Saturday Online Study Group preparing for the Canadian Amateur Radio certification exam. 2hrs/week CEU/PDH credits issued by request. Course based on the certification study guide from https://www.coaxpublications.ca/ord0001.php Purchase the book if you are serious about learning this. Optional morse code practise with course. There are other books available that basically covers the same topics. Course continues depending on registration. Course is free. Fee for CEU/PDH certification and/or fee to write the Canadian federal certification exam. Workshop is open to anyone, IEEE members and non-members. This study group is repeating, if you miss a lecture, you can continue the workshop when it repeats. 12 weeks long plus time off for exams and reading week at Humber Registration is required. Email will be send out to all registrants just before the meetings start with the link for google meet or zoom. Agenda: 2 hours every Saturday morning 10-12 am edt (Saturday afternoon/evening in Europe) 50 Panorama Court, Etobicoke, Ontario, Canada, M9V4A9, Virtual: https://events.vtools.ieee.org/m/363431

Biomedical applications at microwave and radio frequencies rely on the differences in permittivity and conductivity of biological tissues. The properties of healthy tissues span a wide range that relates to water content, while diseased tissues such as malignancies typically exhibit increased properties. Leveraging these differences, microwave imaging has been investigated as an alternative method for breast cancer detection and treatment monitoring. Several approaches have been developed to map the properties of tissues and identify anomalies. Microwave tomography involves measuring signals transmitted through the tissues, then iteratively updating properties of a model until simulations match these measurements. Radar-based approaches involve collecting reflections from tissues, then processing and focusing these reflections to identify anomalies. For both radar and tomography, key challenges are design of a measurement system and interface that enable reliable and rapid collection of data while operating close to the target tissues, developing imaging algorithms capable of detecting anomalies in a complex background, and reconciling the resulting microwave images with clinically available data. At the University of Calgary, we have developed several generations of prototype systems, focusing on demonstrating the consistency of images collected at different time points, as well as the feasibility of detecting tumors and treatment-related changes. Our most advanced radar-based system implements patient-specific capabilities, scanning the breast with 4 degrees of freedom in sensor positioning to enable consistent collection of data. We leveraged the knowledge gained through experience with this system to develop a novel approach that estimates locally averaged properties of tissues by detecting pulses traveling through the breast. With this approach, we have demonstrated a high degree of similarity between images captured at different time points, as well as symmetry between properties of the right and left breasts. Comparison of the images of right and left breasts of cancer patients has also enabled tracking treatment-related changes. Recently, our team began testing the next generation of this transmission system that features improved resolution. The initial results obtained with this system add to the growing body of work that illustrates the potential of microwave imaging to provide a unique breast imaging solution. Speaker(s): Prof. Elise Fear Room: BA1180, Bldg: Bahen Centre for Information Technology, 40 St George st, Toronto, Ontario, Canada

R7 LMAG Executive Teleconference - MONTHLY MEETING Oakville, Ontario, Canada, L6H 2B1, Virtual: https://events.vtools.ieee.org/m/364686

Join IEEE Toronto Engineering in Medicine and Biology Society for an insightful panel discussion co-sponsored by IEEE Toronto section and FIBRE. This panel aims at providing valuable guidance and advice to graduate students and young researchers who aspire to pursue a career in academia. This event will bring together a distinguished panel of experienced researchers and academic professionals who will share their expertise and insights on the journey to securing a professorship position. During this engaging session, our panelists will discuss various aspects of the academic job market, provide practical tips for enhancing your prospects, and guide you through the essential steps towards a successful career in academia. Topics to be covered include crafting an impressive academic CV, developing a strong research profile, effective networking strategies, preparing for job interviews and presentations, and navigating the tenure process. Whether you are a graduate student planning your academic career path or a young researcher seeking guidance on advancing towards a professorship position, this panel discussion will provide you with valuable insights and strategies to excel in the competitive academic job market. Don't miss this opportunity to learn from experienced professionals, network with like-minded individuals, and gain the knowledge necessary to navigate the challenging journey towards a professorship position. There will be a tour of KITE Research Institute facilities. We look forward to welcoming you to this enlightening panel discussion and supporting your aspirations in academia! Co-sponsored by: IEEE Toronto Section; KITE Research Institute; Fabric Based Research Platform (FIBRE) Speaker(s): Dr. Nasim Montazeri, Dr. Shumit Saha, Dr. Raheleh Saryazdi, Dr. Ahmed Elwali Agenda: - 11:30am: Attendees' check-in - 11:30am-12pm : Lunch/refreshment - 12pm-1pm : Panel Discussion - 1pm-2pm : Networking and tour of KITE facilities Room: TRI-UC Lecture Theatre (basement), Bldg: Toronto Rehab University Centre (KITE-Toronto Rehab Institute), 550 University Ave, Toronto, Ontario, Canada, M5G 2A2

