State of the Pikes Peak Section
If you are a new visitor to the website, here are: the Pikes Peak Section’s Mission, Vision and Goals. A 6-minute video of Achievements during the 2019-2022 can be found here.
This web page serves as documentation of the transition for the new Section officers.
As shown below, there are three tabs:
2019-2022 Highlights. This web section highlights key initiatives providing services and content to help members in the Pikes Peak Section progress in their careers as well as having links to navigate various activities and content on the website.
2019-2022, State of the Pikes Peak Section. This event was an in-person meeting held at Old Chicago on 16 Feb 2023. Online digital flipbooks are posted to document the event. Certificates of Appreciation were given to key leaders within the Section as well as the Pikes Peak Section Award Plaques. A photo Album as a digital flipbook of award recipients is posted. Digital flipbooks of presentations by Daniel Thomson and John Santiago are posted as well. Daniel Thomson, Young Professional and Student Branch Coordinator, provided a report of the 2023 Rising Stars Conference. Dr. John Santiago provided key highlights of events and initiatives that occurred during 2019-2022 as well as a brief discussion on leadership & Engineering week.
In summary,
- The presentations and award photos of the meeting are provided as digital flipbooks.
- Results of the survey are presented as a digital flipbook as well.
- An IEEE embroidered T-shirt drawing of three t-shirts was held for those who submitted a survey to help with the transition and succession leadership planning.
2019-2022, Meetings. This section provides a list of meetings between the beginning of 2019 and the end of 2022. It has active links so you can see the description of past meetings.
The website serves multiple purposes: automated real-time Section events & reports via vtools, resume/CV of Section, historical archive of Section activities, and information insurance…that is it’s there when you need it.
Plans to migrate the Section website to Region 5 are forthcoming: migrating from https://r5.ieee.org/pikespeak to https://r5.ieee.org/pikespeak. Hopefully, the migration is a smooth one.
NOTE: After the text narrative of highlights below, there are images with hotlinks to help you navigate the assorted content found within the website. You may need to refresh the page if you do not see the images.
HIGHLIGHTS TO HELP YOU NAVIGATE THE MULTI-MEDIA WEBSITE
1. VIDEO SUMMARY OF ACHIEVEMENTS. For a short 6-minute video summary of IEEE History and Achievements during the 2019-2022 and given to the IEEE Region 5 on 9 September 2022, please visit: IEEE Region 5 Achievements Forum, 9 September 2022
2. UPCOMING AND RECENT PAST EVENTS. For a listing of upcoming and most recent past events in the each of the society chapters and , please visit this link: News . For convenience, you can also find upcoming events on the left side panel of the home page at https://r5.ieee.org/pikespeak when viewed on a desktop (or at the bottom of the home page when viewed on a smart phone)
3. VISION, MISSION, STRATEGIC GOALS. For a slide show of IEEE Pikes Peak Section’s Vision, Mission and Strategic Goals, please visit: About the Section.
4. DIGITAL FLIPBOOKS/VIDEOS ON SELECTED PRESENTATIONS FROM SECTION CHAPTERS/GROUPS. Based on the presentations generated from the Pikes Peak Section societies and groups, we also provided digital flipbooks and/or videos to the society and group pages shown below:
- Webpage of Digital Flipbooks and Video Links of Speaker Presentations from the Computer Society
- Webpage of Digital Flipbooks and/or Videos of Speaker Presentations from the Life Member Affinity Group
5. SECTION CHAPTERS. The section added dedicated web pages for the following chapters/society/groups. Click on the hyperlinked text below for more information.
