registered attendees afterwards.\nA certificate of attendance will be provided to attendees who request one near the end of the live webinar session.\nPlease note: the time stated on this event is in UTC. You will need to convert this to your own time zone.\n\nKey takeaways from this webinar\n\nGain insights into communication technologies transforming modern power systems.\nUnderstand the role of optical communication in ensuring grid reliability.\nLearn about the latest trends and challenges shaping the future of power systems.\n\nRelated courses\nThis webinar/topic relates to our school of Data Comms & Industrial IT and Electrical Engineering and is particularly found in the following courses: \n\n52911WA Graduate Certificate in Internet of Things (loT) for Engineering (Foundations)\nProfessional Certificate of Competency in 5G Technology and Services\n52867WA Advanced Diploma of Industrial Data Communication\, Networking and IT\nProfessional Certificate of Competency in Industrial Data Communications\nProfessional Certificate of Competency in Industrial Internet of Things\nOnline – Bachelor of Science (Electrical Engineering)\n52888WA Advanced Diploma of Applied Electrical Engineering (Power Industry)\n\nTo learn more about tuition fees\, please click here. \nAbout the presenter\n \nDr. Amirhassan Zareanborji\, EIT Lecturer \nAmirhassan Zareanborji\, with over 18 years of extensive experience\, has excelled as a Senior Lecturer and Researcher in Electrical Engineering and Telecommunications\, contributing to renowned institutions such as the Engineering Institute of Technology (EIT)\, UNSW College\, UNSW\, and AU. His academic expertise includes teaching\, curriculum development\, and conducting advanced research in photonics and optics. \nIn addition to his academic roles\, Amirhassan brings significant industrial experience\, having served as a Senior Telecommunications Network Designer\, Planner\, Project Manager\, and Coordinator at Cyient Australia and IGMC. This unique combination of academic and industry expertise allows him to bridge the gap effectively between theoretical knowledge and practical applications. URL:https://www.eit.edu.au/event/data-communications-the-backbone-of-modern-power-systems/ LOCATION:Online CATEGORIES:Technical Engineering Topics Webinar ATTACH;FMTTYPE=image/jpeg:https://www.eit.edu.au/wp-content/uploads/2025/01/06.02.2025_BannerImage.jpg END:VEVENT BEGIN:VEVENT DTSTART;TZID=UTC:20250129T080000 DTEND;TZID=UTC:20250129T090000 DTSTAMP:20260522T012103 CREATED:20241212T110648Z LAST-MODIFIED:20250129T133759Z UID:55188-1738137600-1738141200@www.eit.edu.au SUMMARY:Your Wonderful Engineering Career! DESCRIPTION:The live presentation of this event has already taken place. \nPlease view the PDF slides here or watch the video recording below: \n \n*We sincerely apologize for the technical issues that prevented us from capturing the full recording of the webinar. \nWebinar details\nStay ahead in the dynamic world of engineering – join us for an exclusive webinar designed to equip you with the insights and practical know-how you need to thrive in today’s competitive job market. \nIn this session\, you’ll uncover the latest industry trends\, discover in-demand skills\, and get actionable advice to enhance your career prospects with use of the latest tools in AI.\nPlus\, all attendees will receive our latest engineering jobs research in our Engineering Jobs Report\, providing valuable data on the global job market and what top employers are looking for! \n\nThe webinar will be recorded and will be sent out to registered attendees afterwards.\nA certificate of attendance will be provided to attendees who request one near the end of the live webinar session.\nPlease note: the time stated on this event is in UTC. You will need to convert this to your own time zone.\n\nKey takeaways from this webinar\nKey Trends in Engineering Jobs \nDiscover how emerging technologies like AI\, data analytics\, and renewable energy are reshaping the industry. Gain a comprehensive overview of engineering job trends in Australia\, New Zealand\, the UK\, South Africa\, the USA\, Ireland and Canada. Get the inside scoop on where the opportunities are and what employers are seeking. \nIn-Demand Skills for Success \nLearn about the cutting-edge engineering skills that employers want and what will set you apart. \nAI and YOU \nLearn the key building blocks of AI and then perform an AI analysis of selected videos for engineering design and safety issues. \nKey Topics in this webinar \n\nWhere are the Jobs?