Officers' Meeting - Monday 26th of June Virtual: https://events.vtools.ieee.org/m/364287

Event: Laser Education Day - Hosted by: Trotec Laser Canada - Exclusive event for esteemed members of IEEE (Institute of Electrical and Electronics Engineers) - Date: Wednesday, June 28th - Time: 11AM to 2PM - Location: 1705 Argentia Road, Unit 9, Mississauga, ON L5N 3A9 - An enriching and immersive experience into the realm of laser cutters and engravers - Lunch and learn session with seasoned experts - Live demonstrations showcasing the precision and versatility of cutting-edge laser machines - Materials showcased: plastics, acrylics, wood, metals, and more - Designed for discerning engineers from various fields - Aims to equip professionals with knowledge and skills to harness the full potential of Laser Technology - Explore a wide range of applications and revolutionize projects - Engage in insightful discussions with industry-leading professionals - Gain invaluable insights into the limitless possibilities offered by Laser Technology Co-sponsored by: Trotec Laser Canada Inc. Agenda: 11 am - Presentation 12pm - Lunch 12:30 pm - Demonstrations on lasers 1705 Argentia Road, Unit 9, Mississauga, Ontario, Canada, L5N 3A9

IoT systems play critical roles in supporting diverse vertical applications by connecting heterogeneous devices, machines, and industrial processes. Any potential security risk in IoT systems could lead to catastrophic consequences and even system failure of critical infrastructures, particularly for applications relying on tight collaborations among distributed devices and facilities. While security is the cornerstone for many IoT applications, trust among entities and information privacy are becoming increasingly important. However, existing solutions often feature various distinctive weaknesses, including drastically increased time latency, communication/computation overheads, and privacy leakage, which are extremely undesirable for delay-sensitive, resource-constrained, and privacy-aware IoT communications. To overcome these challenges, this presentation will introduce a series of approaches to achieve cost-effective and reliable security and trust, providing efficient solutions for supporting a wide variety of vertical industry applications enabled by IoT. Speaker(s): He Fang Virtual: https://events.vtools.ieee.org/m/366000

Weekly, In-Person Arduino/RP2040/ESP32 Workshop with various peripherals and how to interface them. Beginner to Expert level. LED Displays, Infrared, Matrix Keyboard, sound, DHT sensors, Servos, LED Strips, Analog Inputs... and whatever else the students bring to the table. Also, students can come in for tutoring, work on homework and class projects. Room: J233a, Bldg: H, 2nd Floor, 205 Humber College Blvd, Etobicoke, Ontario, Canada, M9W5L7

Saturday Online Study Group preparing for the Canadian Amateur Radio certification exam. 2hrs/week CEU/PDH credits issued by request. Course based on the certification study guide from https://www.coaxpublications.ca/ord0001.php Purchase the book if you are serious about learning this. Optional morse code practise with course. There are other books available that basically covers the same topics. Course continues depending on registration. Course is free. Fee for CEU/PDH certification and/or fee to write the Canadian federal certification exam. Workshop is open to anyone, IEEE members and non-members. This study group is repeating, if you miss a lecture, you can continue the workshop when it repeats. 12 weeks long plus time off for exams and reading week at Humber Registration is required. Email will be send out to all registrants just before the meetings start with the link for google meet or zoom. Agenda: 2 hours every Saturday morning 10-12 am edt (Saturday afternoon/evening in Europe) 50 Panorama Court, Etobicoke, Ontario, Canada, M9V4A9, Virtual: https://events.vtools.ieee.org/m/364671