- Computer Society
- Joint Circuits and Systems/Electronic Devices Society
- Life Member Affinity Group
- Magnetics Society
- Power and Energy Society
6. PROFESSIONAL DEVELOPMENT. For a section with web resources on professional development for engineers, please visit Professional Development. When you visit the web page, tab sections include: Licensed Engineer (by current Region 5 Director, Bob Becknel), IEEE Senior Membership, Young Professional Leadership, Managing Change, Past 50 Years on Change, Center for Leadership Excellence (CLE), 2022 IEEE Day, Character: Pyramid of Success, Engineering Management Institute (EMI) Resources
7. GROWTH MINDSET FOR STUDENTS. There is a web resources section on the Growth Mindset (Including Leadership and Entrepreneurial Mindset) for Students with videos/playlists. The contents contain the following headings
- Engineering Unleashed : Tab Sections include: Mindset for Success, Kern Entrepreneurial Engineering Network (KEEN) framework, Video Series of Engineering Mindset, KEEN’zine, KEEN talks, 2021 KEEN Plenary Talks, Remote Teaching Resources, Student & Faculty Video Testimonials, Industry Validation Videos, and IEEE Links
- Skillset And Mindset : Tab Sections include: Demystifying Leadership, Passion for Excellence, Character for Excellence, Young Professional Leadership, FE Prep Tips, Leadership Development, 2022 IEEE Day
- Student Activities : To help generate project ideas for student branches the tab Sections include past activities of students: 2022 UCCS IEEE Day, USAFA Senior Design, Student Projects, Underwater Robotics, What-If Festival, Space Foundation, Disney Theme Parks, Solar Tour and Expo, Engineering Week, Student Made Video & More, Try Engineering
- IEEE and Other Videos : Tab Sections include: IEEE Spectrum on Robotics, Quadcopter Playlist, Women-In-Engineering Videos, Leadership Series – Young Professionals, Keys to Being a Successful Engineer, Engineering Career Takeaways
8. COMMUNITY OUTREACH: The Community Outreach section includes: Global Humanitarian Outreach, Industry/Government Outreach, National Museum of WWII Aviation, IEEE Student Branches at Colorado State University – Pueblo (CSU-P) University of Colorado, Colorado Springs (UCCS), Colorado Technical University (CTU) and United States Air Force Academy (USAFA).
9. PHOTO GALLERIES: For selected photo galleries of past events, visit Photo Galleries. Tab Sections include: May 2019: USAF Academy Senior Design Projects, Feb 2020: MRAM Technology, July 2022: National Museum of WWII Aviation, Aug 2022: EXCOM Meeting, Sep 2022: Power Grid Upgrade in Africa, Oct 2022: IEEE Day at UCCS
10. ARCHIVE: For a visual and historical archive of past events, Archive . Tab Sections are labelled as [2022], [2021],[2020], [2019], [Pre-2019]
11. CONTACT US: For email contact for officer positions with the section, please visit Contact Us.
Dedicated Web Pages of Society Chapters
We recently added dedicated web pages for the following society chapters/groups. Click on the blue ‘i’ on the logo image or hyperlinked text below the set of logo icons for more information.
If you see a large blank space below, you will need to refresh the page.
Videos and Digital Flipbooks from Society Chapters
Based on the content generated from the Pikes Peak Section societies and groups, we also provided digital flipbooks and/or videos to the society and group pages shown below:
Note: Please be patient as it takes a minute or two to load the flipbooks and videos. Some videos take time to load due to bandwidth-limited websites.
If you see a large blank space below, you will need to refresh the page.
Recent Events, Engineering Unleashed & Community Outreach
You will also find the latest and reported meetings or events from the section here. Any upcoming meetings can be found on the left column of this home page.
If you see a large blank space below, you will need to refresh the page.
We also provided a dedicated section on the Entrepreneurial Mindset for Students and Faculty. The multi-media content will provide graduating IEEE students a competitive edge during a job interview. The Entrepreneurial Mindset working in tandem with the technical skillset is based on the Kern Entrepreneurial Engineering Network (KEEN) framework, also found at Engineering Unleashed website. The web section that was developed contains:
Student Videos on Engineers Make A Difference | Skillset & Mindset |Student Activities | Engineering Unleashed | IEEE & Other Videos
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16 FEB 2023: IEEE Pike Peak Section Meeting (All Members) and EXCOM Meeting
More Info and Registration: https://events.vtools.ieee.org/m/343988
16 FEB 2023: IEEE PIKES PEAK SECTION MEETING (ALL MEMBERS) AND EXCOM MEETING
RISING STARS CONFERENCE , STATE OF THE IEEE PIKES PEAK SECTION, FUTURE PLANNING
PURPOSE:
– To obtain your interests, activities/events, and constructive feedback in creating more value to its members and the local community, as well as helping to plan future events.
