Events

IEEE Ottawa Robotics Competition 202 - Registration10students x 35= 350 CADVirtual: https://events.vtools.ieee.org/m/558630

IEEE North Saskatchewan Section Meeting - May, 202657 Campus Dr, Saskatoon, Saskatchewan, Canada, S7N 5A9, Virtual: https://events.vtools.ieee.org/m/544435

Future of communication and sensing network is being transformed with the advancement in next generations of wireless with Beyond-5G, beyond-WiFi-8, ICAS, NTN, VR/XR/Metaverse, Digital-Twin and other emerging applications. Higher quality of experiences for connected future with ubiquitous lowest latency and superhigh data rate connectivity services will require innovative wireless technologies and communication hardware combined with AI/ML. Mobile platform integrated RF systems with antenna front ends are common factor for most of the wireless applications. Emerging usage scenarios will need intelligent mobile platforms with ultra-small form-factor, requiring co-design and heterogeneous integration of dis-similar semiconductor device, circuit and antenna technologies, in order to satisfy the desired application-specific performance criteria for the evolving use <a href="http://cases.This" target="_blank" title="cases.This">cases.This presentation will present the emerging technology trends and will focus on the antenna-integrated RF to mm-wave/THz array integrated frontend opportunities and challenges demanding new technology, design, development and integration. Example architectures to enablemultifunction microsystem platform will be <a href="http://discussed.Speaker(s):" target="_blank" title="discussed.Speaker(s):">discussed.Speaker(s): Dr. Debabani Choudhury, Agenda: - 6:30 - 7:00 PM Networking- 7:00 - 8:00 PM Technical TalkBldg: Cal Lutheran Center for Entrepreneurship (Hub101), 31416 Agoura Rd, Westlake Village, California, United States, 91361, Virtual: https://events.vtools.ieee.org/m/494694

As the semester comes to a close, we will be holding our Annual General Meeting (AGM) on May 6th to elect the 2026–2027 Executive Team of the IEEE BCIT Student <a href="http://Branch.Room:" target="_blank" title="Branch.Room:">Branch.Room: TBD, Bldg: TBD, Burnaby, British Columbia, Canada

Abstract: The unprecedented scale, heterogeneity, and performance requirements of 6G networks fundamentally challenge traditional optimization-centric approaches to resource management, motivating a paradigm shift toward artificial intelligence (AI)–driven methodologies. This lecture examines how deep unsupervised learning and generative AI techniques can be leveraged to solve both convex and non-convex network resource allocation problems under complex, nonlinear constraints. Particular emphasis is placed on deep unsupervised learning frameworks, deep implicit layers, and differentiable projection methods that enforce strict constraint satisfaction in applications such as beamforming, phase-shift optimization, and power allocation. The emerging role of generative AI models, including large language models (LLMs), is further discussed in enabling adaptive and environment-aware resource allocation strategies that reduce dependence on frequent model redesign and retraining. The lecture concludes by identifying key research challenges and outlining a roadmap toward scalable, robust, and AI-native 6G wireless <a href="http://networks.Speaker" target="_blank" title="networks.Speaker">networks.Speaker Bio: Hina Tabassum (Senior Member, IEEE) received the Ph.D. degree from the King Abdullah University of Science and Technology. She is currently an Associate Professor with the Lassonde School of Engineering, York University, Canada, where she joined as an Assistant Professor in 2018. She is also appointed as a Visiting Faculty with the University of Toronto in 2024, and the York Research Chair of 5G/6G-enabled mobility and sensing applications in 2023, for five years. She is listed in Stanford’s list of the World’s Top Two-Percent Researchers from 2021 to 2025. She has been selected as the IEEE ComSoc Distinguished Lecturer for the term 2025–2026. She has co-authored over 120 refereed articles in well-reputed IEEE journals, magazines, and conferences. Her current research interests include multiband 6G wireless communications and sensing networks, connected and autonomous systems, and AI-enabled network mobility and resource management solutions. She has earned numerous distinctions, including the N2Women Star in Networking and Communications (2025), Early Career Lassonde Innovation Award (2023), N2Women Rising Star in Networking and Communications (2022), multiple Exemplary Editor awards from IEEE journals, and appointment to the NSERC Discovery Grant Evaluation Group (2025–2028). She served as an Associate Editor for IEEE Communications Letters from 2019 to 2023, IEEE Open Journal of the Communications Society from 2019 to 2023, and IEEE Transactions on Green Communications and Networking from 2020 to 2023. She is also currently serving as an Area Editor for IEEE Open Journal of the Communications Society and an Associate Editor for IEEE Transactions on Communications, IEEE Transactions on Mobile Computing, IEEE Transactions on Wireless Communications, and IEEE Communications Surveys and <a href="http://Tutorials.Bldg:" target="_blank" title="Tutorials.Bldg:">Tutorials.Bldg: ICT 424C, University of Calgary, Calgary, Alberta, Canada

