How Inverters Change the Game: Protecting the Power Grid in a Renewable Energy WorldBy Dr. Saeed SanatiDr. Saeed Sanati is an IEEE Senior member. He received his B.Sc. degree in Electrical Engineering from Shahrood University of Technology, Shahrood, Iran, in 2013, and his M.Sc. degree from Iran University of Science and Technology, Tehran, Iran, in 2016, followed by his Ph.D. degree from Semnan University, Semnan, Iran, in 2021. He enriched his expertise through Postdoctoral Fellowship at University of Tehran, Tehran, Iran in 2021, followed by a Postdoctoral Fellowship at University of Windsor, Windsor, Ontario, Canada in 2022, and he continued his research as a Postdoctoral Fellow at University of Laval, Quebec, Quebec, Canada in 2023. In addition to his academic pursuits, he was a Researcher at Montreal Research Center, Huawei Technologies Ltd., Montreal, Quebec, Canada. He also held appointments as a Research Professional with the University of Laval, and a Senior Protection and Control Engineer at EPE Consulting, Texas, USA. Currently, he is a Lead Application Development Engineer at GE Vernova in Markham, Ontario and an Adjunct Professor at Electrical and Computer Engineering Department, University of Laval. His research interests lie in SCADA and protection in IBRs, HVDC, digital substations, microgrids, and renewable energy <a href="http://integration.Co-sponsored" target="_blank" title="integration.Co-sponsored">integration.Co-sponsored by:The IEEE London Section-Computer Chapter and Ontario Society of Professional EngineersRoom:SEB 3109, Bldg: Spencer Engineering Building (SEB), Western University, 151 Richmond St., London, Ontario, Canada, N6A 3K7, Virtual: https://events.vtools.ieee.org/m/494805

The traditional AC grid is undergoing a transition from a few large centralized synchronous generators to hundreds or thousands of local, renewable, inverter-based generation (IBRs), primarily wind and solar. The two modes of generation are based on different technologies, and their integration into a single hybrid system presents a number of technical challenges, while also opening up opportunities for the development of geographical equality, environmental preservation, and increased resilience. A significant amount of expertise and high levels of reliability have been developed over the past 139 years of the AC power industry. With the emergence of renewables, many of standard ideas for designing and operating electric power grids will need to change. In this talk, we will discuss the need for new tools of analysis, extensive data collection, and the role of AI in maintaining optimum operation of AC systems with significant DC penetration. We will also mention some of the tools available for improving the system's resilience while preserving the environment and the well-being of the population during system failure and natural <a href="http://disasters.Speaker(s):" target="_blank" title="disasters.Speaker(s):">disasters.Speaker(s): Dr. José MartiRoom: 3038, Bldg: Macleod building, 2356 Main Mall, Vancouver, British Columbia, Canada, V6T 1Z4, Virtual: https://events.vtools.ieee.org/m/493060

Participants are required to provide their own Safety Work Shoes and Safety Glasses for this Plant Tour. Hearing protection will be <a href="http://provided.Autoneum" target="_blank" title="provided.Autoneum">provided.Autoneum develops and produces multifunctional, lightweight components for optimum noise and heat protection for the automotive industry. The innovative products and technologies make vehicles quieter, safer and lighter and therefore help to reduce fuel consumption and emissions. The London Plant features the use of: robots, PLC’s, hydraulic presses, pneumatic systems, RF welders, cutting with high pressure water, chillers, compressors, <a href="http://etc.Speaker(s):" target="_blank" title="etc.Speaker(s):">etc.Speaker(s): , MinhAgenda: 9:00 – 9:15 Introduction, safety review9:20-10:20 Plant tour10:25-11:15 Wrap up, questions, suggestions, refreshments1800 Huron Street, London, Ontario, Canada, N5V 3A6