– To update you on latest activities/events and Section sustainability, like the Rising Stars Conference and the State of the Pikes Peak Section (see highlights below the Agenda section)
There will be two meetings:
- A Section meeting in which all IEEE members are invited to attend (5:30 pm – 6:30 pm, see Agenda section)
- An EXCOM (Executive Committee) Meeting (6:30 pm – 7:30 pm) in which all IEEE section members (who are not part of the EXCOM committee) are invited to attend as well.
To help save time during the meeting, the Section has developed a work-in-progress and multimedia website with highlights of events during 2019-2022 period for the members to provide a snapshot of Section/Chapters activities. The highlights with weblinks can be found just below the Agenda section. There is also an attached pdf of the same highlights with weblinks.
The meeting room can only accommodate 30 people. Adjacent to the meeting room is a dining area for overflow to accommodate more than 30 people.
For those who cannot attend the meeting, you can email me at john.santiago@ieee.org or john@e-liteworks.com about your interests of topics, new services and/or other recommendations. We’ll compile and consolidate them for the meeting. If you have time, I’d suggest you review the highlights of past activities and other information that can be found in the Agenda section shown below.
A survey will also be sent out requesting feedback on planning of future activities and services. For example, using IEEE vTools (vTools stand for Volunteer Tools) as well as zoom, google meet, Microsoft Teams should the section re-activate past Section chapters that may be geographically widely dispersed? VTools Analytical Database (OU Analytics) shows the following number of section members for those with no chapters within the section.
– Communication Society (48 members)
– Solid-State Circuits (47 members)
– IEEE Signal Processing Society (30 members)
– Aerospace and Electronics Systems Society (22 members)
Using vTools, one can “simplify the administrative tasks to our volunteers via the use of online tools, reducing time spent managing activities and assisting in member development.”
One of the new features in vtools is called Local Groups. Here, a member can request formation of a new informal group in your Section. Perhaps there is a lot of interest in Blockchain or avid HAM Radio operators. You can form a Local Group to get like minds together.
For the digital flipbooks below, click on the toolbar (shown below) found near the bottom right of the flipbook.
Appreciation to Section Volunteers
Survey Results as of 16 February 2023
If you would like to provide your input to the survey, the survey questions can be found at Survey | IEEE Pikes Peak Section.
Although the deadlines may have come and go, we still value our members’ input to guide future activities and events for the section.
16 February 2023: Daniel Thomson – Rising Stars Conference Report
State of the Pikes Peak Section – Dr. John Santiago
The briefing below also serves as an early-bird celebration of Engineering week!
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Logo Description on Certificate of Appreciation.
The above diamond logo from the presentation and described below was adapted from Dr John Santiago entrepreneurial experience when creating and designing his business logos.
Using the Sierpinski Equilateral Triangle, you can also form a Pyramid (or Tetrahedral). The tetrahedral model was also used in Dr. Santiago’s dissertation of modeling and evaluating control strategies of Large-Scale Flexible Space Structures.
For most undergraduates, the logo shape looks like a diamond…implying that engineering is hard and valuable.
After graduating from an engineering school the logo may look like a Superman Shield to certain individuals … where folks assume you have superpowers as an engineer.
The eagle represents the powerful technical skillset. The three-headed eagle represents the government model by the Founding Fathers, designing a nation to unleash the entrepreneurial spirit among its citizens.
The owl represents the entrepreneurial mindset (or growth and leadership mindset) to provide career direction and motivating in keeping your technical skillset sharp.
Kern Entrepreneurial Engineering Network (KEEN) Framework can be briefly described as:
- Skillset + Mindset = Career Success
- Tandem Bicycle is visual icon of the KEEN framework.
- Skillset is the back-seater (or eagle in this case) provides power and is like the magnitude and front-seater (or owl) provides direction.
- Both riders (skillset and mindset) provide a vector for career success
As mentioned earlier, on the logo is the three-headed eagle which also represents the model by our Founders to create a government that never was.
Our country’s Founders designed a government and provided an environment to unleash the creativity and entrepreneurial mindset of ‘WE THE PEOPLE’.