\nKey Engineering Skills Employers want\nAI and YOU – How it will help you\nBreakout Groups and Presentations\nWrap Up\n\nAbout the presenter\n \nSteve Mackay\, EIT’s Dean of Engineering \nDr. Mackay has enjoyed a varied career in engineering\, having worked in automation\, data acquisition\, instrumentation\, data communications\, and process control throughout Australia\, Europe\, Africa\, and North America over the past 35 years. He has successfully pioneered the application of new technologies in Australia and overseas\, installing industrial data communication systems and implementing live online education\, (including remote laboratories)\, for engineering students worldwide. \nSteve Mackay has been involved in a range of industries\, including power stations\, mining\, mineral processing\, oil/gas/petrochemical plants\, and platforms. He has presented courses on industrial data communications\, data acquisition\, instrumentation\, and process control to over 30\,000 engineers and technicians worldwide for clients such as NASA\, Rolls Royce\, and BP. He has also co-authored and edited 25 engineering books that have been published across the world. Steve Mackay is a Fellow of Engineers Australia with a license to practice as a Chemical\, Mechanical\, and Electrical Chartered Professional Engineer. \nAs Dean of the Engineering Institute of Technology\, Steve Mackay leads the institute in providing micro-credentials and engineering qualifications to over 1500 students per year from 140 countries. He has an unswerving focus on student outcomes and on excellence in education. URL:https://www.eit.edu.au/event/your-wonderful-engineering-career/ LOCATION:Online CATEGORIES:Technical Engineering Topics Webinar ATTACH;FMTTYPE=image/jpeg:https://www.eit.edu.au/wp-content/uploads/2024/12/29.01.2025_BannerImage.jpg END:VEVENT BEGIN:VEVENT DTSTART;TZID=UTC:20250123T100000 DTEND;TZID=UTC:20250123T110000 DTSTAMP:20260522T012103 CREATED:20241212T100902Z LAST-MODIFIED:20250213T082607Z UID:55182-1737626400-1737630000@www.eit.edu.au SUMMARY:The Role of AI in Enhancing Production and Operational Efficiency DESCRIPTION:Please view the PDF slides here or watch the video recording below:\n \nWebinar details\nAI-powered systems are transforming industries through predictive maintenance\, quality control\, and supply chain optimization. By analyzing machine data in real-time\, predictive maintenance enables the early detection of potential failures\, minimizing downtime\, reducing maintenance costs\, and preventing unexpected disruptions. In quality control\, AI algorithms identify defects and inconsistencies in products\, ensuring consistent standards and protecting brand reputation while enhancing customer satisfaction. Additionally\, AI optimizes supply chains by improving demand forecasting\, managing inventory levels\, and streamlining logistics operations\, resulting in cost savings\, faster deliveries\, and superior customer service. \n\nThe webinar will be recorded and will be sent out to registered attendees afterwards.\nA certificate of attendance will be provided to attendees who request one near the end of the live webinar session.\nPlease note: the time stated on this event is in UTC. You will need to convert this to your own time zone.\n\nKey takeaways from this webinar\n\nPredictive maintenance powered by AI reduces downtime\, lowers maintenance costs\, and prevents unexpected disruptions.\nAI-driven quality control ensures consistent product standards\, protects brand reputation\, and enhances customer satisfaction.\nSupply chain optimization with AI improves demand forecasting\, streamlines logistics\, and reduces costs for faster\, more efficient deliveries.