This workshop is organized by the KPU Computer Science and Information Technology Department in collaboration with the IEEE Vancouver Joint Computer <a href="http://Society.The" target="_blank" title="Society.The">Society.The "Who Are You? The Truth in Reconciliation" awareness workshop will be held on Thursday, August 7, 2025, from 2:00 PM to 5:00 PM at KPU’s Surrey Campus (Cedar 2110), Surrey, B.C.Join us for "Who Are You? The Truth in Reconciliation", an awareness workshop led by MS. Gayle Bedard, Tsimshian leader and Associate Vice President of Indigenous Leadership at KPU. Drawing from her lived experiences and decades of educational leadership, MS. Bedard will guide participants through a powerful conversation about identity, truth, and reconciliation in Canada. This workshop is an opportunity to reflect on the lasting impact of colonial systems, understand the realities faced by Indigenous Peoples, and explore how we can contribute to meaningful, systemic change. This event is especially important for those committed to equity, diversity, and inclusion and who seek to engage in authentic reconciliation in both personal and professional <a href="http://spaces.Seats" target="_blank" title="spaces.Seats">spaces.Seats are limited—Please register (Free) early through IEEE VTOOL. Registration is open until August 5th at 5:00, BUT may close earlier if capacity is <a href="http://reached.Co-sponsored" target="_blank" title="reached.Co-sponsored">reached.Co-sponsored by: CSIT, Kwantlen Polytechnic University Speaker(s): , , Agenda: 2:00 PM Networking and Tea, Coffee, and Appetizers3:00 PM Welcome/Opening3:05 PM Prayer by Lekeyten, KPU Elder in Residence3:15 PM Awareness Workshop: Who Are You? The Truth in Reconciliation, MS. Gayle Bedard4:45 PM NetworkingRoom: 2110, Bldg: Cedar , 12666 72 Ave , Surrey, British Columbia, Canada, V3W 2M8

We’re pleased to invite you to a seminar by Dr. Ahmed Abdellatif from Microchip Technology:This talk will explore the fundamentals of signal integrity (SI) in high-speed applications, with a focus on both frequency- and time-domain analysis. Attendees will gain a foundational understanding of how signal loss, crosstalk, and reflections affect system performance at high data rates. The presentation will also highlight recent advances in packaging techniques for broadband applications, including chiplets and advanced interconnects, and how these innovations help address challenges in high-frequency design. This session aims to bridge the gap between SI fundamentals and modern packaging technologies, offering a comprehensive overview for engineers and students working on broadband <a href="http://systems.At" target="_blank" title="systems.At">systems.At the end of the talk, the speaker will provide a summary of IEEE resources available to students and young professionals in the RF <a href="http://field.Speaker(s):" target="_blank" title="field.Speaker(s):">field.Speaker(s): Dr. Ahmed Abdelltif, Room: BA4287, Bldg:Bahen Centre for Information Technology, 40 St. George Street Toronto, ON, M5S 2E4, Toronto, Ontario, Canada, M5S 2E4

This talk will explore the fundamentals of signal integrity (SI) in high-speed applications, with a focus on both frequency- and time-domain analysis. Attendees will gain a foundational understanding of how signal loss, crosstalk, and reflections affect system performance at high data rates. The presentation will also highlight recent advances in packaging techniques for broadband applications, including chiplets and advanced interconnects, and how these innovations help address challenges in high-frequency design. This session aims to bridge the gap between SI fundamentals and modern packaging technologies, offering a comprehensive overview for engineers and students working on broadband <a href="http://systems.At" target="_blank" title="systems.At">systems.At the end of the talk, the speaker will provide a summary of IEEE resources available to students and young professionals in the RF <a href="http://field.Speaker(s):" target="_blank" title="field.Speaker(s):">field.Speaker(s): Dr. Ahmed Abdelltif, 200 University Ave W, Waterloo, Ontario, Canada, N2L 3G1