Seminar Abstract:Switch-mode power converters are ubiquitous in renewable energy applications, electric vehicles, and battery chargers. Closed-loop controllers are essential to guarantee the consistent behaviour of power converters under all operating conditions, and they become a decisive component when defining the converters’ dynamic performance. Digital controllers based on linearized small-signal models are the preferred choice by the power electronics industry as their low implementation requirements make them suitable for implementation in low-cost microcontrollers. However, given the small-signal nature of the controller design, large transients usually represent an interesting <a href="http://challenge.This" target="_blank" title="challenge.This">challenge.This seminar describes an alternative large-signal modelling and control framework for power electronics, based on state-space average analysis. Large-signal average models will be derived for fundamental topologies, and then extended to more complex power converters and applications. Various ways to leverage these state-plane-average models will be discussed, including controllers that can significantly improve the converter’s large-transient dynamic performance while maintaining simple implementation <a href="http://requirements.Biography:Dr">requirements.[]Biography:Dr. Ignacio Galiano Zurbriggen is an Assistant Professor with the School of Sustainable Energy Engineering at Simon Fraser University. His research interests include the study of power electronic converters as technology-enabling building blocks for applications in sustainable Energy and Transportation. His work includes numerous industry-academia collaboration projects and industrial R&D experience with companies including Tesla, Alpha-Enersys, and <a href="http://Computrol.He" target="_blank" title="Computrol.He">Computrol.He completed his MSc and PhD degrees in Electrical and Computer Engineering at the University of British Columbia in 2013 and 2020 respectively, and his bachelor’s degree in Electronics Engineering at the National University of Cordoba, Argentina in 2010.Dr. Galiano Zurbriggen currently serves as an Associate Editor for IEEE-OJPEL, he has delivered numerous IEEE technical presentations and seminars, and he contributes as a reviewer for several IEEE journals and <a href="http://conferences.Room:" target="_blank" title="conferences.Room:">conferences.Room: SF B560, Bldg: Sanford Fleming Building, University of Toronto, 10 King’s College Road, Toronto, Ontario, Canada, M5S 3G4

Location TBC***CANCELED***Burnaby, British Columbia, Canada

Speaker: Dr. Rajkumar Buyya (IEEE Fellow, ACM Fellow)📅 Date: May 6, 2026⏰ Time: 5:00 – 6:00 PM PDT📍 Location: Virtual (Google Meet)🔗 Join: <a href="https://meet.google.com/jsi-cjuj-tkgThis" target="_blank" title="https://meet.google.com/jsi-cjuj-tkgThis">https://meet.google.com/jsi-cjuj-tkgThis talk explores next-generation cloud and quantum computing systems, focusing on AI-driven infrastructure, edge-cloud integration, and emerging quantum <a href="http://frameworks.Details:Hosted" target="_blank" title="frameworks.Details:Hosted">frameworks.Details:Hosted by IEEE Signal Processing Society, San Diego ChapterOrganized under the IEEE San Diego Section technical <a href="http://program.The" target="_blank" title="program.The">program.The twenty-first-century digital landscape is being reshaped by the convergence of Cloud computing, Internet of Things (IoT), Artificial Intelligence (AI), and emerging Quantum computing paradigms. Cloud computing has evolved into a utility model, delivering infrastructure, platforms, and software as scalable, on-demand services over distributed global <a href="http://systems.This" target="_blank" title="systems.This">systems.This talk presents a forward-looking vision of next-generation computing systems and explores key architectural innovations for building elastic, distributed, and intelligent cloud platforms. It covers integration of edge resources with large-scale data centers, enabling seamless deployment of AI and data-intensive <a href="http://applications.The" target="_blank" title="applications.The">applications.The session will highlight Aneka 6G, a next-generation cloud application platform supporting Big Data and AI workloads, along with real-world deployments across domains such as healthcare, satellite imaging, and natural language <a href="http://processing.The" target="_blank" title="processing.The">processing.The talk will also introduce emerging frameworks including QFaaS (Quantum Function-as-a-Service) and the iQuantum Simulation Toolkit, outlining how quantum computing can be integrated into modern cloud <a href="http://infrastructures.The" target="_blank" title="infrastructures.The">infrastructures.The presentation concludes with insights into future research directions in cloud and quantum computing, focusing on scalable, intelligent, and hybrid computing <a href="http://environments.The" target="_blank" title="environments.The">environments.The session will include a live Q&A with the <a href="http://speaker.Virtual:" target="_blank" title="speaker.Virtual:">speaker.Virtual: https://events.vtools.ieee.org/m/552450