Gif image below is same as the above video, but you cannot pause…goes on continuously.
Some Ideas to Promote IEEE customized for Pikes Peak Region
Applications of the Sierpinski Triangle
The Sierpinski triangle was first discovered by the Polish mathematician Waclaw Sierpinski in 1915. He was studying the properties of a particular type of triangle and noticed that when he divided it into smaller and smaller parts, the same pattern emerged. This pattern is now known as the Sierpinski triangle. The triangle is composed of three points, each connected to the other two by a line. The triangle can be divided into four smaller triangles, each of which is an exact copy of the original. This process can be repeated infinitely, creating a fractal.
It is created by iteratively removing triangles from a larger triangle. The Sierpinski Triangle has been studied extensively in mathematics and has numerous applications in various fields. Here are some of them:
- Fractal image compression: The Sierpinski Triangle can be used in image compression algorithms to generate self-similar patterns that reduce the size of an image file without losing important details.
- Computer graphics: The Sierpinski Triangle is often used in computer graphics to create 3D models of landscapes and terrains, as well as to generate textures and patterns for surfaces.
- Number theory: The Sierpinski Triangle can be used in number theory to study the properties of prime numbers and to construct complex numbers.
- Chaos theory: The Sierpinski Triangle can be used to model chaotic systems and to study the behavior of complex systems over time.
- Education: The Sierpinski Triangle is often used in education as a visual tool to teach concepts such as self-similarity, iteration, and fractals.
- Art: The Sierpinski Triangle has been used as a design element in various forms of art, including architecture, painting, sculpture, and graphic design.
- Data visualization: The Sierpinski Triangle can be used in data visualization to display hierarchical relationships between data points.
- Cryptography: The Sierpinski Triangle can be used in cryptography to generate pseudo-random numbers and to encrypt data.
The Sierpinski triangle is a fascinating geometric figure that has been used in mathematics, computer science, and other disciplines for centuries. It is a fractal, meaning that it is infinitely complex and can be divided into smaller and smaller parts. The triangle has a rich history, and its properties have been studied and applied in many different ways. In this article, we will explore the various applications of the Sierpinski triangle, its history, and its potential for future research.
The Sierpinski triangle has been used in many different fields, including mathematics, computer science, and art. In mathematics, it is used to study the properties of fractals, such as self-similarity and recursion. It is also used to study the properties of chaos theory, which is the study of complex systems. In computer science, the triangle is used to generate random numbers, as well as to create fractal images. It has also been used in art, where it is used to create intricate patterns and designs.
The Sierpinski triangle has been used in many different ways throughout history. In the 17th century, it was used by the French mathematician Pierre de Fermat to study the properties of prime numbers. In the 19th century, it was used by the German mathematician Georg Cantor to study the properties of infinite sets. In the 20th century, it was used by the American mathematician Benoit Mandelbrot to study the properties of fractals.
The potential for future applications and research of the Sierpinski triangle is vast. It can be used to study the properties of complex systems, such as those found in nature. It can also be used to generate random numbers, which can be used in cryptography and other security applications. Additionally, it can be used to create intricate patterns and designs, which can be used in art and design.
Its history is rich, and its properties have been used to study the properties of fractals, chaos theory, prime numbers, and infinite sets. It is also used to study the properties of chaos theory, which is the study of complex systems. In conclusion, the Sierpinski triangle is a fascinating geometric figure that has been used in many different fields for centuries. Additionally, it can be used to create intricate patterns and designs, which can be used in art and design. It has also been used in art, where it is used to create intricate patterns and designs. In the 17th century, it was used by the French mathematician Pierre de Fermat to study the properties of prime numbers. It can also be used to generate random numbers, which can be used in cryptography and other security applications. The Sierpinski triangle has been used in many different fields, including mathematics, computer science, and art. In computer science, the triangle is used to generate random numbers, as well as to create fractal images. The Sierpinski triangle has been used in many different ways throughout history. In the 19th century, it was used by the German mathematician Georg Cantor to study the properties of infinite sets. He was studying the properties of a particular type of triangle and noticed that when he divided it into smaller and smaller parts, the same pattern emerged. Its properties have been studied and applied in many different ways, and its potential for future applications and research is vast. In the 20th century, it was used by the American mathematician Benoit Mandelbrot to study the properties of fractals. The Sierpinski triangle is a fascinating geometric figure that has been used in mathematics, computer science, and other disciplines for centuries. It can be used to study the properties of complex systems, such as those found in nature. The triangle has a rich history, and its properties have been studied and applied in many different ways. In mathematics, it is used to study the properties of fractals, such as self-similarity and recursion.