[]Join the IEEE Toronto Instrumentation & Measurement – Robotics & Automation Joint Chapter for a technical talk presented by Dr. Roya Fallah Firoozi from University of <a href="http://Waterloo.Monday" target="_blank" title="Waterloo.Monday">Waterloo.Monday, August 11, 2025 @ 1:00 – 2:00 PM (EST)Abstract: As a robot manipulates 3D objects and navigates within 3D scenes, it requires spatial reasoning to ensure safe planning. Recent advances in 3D scene representation, such as Neural Radiance Fields (NeRFs) and Gaussian Splatting, provide high-fidelity digital twins of arbitrary real-world environments from multi-view images. In the first part of the talk, Dr. Firoozi will discuss employing these 3D visual fields augmented to 3D vision-language fields using internet-scale semantic representations from Vision-Language Models (VLMs) for open-vocabulary robot <a href="http://planning.As" target="_blank" title="planning.As">planning.As the robot interacts with other dynamic agents in the scene (multi-agent settings), it also requires temporal reasoning to ensure safe interactive planning. In the second part of the talk, Dr. Firoozi will discuss safe and fault-resilient planning techniques across two categories of interactive planning: (i) Model Predictive Control (MPC), where the prediction and planning steps are decoupled, and (ii) more abstract approaches such as game-theoretic planning, where these steps are tightly coupled. While MPC offers computational efficiency, game-theoretic planning enables more complex modeling of agents' preferences and their mutual <a href="http://influences.Speaker(s):" target="_blank" title="influences.Speaker(s):">influences.Speaker(s): Roya Fallah Firoozi, Ph.D., Virtual: https://events.vtools.ieee.org/m/487494

Emerging Developments in GHz Engineering (EDGE) 2025Emerging Developments in GHz Engineering (EDGE) 2025 marks the official inauguration of the IEEE MTT-S Thompson Okanagan Chapter. This full-day event is dedicated to advancing knowledge and collaboration in microwave, RF, and GHz-frequency engineering. EDGE 2025 brings together academic leaders, industry experts, researchers, and students for an engaging program featuring keynote talks, panel discussions, technical sessions, lab tours, and project demonstrations. The summit aims to establish a strong regional hub for innovation and excellence in GHz technologies, providing valuable networking and learning <a href="http://opportunities.The" target="_blank" title="opportunities.The">opportunities.The day begins with remarks from the executive members of the IEEE Thompson Okanagan Section, and interim officers of the MTT-S chapter, followed by the formal inauguration ceremony. Attendees will enjoy a range of activities including an industry panel, a Distinguished Microwave Lecture, a Young Professionals talk, and a networking lunch. Lab visits, project demonstrations, and a poster session offer hands-on experiences, while invited talks and industry presentations explore advanced microwave topics. The event concludes with student and technical presentations showcasing innovative research by emerging engineers and <a href="http://scientists.Agenda:" target="_blank" title="scientists.Agenda:">scientists.Agenda: Morning SessionTime Activity08:00 – 09:00 Breakfast and Networking09:00 – 09:50 Welcome Note and Inaugration of IEEE MTT-S Chapter09:50 – 10:10 Break10:10 – 11:00 Industry Panel Discussion11:00 – 11:30 Distinguished Microwave Lecture (DML) Talk11:30 – 12:00 Young Professionals (YP) Talk12:00 – 13:00 Lunch Break---------------------------------------------------------------Afternoon SessionTime Activity13:00 – 14:00 Lab Visits / Project Demonstrations14:00 – 14:30 Invited Talk14:30 – 15:00 Industry Talk15:00 – 16:00 Student / Technical PresentationsRoom: EME 0050, Bldg: UBC Okanagan Engineering, Management and Education Building, 1137 Alumni Avenue, Kelowna, British Columbia, Canada

Event will be limited to 25 <a href="http://participants.Join" target="_blank" title="participants.Join">participants.Join the IEEE London Chapter for an exclusive behind-the-scenes tour of the Fraunhofer Innovation Platform for Composites Research at Western University (FIP-Composites@Western) in London, Ontario. This is a fantastic opportunity to explore the innovation behind composite materials formulation, process and product development at this industrial-scale applied research facility that is part of Western <a href="http://University.About" target="_blank" title="University.About">University.About the Facility:The Fraunhofer Innovation Platform for Composites Research is a joint venture between Western University and the Fraunhofer Institute of Chemical Technology (ICT) in Pfinztal, Germany. The FIP-Composites at Western develop, test, validate, and characterize new lightweight materials and advanced manufacturing processes on an industrial scale. By combining Fraunhofer’s latest global technologies with Western’s strengths in materials engineering, the FIP-Composites at Western proactively addresses the needs of its industry <a href="http://partners.https://www.eng.uwo.ca/fraunhofer/Agenda:" target="_blank" title="partners.https://www.eng.uwo.ca/fraunhofer/Agenda:">partners.https://www.eng.uwo.ca/fraunhofer/Agenda: What to Expect:- Experience a close-up view of the industrial-scale applied research centre, part of Western <a href="http://University.-" target="_blank" title="University.-">University.- Discover Western’s state-of-the-art composites processing <a href="http://equipment.-" target="_blank" title="equipment.-">equipment.- Capabilities:- 2500 Tonne Compression Molding Press- 1600 Tonne and 500 Tonne Injection Molding Presses- Sheet Molding Compound Line- Long Fiber Thermoplastic Directline- High-Pressure Resin Transfer Molding Line- Pultrusion Line2520 Advanced Avenue, London, Ontario, Canada, N6M 0E1