\n\nRelated courses\nThis webinar/topic relates to our school of Industrial Automation Engineering and is particularly found in the following courses: \n\nProfessional Certificate of Competency in Digital Twins and Simulation Monitoring\n52886WA Advanced Diploma of Industrial Automation Engineering\n52872WA Advanced Diploma of Robotics and Mechatronics Engineering\nOnline – Bachelor of Science (Industrial Automation Engineering)\nGraduate Certificate in Industrial Automation and Machine Learning\n52914WA Graduate Certificate in Mechatronics\nOnline – Master of Engineering (Industrial Automation)\n\nTo learn more about tuition fees\, please click here. \nAbout the presenter\n \nSourabh Dani\, EIT Lecturer \nDr. Sourabh Dani holds a Ph.D. in Machine Learning and Cloud Computing\, specializing in applications within Industry 4.0. With a strong academic background\, Dr. Dani has conducted extensive research on integrating advanced machine-learning techniques and cloud-based solutions to enhance industrial processes and automation. His work has significantly contributed to the development of intelligent systems that improve efficiency\, productivity\, and sustainability in manufacturing and other industrial sectors. \nIn addition to his academic achievements\, Dr. Dani has accumulated valuable professional experience in the tech industry. He has worked with leading companies to implement cutting-edge machine learning models and cloud infrastructure\, driving innovation and digital transformation. His expertise in Industry 4.0 technologies has positioned him as a thought leader in the field\, frequently presenting at conferences and contributing to scholarly publications. Dr. Sourabh Dani is dedicated to advancing the frontiers of technology and its application in modern industry. URL:https://www.eit.edu.au/event/the-role-of-ai-in-enhancing-production-and-operational-efficiency/ LOCATION:Online CATEGORIES:Technical Engineering Topics Webinar ATTACH;FMTTYPE=image/jpeg:https://www.eit.edu.au/wp-content/uploads/2024/12/23.01.2025_BannerImage.jpg END:VEVENT BEGIN:VEVENT DTSTART;TZID=UTC:20250116T050000 DTEND;TZID=UTC:20250116T060000 DTSTAMP:20260522T012103 CREATED:20241211T134355Z LAST-MODIFIED:20250213T083900Z UID:55153-1737003600-1737007200@www.eit.edu.au SUMMARY:Applying Operational Readiness to the Transportation Industry DESCRIPTION:Please view the PDF slides here or watch the video recording below:\n \nWebinar details\nJoin Alex Payne-Billard\, a seasoned Lead Engineer with over 12 years of experience in rail and mass transit\, for an insightful webinar on embedding operations readiness into the transportation industry. Leveraging expertise in asset management\, systems engineering\, and project integration\, Alex will explore how to align complex infrastructure projects and rolling stock operations to ensure seamless transitions from planning to execution. Drawing from her work on major projects from around Australia\, Alex will provide actionable insights into mitigating operational risks and optimizing performance. \nAttendees will learn about the critical role of operations readiness in transforming asset configurations\, managing maintenance frameworks\, and aligning technical requirements with stakeholder expectations. Exploring rail operations in rail\, freight\, or passenger transit\, this session will equip you with strategies to enhance operational efficiency and adapt to industry challenges\, including sustainability and digital transformation. \n\nThe webinar will be recorded and will be sent out to registered attendees afterwards.\nA certificate of attendance will be provided to attendees who request one near the end of the live webinar session.\nPlease note: the time stated on this event is in UTC. You will need to convert this to your own time zone.\n\nKey takeaways from this webinar\n\nPractical strategies to improve operational efficiency and address industry challenges\, with a focus on sustainability and digital transformation.\nInsights into aligning technical requirements with stakeholder expectations to ensure seamless project integration.\nEffective approaches for transforming asset configurations and optimizing maintenance frameworks for long-term success.