In conclusion, the Sierpinski triangle is a fascinating geometric figure that has been used in many different fields for centuries. Its properties have been studied and applied in many different ways, and its potential for future applications and research is vast. Its history is rich, and its properties have been used to study the properties of fractals, chaos theory, prime numbers, and infinite sets. Its potential for future applications and research is vast, and its use in art and design is sure to continue to grow.
Overall, the Sierpinski Triangle is a fascinating mathematical concept with numerous practical applications in various fields.
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Demonstrating the power of recursion: The Sierpinski triangle is an excellent example of how a simple rule (recursive division) can create a complex and beautiful pattern. This can be used to illustrate the power of recursive algorithms in computer science and engineering.
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Teaching geometry and trigonometry: The Sierpinski triangle is a great way to teach geometry and trigonometry concepts. Students can explore the properties of triangles, angles, and proportions, and learn how to use trigonometry to calculate the angles and dimensions of each triangle in the fractal pattern.
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Introducing fractals: The Sierpinski triangle is one of the most well-known examples of a fractal pattern. By exploring the Sierpinski triangle, students can learn about the properties of fractals, including self-similarity, infinite complexity, and non-integer dimensions.
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Promoting creativity and innovation: The Sierpinski triangle is a visually stunning pattern that can inspire creativity and innovation. It can be used as a starting point for students to create their own fractal patterns, or to explore the properties of other fractals, such as the Mandelbrot set.
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Engaging with art and design: The Sierpinski triangle is an example of how mathematics and art can intersect. It can be used to introduce students to the principles of design and composition, and to explore the role of mathematics in the creation of art.
How can fractal thinking encouraged best business practices?
Fractal thinking can be used to encourage best business practices in a number of ways. Fractal thinking involves applying the principles of self-similarity and iteration to complex problems, which can help businesses to break down large problems into smaller, more manageable pieces. Here are some examples of how fractal thinking can be used to encourage best business practices:
- Developing scalable business models: Fractal thinking can help businesses develop scalable business models that can be easily replicated. By breaking down a business model into its component parts and identifying the elements that can be repeated or scaled, businesses can create a more efficient and profitable operation.
- Streamlining processes: Fractal thinking can be used to streamline business processes by breaking down complex tasks into smaller, more manageable parts. This can help businesses to identify bottlenecks and inefficiencies, and to develop more efficient processes.
- Identifying patterns and trends: Fractal thinking can help businesses to identify patterns and trends in complex data sets. By breaking down the data into smaller, more manageable parts, businesses can identify the key drivers of performance and develop strategies to capitalize on these trends.
- Encouraging innovation: Fractal thinking can encourage innovation by promoting a culture of experimentation and iteration. By breaking down complex problems into smaller pieces, businesses can test and refine their ideas before scaling them up.
- Managing risk: Fractal thinking can help businesses manage risk by breaking down complex risks into smaller, more manageable pieces. By identifying the underlying causes of risks and addressing them systematically, businesses can reduce their exposure to risk and minimize the impact of potential disruptions.
In summary, fractal thinking can be used to encourage best business practices by breaking down complex problems into smaller, more manageable pieces. By applying the principles of self-similarity and iteration to business problems, businesses can develop scalable business models, streamline processes, identify patterns and trends, encourage innovation, and manage risk more effectively.
ENGINEERING WEEK: THE Creation of the United States from an Engineering Educator Perspective
Although Engineering Week was mentioned during the meeting, there was no time to discuss in detail what is meant by the view as to creating a government that never existed before. A poster was briefly discussed during the meeting, however. Here’s one perspective to help celebrate Engineering Week.
They used a three-headed eagle coordinated through one neck to model the new government.