Welcome to WindEEE! Please meet us in the lobby at the WindEEE Research Institute, located at 2535 Advanced Avenue, London, Ontario. Parking is located to the right of the building, follow the sidewalk to the main entrance on the left. You will need to ring the doorbell to be let <a href="http://in.How" target="_blank" title="in.How">in.How to Prepare for your Tour:You will be sitting, standing, walking, and briefly experiencing simulated tornado winds. An optional climb up and down a stepped ladder may be included depending on time/accessibility. Tours typically last between 60-90 <a href="http://minutes.Please" target="_blank" title="minutes.Please">minutes.Please wear comfortable, closed-toed shoes and clothing that won't get blown around (pants and fitted shirts are best). Avoid loose accessories or anything lightweight that might take flight. That said, get ready to let your hair down for some great photo opportunities!We look forward to seeing you!Agenda: You will be sitting, standing, walking, and briefly experiencing simulated tornado winds. An optional climb up and down a stepped ladder may be included depending on time/accessibility. Tours typically last between 60-90 <a href="http://minutes.2535" target="_blank" title="minutes.2535">minutes.2535 Advanced Avenue, London, Ontario, Canada, N6M 0E2

Abstract :This talk will cover the current status of co-packaging efforts, both VCSEL- and SiPh-based, where they fit into the Ethernet switch market and the evolving Computer IO market, and how these technologies are advancing HPC, Data Center, and AI applications. The emphasis will be on new requirements and challenges driven by AI <a href="http://systems.Co-sponsored" target="_blank" title="systems.Co-sponsored">systems.Co-sponsored by: <a href="http://C2MI.Speaker(s):" target="_blank" title="C2MI.Speaker(s):">C2MI.Speaker(s): Daniel M. KuchtaAgenda: 9h45-10h30: arrival of participants on-site, coffee and networking10:30am-11:30am: Tech Talk (hybrid)11:30am-12pm: C2MI lab tour on-site for IEEE Photonics Montreal members12pm: departure and end of eventBldg: C2MI, C2MI, 45 Blvd de l'Aeroport, Bromont, Quebec, Canada, J2L 1S8, Virtual: https://events.vtools.ieee.org/m/491772

Monthly Executive Team Meeting - IEEE Hamilton Section (Aug'2025)Agenda: 07:00PM - Meeting starts08:00PM - Meeting endsVirtual: https://events.vtools.ieee.org/m/494398

Join us for an exclusive IEEE Communications Society Distinguished Lecture featuring Prof. Houbing Herbert Song. Discover how neuro-symbolic AI merges neural networks with symbolic reasoning to unlock machines that move beyond data-driven learning to autonomously perceive, understand, reason, and learn directly from the world, ushering in the transformative Third Wave of Artificial <a href="http://Intelligence.Speaker(s):" target="_blank" title="Intelligence.Speaker(s):">Intelligence.Speaker(s): Dr. Houbing Herbert Song, Room: SB415, Bldg: Sobey Building, Saint Mary's University, 903 Robie St,Halifax, Nova Scotia, Canada, B3H 3C2, Virtual: https://events.vtools.ieee.org/m/494412

