Rescheduled Webinar for October 20th at 5:30 - 6:30 pmJoin this free Webinar hosted by Winnipeg IEEE Young Professionals Alumni Andrew Fisher!Title: Understanding LLMs in Education: Unlocking Opportunities and Navigating ChallengesAbstract: Large language model (LLM) platforms such as ChatGPT are changing how we learn and teach. From helping personalize lessons to making learning more accessible and engaging, these tools are becoming a growing part of the classroom. In this session, we will break down how LLMs work, explore what they can do in education, and discuss some of the key ethical questions they raise. The presentation will also introduce a skill called prompt engineering, which is the process of asking the right questions or giving clear instructions to get useful responses from LLMs. Attendees will see how small changes in wording can lead to very different results, whether you’re planning a lesson, creating study guides, or explaining complex ideas more clearly. This includes using LLMs as agents, where the technology follows structured prompts to complete a series of tasks toward a specific goal. To conclude, you will get hands-on experience with ChatGPT in an interactive activity. Together, we will explore what it does well, where it struggles, and how you can use it effectively in your own learning or future teaching. By the end of the session, you will leave with practical tips for using LLMs responsibly, as well as the confidence to start crafting better prompts that work for <a href="http://you.Virtual:">you.[]Virtual: https://events.vtools.ieee.org/m/495806

An IEEE Power System Relaying Committee Working Group K15 report defines a centralized protection and control (CPC) system as:-- A system comprised of a high-performance computing platform capable of providing protection, control, monitoring, communication and asset management functions by collecting the data those functions require using high-speed, time-synchronized measurements within a <a href="http://substation.-" target="_blank" title="substation.-">substation.-A typical CPC system consists of a computing platform, MUs, communications networks, and a time synchronization system. A CPC refers to the computing platform used in the CPC system for executing all protection, automation, control, metering, and other auxiliary functions. A CPC system aggregates all protection and control (P&C) applications in a few devices, with the goal of improving the reliability of P&C systems while potentially reducing design costs. Having fewer devices helps with hardware replacement and firmware <a href="http://upgrades.-" target="_blank" title="upgrades.-">upgrades.- DUKE example: Using drawings and relevant documentation, three CPC systems were designed for an existing distribution substation at Duke. The first design uses a powerful microprocessor relay capable of providing all P&C functions for the entire substation and uses copper connections between primary equipment and the CPC system. The second CPC system was designed using a P2P process bus architecture, in which multiple MUs connect to the system using direct fiberoptic cables. The third CPC system uses an IEC 61850-based process bus architecture with multiple MUs, network switches, clocks, and CPC. To eliminate a single point of failure, two CPC systems were used for each design. Following the development of the three CPC system designs, the total number of devices used for each of the designs was tabulated. Using a fault tree analysis technique, the protection scheme unavailability of each design was evaluated. Communications schemes in a traditional substation, like fast bus tripping and breaker failure, were implemented in all three CPC systems and tested on actual <a href="http://hardware.-" target="_blank" title="hardware.-">hardware.- AEP Example: The overlap of NERC mandates with a relay inventory of more than 41,000 microprocessor relays is compelling AEP to look for strategies that both simplify and reduce relay systems. The strategy they are taking is twofold: 1) implement a digital secondary system (DSS) with simple merging unit distribution using fiber-optic communications to the microprocessor relays, and 2) consolidate relays into a centralized protection and control (CPC) device capable of providing complete protection for the distribution <a href="http://substation.Speaker(s):" target="_blank" title="substation.Speaker(s):">substation.Speaker(s): Amy, Agenda: 7:00PM - Introduction of IEEE Hamilton Section7:15PM - Presentation8:00PM - Q&A8:15PM - RefreshmentsRoom: 163, Bldg: A.N Bourns Science Building (ABB), College Ct, Hamilton, Ontario, Canada, L8S 4L8