\n\nRelated courses\nThis multi-disciplinary webinar/topic relates to our schools of: \n\nMechanical Engineering\nElectrical Engineering\nIndustrial Automation\, Instrumentation and Process Control\nCivil Engineering\n\nTo learn more about tuition fees\, please click here. \nAbout the presenter\n \nAlex Payne-Billard\, Lead Engineer\, Rail & Mass Transit\n \nAlex’s extensive experience in asset management and systems engineering within the rail sector spans over 12 years. Her expertise includes developing asset management frameworks\, strategies\, and plans for new or changed asset configurations. Alex has led teams in various roles\, focusing on driving efficiency and performance improvement in rail operations. Her MBA provides a strategic foundation to enhance asset management from a broader business perspective. Alex’s passion for leveraging her skills in asset management principles\, operations and AI\, drives innovation and excellence in the industry\, resulting in significant cost savings and optimized operations. URL:https://www.eit.edu.au/event/applying-operational-readiness-to-the-transportation-industry/ LOCATION:Online CATEGORIES:Technical Engineering Topics Webinar ATTACH;FMTTYPE=image/jpeg:https://www.eit.edu.au/wp-content/uploads/2024/12/16.01.2025_BannerImage.jpg END:VEVENT BEGIN:VEVENT DTSTART;TZID=UTC:20250108T200000 DTEND;TZID=UTC:20250108T210000 DTSTAMP:20260522T012103 CREATED:20241211T130345Z LAST-MODIFIED:20250109T132910Z UID:55146-1736366400-1736370000@www.eit.edu.au SUMMARY:Transforming Construction Decision Making with Building Information Modelling (BIM) DESCRIPTION:The live presentation of this event has already taken place. \nPlease view the PDF slides here or watch the video recording below:\n \nWebinar details\nThis webinar explores how Building Information Modelling (BIM) can transform decision-making processes in construction projects. Attendees will gain insights into how BIM integrates 3D modelling\, scheduling\, and cost estimation within a unified framework to support data-driven decisions. Additionally\, the webinar will highlight how BIM fosters collaboration across disciplines by creating a shared platform for stakeholders\, enhancing communication throughout the project lifecycle. \nThe session will also focus on BIM’s critical role in promoting sustainable outcomes\, emphasizing its ability to optimize resources\, encourage lifecycle thinking\, and integrate environmental\, social\, and economic considerations into project planning. By exploring the conceptual and strategic advantages of BIM\, participants will be equipped with the knowledge to enhance project efficiency\, collaboration\, and sustainability. \n\nThe webinar will be recorded and will be sent out to registered attendees afterwards.\nA certificate of attendance will be provided to attendees who request one near the end of the live webinar session.\nPlease note: the time stated on this event is in UTC. You will need to convert this to your own time zone.\n\nKey takeaways from this webinar\n\nUnderstand how BIM enhances decision-making by unifying project data and processes.\nLearn how BIM improves collaboration and communication across multidisciplinary teams.\nExplore BIM’s role in achieving sustainability through resource optimization and lifecycle thinking.\n\nRelated courses\nThis webinar/topic relates to our school of Civil Engineering and is particularly found in the following courses: \n\nProfessional Certificate of Competency in Building Information Modelling (BIM)\n52873WA Advanced Diploma of Civil and Structural Engineering\nOnline – Bachelor of Science (Civil & Structural Engineering)\n52924WA Graduate Certificate in Civil Construction Management\nOnline – Master of Engineering (Civil: Structural)\n\nTo learn more about tuition fees\, please click here. \nAbout the presenter\n \nDr. Karoline Figueiredo \, EIT Lecturer  \nDr. Karoline Figueiredo is a civil engineer with a strong focus on sustainable construction and the integration of cutting-edge technologies such as Digital Twins and Blockchain. She holds a Ph.D. in Environmental Engineering (Built Environment Concentration) from the Federal University of Rio de Janeiro (UFRJ – Brazil)\, where her research aimed to minimize the environmental\, social\, and economic impacts of construction projects. Dr Karoline has also collaborated internationally as a researcher at Universitat Rovira I Virgili (Spain) and Western Sydney University (Australia)\, contributing significantly to advancements in life cycle assessment methodologies for construction. \nDr. Karoline is the co-editor of the book “Materials Selection for Sustainability in the Built Environment: Environmental\, Social and Economic Aspects”\, which addresses critical decision-making processes for selecting sustainable construction materials. In addition to her academic roles\, she serves as a reviewer and editor for prominent international journals. Currently\, she lectures at the Engineering Institute of Technology (EIT)\, Australia\, and UFRJ\, Brazil\, where she specializes in Building Information Modeling (BIM)\, Life Cycle Sustainability Assessment (LCSA) and other essential methodologies and technologies\, empowering students and professionals to develop innovative solutions for construction challenges. URL:https://www.eit.edu.au/event/transforming-construction-decision-making-with-building-information-modelling-bim/ LOCATION:Online CATEGORIES:Technical Engineering Topics Webinar ATTACH;FMTTYPE=image/jpeg:https://www.eit.edu.au/wp-content/uploads/2024/12/08.01.2025_BannerImage.jpg END:VEVENT BEGIN:VEVENT DTSTART;TZID=UTC:20241211T100000 DTEND;TZID=UTC:20241211T110000 DTSTAMP:20260522T012103 CREATED:20241104T085519Z LAST-MODIFIED:20250107T014423Z UID:53059-1733911200-1733914800@www.eit.edu.au SUMMARY:Exploring Artificial Intelligence in Mechanical Engineering DESCRIPTION:Please view the PDF slides here or watch the video recording below: \nWebinar details\nArtificial Intelligence (AI) has gained attention in the past few years because of its technological progress and improved capability to handle vast quantities of data. Today\, Mechanical Engineering encounters various challenges\, including creating systems and components that prioritize sustainability and energy efficiency. Utilizing cutting-edge technology in designs can benefit mechanical engineering. AI and data analytics are one illustration of such technology. Significant advancements have been made in artificial intelligence\, particularly in the field of autonomous vehicles focusing more specifically on upfront mechanical design. We will go through the application of a machine learning algorithm by Neural Concept in a collaborative scenario\, taken not from the future\, but from the present. \n\nThe webinar will be recorded and will be sent out to registered attendees afterwards.\nA certificate of attendance will be provided to attendees who request one near the end of the live webinar session.\nPlease note: the time stated on this event is in UTC. You will need to convert this to your own time zone.\n\nKey takeaways from this webinar\n\nMechanical engineering should prioritize creating energy-efficient products and processes that incorporate renewable energy to develop sustainable systems.\nCompetitive market dynamics push engineers to innovate\, resulting in cost reduction and enhanced efficiency and productivity.\nMaintaining or improving product quality is a key focus for engineers\, ensuring standards are met or exceeded.\nContinuous learning and the integration of emerging technologies are essential for engineers to stay relevant and enhance their designs.\n\nRelated courses\nThis webinar/topic relates to our school of Mechanical Engineering and is particularly found in the following courses: \n\nOnline – Bachelor of Science (Mechanical Engineering)\nGraduate Diploma of Engineering (Mechanical)\nGraduate Certificate in Mechanical Engineering\n52857WA Advanced Diploma of Plant Engineering\nOnline – Master of Engineering (Mechanical)\n\nTo learn more about tuition fees\, please click here. \nAbout the presenter\n \nChristabel Phiri\, EIT Lecturer  \nChristabel has 14 years of Academia (Multi-skilled) experienced at the tertiary level with 5 Years of Industrial experience. She is very familiar with online LMS platforms such as Moodle\, Blackboard\, Collaborate\, and Google Classroom. Clients recognize and trust Christabel Phiri to do business with the highest degree of honesty. She is Harness of advanced knowledge in technical training and Design and stays abreast of rapid changes in technology\, markets\, and industry trends. \nChristabel moved to South Africa in 2007 and began working