Abstract :This talk shares an independent perspective on how industry and research meet and how together they potentially shape and transform the next decade and beyond. This is outlined in the context of expected paradigm shifts in global intelligent and resilient connectivity, with multi-modal and multi-sensory immersive interaction and digital world experience, autonomous swarms, intelligent agents, and man-machine collaboration, and environmental awareness. It highlights the journey of related research topics, their transformative potentials, and the associated questions and challenges, in an end-to-end context and path, towards a seamless, inclusive, and sustainable socio-economic <a href="http://transformation.Co-sponsored" target="_blank" title="transformation.Co-sponsored">transformation.Co-sponsored by: <a href="http://[email protected](s):" target="_blank" title="[email protected](s):">[email protected](s): Dr. Javan Erfanian, Room: EV003-309, Bldg: Electrical & Computer Engineering Department EV, Concordia University, 1515 Ste. Catherine West, MONTREAL, Quebec, Canada, H3G 1M8

You and one guest are invited to the Southern Alberta's 2025 Volunteer Appreciation BBQ. We celebrate the contributions of our volunteers and the success of our Section, Technical Chapters and Affinity Groups!The BBQ will take place on Friday, August 15 2025 from 5:00 PM to 8:00 PM, at Edworthy Park, Calgary, AB, Picnic Site 6. The BBQ will take place rain or <a href="http://shine.This" target="_blank" title="shine.This">shine.This IEEE Southern Alberta Special Event (BBQ) is no charge to attend and no charge for the food and beverages provided, however please register in advance so we know how much food and/or what type of meal (burger selection) to purchase of those selections offered (Regular Beef, Veggie, Chicken, Halal Beef Patties). Registration ends late on the evening of Wednesday, August 13. Please register your guest, separately, as <a href="http://well.Please" target="_blank" title="well.Please">well.Please indicate any food allergies or dietary restrictions under "Special Requests" when registering (we will do our best to accommodate, but food served will be typical BBQ fare).Please note: Pictures will be taken during the event. By registering to this event, you are consenting to the use of your portrait, picture or photograph taken during this event to be used by IEEE Southern Alberta Section in promotional material, including printed and electronic material as well as the IEEE Southern Alberta Section website and social mediaParking:Park at either the south or north Edworthy Park lots. Please refer to the map <a href="http://below.Bldg: Picnic Site 6, Edworthy Park, 5050 Spruce Dr SW, Calgary, Alberta, Canada

The development of innovative cybersecurity technologies, tools, and methodologies that advance the energy system’s ability to survive cyber-attacks and incidents while sustaining critical functions is needed for the secure operation of utility and industrial systems. It is essential to verify and validate the ability of the developed solutions and methodologies so that they can be effectively used in practice. Developing solutions to mitigate cyber vulnerabilities throughout the energy delivery system is essential to protect hardware assets. It will also make systems less susceptible to cyber threats and provide reliable delivery of electricity if a cyber incident <a href="http://occurs.This" target="_blank" title="occurs.This">occurs.This talk will describe how the developed solution can protect the power grid and industrial infrastructure from cyber-attacks and build cybersecurity protection into emerging power grid components and services. This includes microgrid and demand-side management components and protecting the network (substations and productivity lines) and data infrastructure (SCADA) to increase the resilience of the energy delivery systems against cyber-attacks. These developments will also help utility security systems manage large amounts of cybersecurity risk data and cybersecurity operations. For these developments to succeed, cybersecurity testbeds and testing methodologies are necessary to evaluate the effectiveness of any proposed security <a href="http://technologies.The" target="_blank" title="technologies.The">technologies.The focus on developing cybersecurity capabilities in energy systems should span over multiple strategies: in the near term, midterm, and long term. Continuous security state monitoring across cyber-physical domains is the goal in the near term. The development of continually defending interoperable components that continue operating in degraded conditions is required in the midterm. Developing methodologies to mitigate cyber incidents to return to normal operations quickly is necessary for all system components in the long term. We will discuss R&D efforts in these areas centered on developing operational frameworks related to communication and interoperability, control, and <a href="http://protection.The" target="_blank" title="protection.The">protection.The importance of interoperability between smart grid applications and multi-vendor devices must be considered. The current grid comprises multi-vendor devices and multi-lingual applications that add to the complexity of integrating and securing the smart grid components. Standards development entities have been working with utilities, vendors, and regulatory bodies to develop standards that address smart grid interoperability. These include IEEE, IEC, NIST, ANSI, NERC, and others. In this presentation, we will conceptualize a comprehensive cyber-physical platform that involves the communication and power network sides integrating the cyber information flow, physical information flow, and the interaction between them. A data-centric communication middleware provides a common-data bus to orchestrate the system’s components, leading to an expandable multi-lingual system. We will present a hardware protocol gateway that was developed as a protocol translator capable of mapping IEC 61850 generic object-oriented substation event (GOOSE) and sampled measured value (SMV) messages into the data-centric Data Distribution Service (DDS) global data bus. This is necessary for integrating the widely used IEC 61850-based devices into an exhaustive microgrid control and security <a href="http://framework.We" target="_blank" title="framework.We">framework.We will also discuss a scalable cloud-based Multi-Agent System for controlling large-scale penetration of Electric Vehicles (EVs) and their infrastructure into the power grid. This is a system that can survive cyber-attacks while sustaining critical functions. This framework’s network will be assessed by applying contingencies and identifying the resulting signatures for detection in real-time operation. As a result, protective measures can be taken to address the dynamic threats in the foreseen grid-integrated EV parks where the developed system will have an automated response to a <a href="http://cyber-attack.In" target="_blank" title="cyber-attack.In">cyber-attack.In distributed energy management systems, the protection system must be adaptive. Communication networks assist in reacting to dynamic changes in the microgrid configurations. This presentation will also describe a newly developed protection scheme with extensive communication provided by the IEC 61850 standard for power networks to monitor the microgrid during these dynamic changes. The robustness and availability of the communication infrastructure are required for the success of protection measures. This adaptive protection scheme for AC microgrids can survive communication failures through energy storage <a href="http://systems.Co-sponsored" target="_blank" title="systems.Co-sponsored">systems.Co-sponsored by: Power Electronics/Industrial ElectronicsSpeaker(s): Osama, Room: UA1140, Bldg: UA, 2000 Simcoe Street North, Oshawa, Ontario, Canada, L1G7K4