A moderator-led panel discussion exploring the journey from an artificial intelligence concept to full organizational <a href="http://implementation.This" target="_blank" title="implementation.This">implementation.This session examines the transition from conceptual AI initiatives to their effective operationalization within organizational environments. While AI adoption has accelerated across industries, significant challenges remain in achieving sustainable integration and measurable <a href="http://impact.The" target="_blank" title="impact.The">impact.The discussion will address critical dimensions of AI implementation, including organizational readiness, governance frameworks, and the alignment of technological capabilities with business processes. Particular attention will be given to the systemic barriers that hinder adoption and the conditions required for successful deployment at <a href="http://scale.By" target="_blank" title="scale.By">scale.By bringing together strategic, operational, and technical perspectives, the session aims to provide a structured understanding of how AI can be embedded into real-world organizational contexts. The session will conclude with an interactive Q&A, enabling participants to engage with the discussed concepts in greater <a href="http://depth.event" target="_blank" title="depth.event">depth.event will be in English[]Speaker(s): Pierre Marie, Marina, Charles, FlorenceVirtual: https://events.vtools.ieee.org/m/557452

In 1994, Dr. Amy Pinchuk founded InField Scientific Inc., a company specializing in electromagnetic simulation, analysis, and testing for Navy shipboard environments. She has served as the lead industrial Electromagnetic Environmental Effects (E3) subject matter expert for the design and refit of Royal Canadian Navy (RCN) ships and also provides E3 expertise to the Royal New Zealand Navy. InField’s work focuses on optimizing ship design for system performance and Electromagnetic Compatibility (EMC) across mission-critical communication, navigation, and electronic warfare systems. The safety of personnel, ordnance, and fuel is a critical concern in shipboard environments characterized by extremely high electromagnetic fields. This presentation explores the scientific, engineering, and management challenges encountered over three decades in this highly specialized <a href="http://domain.Speaker(s):" target="_blank" title="domain.Speaker(s):">domain.Speaker(s): Dr. Amy Pinchuk, Room: EV003-309, Bldg: Electrical & Computer Engineering Department EV, Concordia University, 1515 Ste. Catherine West, MONTREAL, Quebec, Canada, H3G 1M8

IEEE Thompson-Okanagan Section ExCom. May 6th (Wednesday), 2026 @ 6 pm (online).Room: 102, Bldg: HS , 1000 KLO Rd, Kelowna, British Columbia, Canada, V1Y 4X8, Virtual: https://events.vtools.ieee.org/m/558327

Technical seminar by Professor David Keezer, IEEE Life Fellow, Chair Professor at EIT, NingboToday’s integrated circuits may contain billions of transistors and operate at multiple gigahertz clock rates. The communication port input and output aggregate bandwidths can easily exceed a terahertz (e.g. 800G and 1.6T PCIe and fiber-optic ports). Furthermore, some ICs support multiple high-speed communication ports as well as high-performance analog/RF signals. All these critical features need precise testing to ensure product quality. While existing automated test equipment (ATE) can handle the bulk of “mainstream” IC test requirements, they are not well-suited for these most advanced applications and are not easily adapted to new test challenges of future devices that may use entirely new signaling protocols. There is therefore a “gap” between the ability of ATE and the test needs of the most advanced devices. To address this problem, we are assembling an FPGA-based test-development platform that can quickly adapt to future test requirements. This presentation will describe the strategy and system architecture and show some early demonstrations for testing mixed analog/digital ICs as well as communication channels operating up to 224 Gbps per <a href="http://lane.Speaker(s):" target="_blank" title="lane.Speaker(s):">lane.Speaker(s): David Keezer, Room: MCLD 3038, Bldg: MacLeod Building, 2356 Main Mall, Vancouver, British Columbia, Canada, V6T 1Z4