Microwave photonics (MWP) is a typical optical signal processing application for optical communications, antenna systems, and 5G/6G networks. At the same time, optical frequency combs (OFC) and programmable optical filters enable this system to be reconfigurable. There are several approaches to creating OFC lines, such as the micro-ring resonator, cascaded electro-optic modulator, and mode-locked laser (MLL), in which the quantum dash (QDash) MLL is an ideal on-chip OFC source to provide low relative intensity noise (RIN), narrow linewidth, and flat comb spectrum. In this seminar, we will present three typical applications of MWP systems using QDash MLL as the OFC source. The photonic beamforming illustrates a phased antenna array system that can do directional radiation and scanning. The MWP filter is a reconfigurable finite impulse response (FIR) filter, and a specially designed MWP filter can also be used for instantaneous frequency measurement. In partnership with the (https://nrc.canada.ca/en/research-development/research-collaboration/programs/high-throughput-secure-networks-challenge-program)Challenge program at National Research Council (NRC), we invite you to join this virtual seminar series to promote scientific information sharing, discussions, and interactions between researchers. Co-sponsored by: National Research Council, Canada Speaker(s): Yuxuan Xie , Virtual: https://events.vtools.ieee.org/m/366426

Magnetic Hardening in Low-Dimensional Ferromagnets By: Dr. J. Ping Liu Department of Physics, University of Texas at Arlington, Arlington, TX, USA IEEE Magnetics Society Distinguished Lecturer 2023 How “hard” (coercive) a ferromagnet can be has been a puzzle for a century. Seven decades ago, William Fuller Brown offered his famous theorem to correlate coercivity with the magnetocrystalline anisotropy fields in ferromagnetic materials. However, the experimental coercivity values have been far below the calculated levels given by the theorem, which is called Brown’s coercivity paradox. Researchers have attempted to solve the paradox with sustained efforts; however, the paradox remains unsolved, and coercivity still cannot be predicted and calculated quantitatively by modeling. Progress has been made in the past 20 years in understanding coercivity mechanisms in nanoscale low- dimensional ferromagnets. In fact, ferromagnetism is a size-dependent physical phenomenon, as revealed by theoretical studies. However, nanoscale ferromagnetic samples with controllable size and shape have been available only in recent times. By adopting newly developed salt-matrix annealing, surfactant-assisted milling, and improved hydrothermal and chemical solution techniques, we used a bottom-up approach to produce nanostructured magnets and have successfully synthesized monodisperse ferromagnetic Fe–Pt, Fe–Co, and Sm–Co nanoparticles and Co nanowires with extraordinary properties, which are strongly size- and shape-dependent. A study on size-dependent Curie temperature of the L10 ferromagnetic nanoparticles with sizes down to 2 nm has experimentally proved a finite-size effect. A systematic study of nanowires with extremely high coercivity above their magnetocrystalline anisotropy fields has opened a door to the solution of Brown’s paradox. Speaker(s): Dr. J. Ping Liu, Dr. J. Ping Liu Room: KHS 335, Bldg: Kerr Hall, Toronto Metropolitan University, Toronto, Ontario, Canada, Virtual: https://events.vtools.ieee.org/m/366655

Weekly, In-Person Arduino/RP2040/ESP32 Workshop with various peripherals and how to interface them. Beginner to Expert level. LED Displays, Infrared, Matrix Keyboard, sound, DHT sensors, Servos, LED Strips, Analog Inputs... and whatever else the students bring to the table. Also, students can come in for tutoring, work on homework and class projects. Room: J233a, Bldg: H, 2nd Floor, 205 Humber College Blvd, Etobicoke, Ontario, Canada, M9W5L7