Abstract: There are three waves of Artificial Intelligence. The first Wave of AI is Crafted Knowledge, which includes rule-based AI systems. The second wave of AI is Statistical Learning, which includes machine becoming intelligent by using statistical methods. The third wave of AI is contextual adaptation. In the third wave, instead of learning from data, intelligent machines will understand and perceive the world on its own, and learn by understanding the world and reason with it. Neuro-symbolic AI, which combines neural networks with symbolic representations, has emerged as a promising solution of the third wave of AI. In this talk, first I will share my journey from counter-unmanned aircraft systems to explainable AI to neuro-symbolic AI. Then I will present the past, present, and future of neuro-symbolic AI. I will also share my perspective on the emerging area of neuro-symbolic <a href="http://AI.Speaker:" target="_blank" title="AI.Speaker:">AI.Speaker: Houbing Herbert Song, Ph.D., IEEE Fellow, Co-EiC of IEEE TIISpeaker(s): Prof. Houbing Herbert SongBldg: ICT 516, University of Calgary, Calgary, Alberta, Canada

IEEE IAS/PES Committee MeetingBldg: 140, 1500 Quebec Ave, Saskatoon, Saskatchewan, Canada, S7K 1V7, Virtual: https://events.vtools.ieee.org/m/487740

Free Registration (with a Zoom account; you can get one for free if you don't already have it. This requirement is to avoid Zoom bombing. Please sign in using the email address tied to your Zoom account — not necessarily the one you used to register for the <a href="http://event.):https://sjsu.zoom.us/webinar/register/WN_DIDfdbkgRFeEd3JbzURIUQSynopsis:How" target="_blank" title="event.):https://sjsu.zoom.us/webinar/register/WN_DIDfdbkgRFeEd3JbzURIUQSynopsis:How">event.):https://sjsu.zoom.us/webinar/register/WN_DIDfdbkgRFeEd3JbzURIUQSynopsis:How are machine learning algorithms able to answer questions from any nook and corner of the World Wide Web? How are trending hashtags from the near infinite microblog posts, unique visitors and other distinct counts in the near infinite website traffic determined? How do blogging websites avoid recommending articles a user has previously read? In general, how can we answer complex queries about enormous data streams without storing them entirely, in real-time? The answer often lies in clever approximation algorithms and data "sketches" that capture essential properties using vastly reduced space. The relentless flow of data in modern systems indeed presents significant challenges. These data streams are often too large to store and too fast to process exhaustively with traditional methods. This talk introduces key sketching and approximation techniques that help generate real-time data insights by processing data <a href="http://streams.---------------------------------------------------------------By" target="_blank" title="streams.---------------------------------------------------------------By">streams.---------------------------------------------------------------By registering for this event, you agree that IEEE and the organizers are not liable to you for any loss, damage, injury, or any incidental, indirect, special, consequential, or economic loss or damage (including loss of opportunity, exemplary or punitive damages). The event will be recorded and will be made available for public <a href="http://viewing.Speaker(s):" target="_blank" title="viewing.Speaker(s):">viewing.Speaker(s): Dr. Vishnu S. PendyalaVirtual: https://events.vtools.ieee.org/m/482936