as a lecturer in designing and draughting\, training students on designing of Multi-disciplinary drawing office practice\, ranging from building design\, structural steel detailing\, electrical draughting and installations\, mechanical draughting using Revit\, AUTO Cad\, Solid works\, inventor for more than 10 years. URL:https://www.eit.edu.au/event/exploring-artificial-intelligence-in-mechanical-engineering/ LOCATION:Online CATEGORIES:Technical Engineering Topics Webinar ATTACH;FMTTYPE=image/jpeg:https://www.eit.edu.au/wp-content/uploads/2024/09/11.12.2024_BannerImage.jpg END:VEVENT BEGIN:VEVENT DTSTART;TZID=UTC:20241127T120000 DTEND;TZID=UTC:20241127T130000 DTSTAMP:20260522T012103 CREATED:20240520T110009Z LAST-MODIFIED:20250109T135805Z UID:49475-1732708800-1732712400@www.eit.edu.au SUMMARY:Big Data Analytics in Power Systems DESCRIPTION:Please view the PDF slides here or watch the video recording below:\n \n\nWebinar details\nYou will learn how cutting-edge analytics techniques can improve the management and operation of power grids. The webinar covers various topics\, starting with an overview of big data analytics and its importance in power systems. It then delves into how data is collected\, cleaned\, and stored\, ensuring it is reliable and scalable. Attendees will also explore different analysis methods\, such as machine learning\, used for predictive maintenance\, demand forecasting\, and real-time monitoring. Through real-world examples\, they will see how these techniques enhance grid reliability and optimize energy distribution. \n\nThe webinar will be recorded and will be sent out to registered attendees afterwards.\nA certificate of attendance will be provided to attendees who request one near the end of the live webinar session.\nPlease note: the time stated on this event is in UTC. You will need to convert this to your own time zone.\n\nKey takeaways from this webinar\nRecent development in power system protection and control \n\nParticipants will understand how advanced analytics can predict equipment failures and optimize maintenance schedules\, thereby enhancing grid reliability.\nAttendees will learn how data-driven approaches enable utilities to optimize energy distribution\, minimize wastage\, and reduce costs.\nThe importance of real-time monitoring and control enabled by big data analytics will be emphasized\, empowering utilities to detect anomalies and ensure grid stability and resilience.\n\nRelated courses\nThis webinar/topic relates to our schools of Electrical Engineering and Industrial Automation\, Instrumentation and Process Control particularly found in the following courses: \n\nOnline – Bachelor of Science (Electrical Engineering)\nOnline – Bachelor of Science (Industrial Automation Engineering)\nOnline – Master of Engineering (Electrical Systems)\nOnline – Master of Engineering (Industrial Automation)\n\nTo learn more about tuition fees\, please click here. \nAbout the presenter\n \nSaeideh Sekhavat\, EIT Lecturer & Research Assistant \nSaeideh Sekhavat (Sadie) is a dedicated professional with a strong background in mathematics and a focus on leveraging artificial intelligence in healthcare. With a bachelor’s degree in Applied Mathematics and a graduate degree in Systems Analysis from the National University of Singapore\, Sadie possesses a solid academic foundation. Her expertise lies in Python programming\, machine learning\, and deep learning\, along with skills in mathematical modeling and computational image analysis. Currently working as a research assistant at the University of Western Australia\, Sadie contributes to developing AI solutions for analyzing 3D CT images. Alongside her research role\, she teaches part-time at the Engineering Institute of Technology (EIT). With previous experience in data analysis\, IT consultancy\, and research\, Sadie brings a wealth of knowledge to her work\, marked by her problem-solving abilities\, effective communication\, and collaborative spirit. URL:https://www.eit.edu.au/event/big-data-analytics-in-power-systems/ LOCATION:Online CATEGORIES:Technical Engineering Topics Webinar ATTACH;FMTTYPE=image/jpeg:https://www.eit.edu.au/wp-content/uploads/2024/05/27.11.2024_BannerImage.jpg END:VEVENT END:VCALENDAR