What is Precision Medicine and how does it help you?We have a panel of experts in using genetic information to improve your health outcomes. In this introduction to the field, they will provide an overview of:- Blueprints of Life: The Basics of Genes and Genetic Testing- Genetic Glitches: When the Code Misfires- From Code to Cure: Engineering Precision Treatments from Genetic <a href="http://Data.There" target="_blank" title="Data.There">Data.There will be time for questions after their <a href="http://presentation.To" target="_blank" title="presentation.To">presentation.To receive your personalized link to attend the Zoom platform meeting, you must also register at the below <a href="http://link.https://us06web.zoom.us/meeting/register/VEfWsWLgRPSUcS0wkgRCyQAgenda: - Blueprints of Life: The Basics of Genes and Genetic Testing- Speakers: Emile Moura & Althea Smith- Genetic Glitches: When the Code Misfires- Speakers: Ludovica Montanucci & Rebekka Staal Dahl- From Code to Cure: Engineering Precision Treatments from Genetic Data- Speakers: Manuela Ochoa-Urrea, Jessica Lal, & Alina IvaniukVirtual: https://events.vtools.ieee.org/m/490415

Join fellow IEEE members and Section leaders to socialize, and explore opportunities to connect with the section. This event is free to attend for all IEEE Members. Family members and guests are welcome to join, with a $10 registration fee to cover the price of food and <a href="http://drinks.Photo" target="_blank" title="drinks.Photo">drinks.Photo PolicyPlease be aware that photography, video, and sound recordings will take place during the evening. You may be asked to be in a photo, or you may be inadvertently recorded when photographs or videos are made. Individuals shall not be identified in Vancouver Section published media without their <a href="http://consent.TBA" target="_blank" title="consent.TBA">consent.TBA, Burnaby , British Columbia, Canada

Radar technology plays an important role in both civilian and military applications. While the targets (cars, airplanes, etc.) are designed to be detected easily for civilian applications, it is the quite opposite for military applications. As such, stealth technology has become a sub-discipline of military tactics. Feko offers several solvers and post-processing scripts for RCS (Radar Cross Section) analysis and target detection, that are presented in detail with live demonstrations in this <a href="http://talk.Speaker(s):" target="_blank" title="talk.Speaker(s):">talk.Speaker(s): Gopinath Gampala , Dr. C.J. ReddyVirtual: https://events.vtools.ieee.org/m/494544

For more details please refer to the conference webpage<a href="https://ieee.usask.ca/nemess-2025.phpNEMESS" target="_blank" title="https://ieee.usask.ca/nemess-2025.phpNEMESS">https://ieee.usask.ca/nemess-2025.phpNEMESS 2025 is a platform to showcase diverse groundbreaking research work. The conference will offer a dynamic space for meaningful interdisciplinary networking, where you can engage with leading experts, exchange ideas, and forge new collaborations. Additionally, distinguished speakers from around the world will share their latest findings, fostering an atmosphere of international cooperation and <a href="http://discovery.Free" target="_blank" title="discovery.Free">discovery.Free tickets available thanks to our generous SponsorsUse the button below to Register for the ConferenceConference Agenda & Venue LocationCo-sponsored by: Ukrainian Students' Research Association (USRA)Agenda: GSA Commons, 1337 College Drive, Saskatoon, Saskatchewan, Canada, S7N 0W6