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Separation of powers: The three-headed eagle is often used to symbolize the separation of powers in the U.S. government. Each of the eagle’s heads represents a different branch of government: the legislative, executive, and judicial branches. This model emphasizes the importance of checks and balances and the need for each branch to act as a counterbalance to the others, in order to prevent any one branch from becoming too powerful.
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Federalism: Another way that the three-headed eagle model has been used is to symbolize the federal structure of the U.S. government. The central eagle represents the federal government, while the two outer eagles represent the states. This model emphasizes the importance of a strong central government, while also recognizing the rights and autonomy of the individual states.
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National identity: Finally, the three-headed eagle is sometimes used as a symbol of American national identity. The eagle is a powerful and majestic bird that is associated with strength, freedom, and independence. By representing the U.S. government as a three-headed eagle, this model emphasizes the idea that the U.S. government is a powerful, sovereign entity that represents the collective will and values of the American people.
In many ways, the Founding Fathers can be viewed as engineers of the American political system. They applied many of the same principles and practices that are common in engineering to the design and construction of a new form of government, and their work has stood the test of time, continuing to serve as a model for democratic societies around the world.
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Architecture: Many of the Founding Fathers were involved in designing and constructing buildings. Thomas Jefferson, for example, was an accomplished architect who designed the Virginia State Capitol and the University of Virginia, among other notable structures.
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Military engineering: During the Revolutionary War, many of the Founding Fathers played important roles in military engineering. George Washington, for example, oversaw the construction of fortifications and other infrastructure that were essential to the success of the Continental Army.
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Surveying: Surveying was an important field during the time of the Founding Fathers, and many of them were involved in surveying and mapping land for a variety of purposes, including property assessment and the development of transportation networks. George Washington, for example, worked as a surveyor before he became a military commander and politician.
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Invention: Many of the Founding Fathers were also inventors and innovators, developing new technologies and machines that helped to advance industry and society. Benjamin Franklin, for example, was a prolific inventor who is credited with inventing the lightning rod, bifocal glasses, and a number of other devices.
Below the pdf digital flipbook, you will find a list of active links to the descriptions of the past meetings between the beginning of 2019 and the end of 2022.
DOWNLOAD: 2019-022_Pikes_Peak_Section_Meetings.pdf
LIST OF ACTIVITIES: 2019-2022
Title | Date | Hosts | Options |
Dzyaloshinskii-Moriya Interaction in Magnetic Multilayers : Pikes Peak Section Chapter,MAG33 | 25 Jan 2019 11:00 AM | CH05210 – Pikes Peak Section Chapter,MAG33 | View |
Microwave Microscopy of Micro/Nanoscale Material Properties : Pikes Peak Section Chapter,MAG33 | 08 Feb 2019 11:00 AM | CH05210 – Pikes Peak Section Chapter,MAG33 | View |
Resistance is Not Futile: Pinning Down Elusive Vortices in Superconductors : Pikes Peak Section Chapter,MAG33 | 22 Feb 2019 11:00 AM | CH05210 – Pikes Peak Section Chapter,MAG33 | View |
Pikes Peak Life Members Meeting : Pikes Peak Section Affinity Group,LM | 23 Mar 2019 05:30 PM | LM50043 – Pikes Peak Section Affinity Group,LM | View |
Caloric Effects in Magnetic Materials : Pikes Peak Section Chapter,MAG33 | 12 Apr 2019 11:00 AM | CH05210 – Pikes Peak Section Chapter,MAG33 | View |
Pikes Peak IEEE Life Member Affinity Group April Meeting : Pikes Peak Section Affinity Group,LM | 18 Apr 2019 11:30 AM | LM50043 – Pikes Peak Section Affinity Group,LM | View |
Engineering Magnetic Interactions in Complex Oxide Heterostructures : Pikes Peak Section Chapter,MAG33 | 19 Apr 2019 11:00 AM | CH05210 – Pikes Peak Section Chapter,MAG33 | View |
Case Studies on Challenges and Opportunities in Internet-of-Things Security and Privacy (Applications to Driverless Cars) : Pikes Peak Section | 24 Apr 2019 05:00 PM | R50043 – Pikes Peak Section | View |
Two-dimensional mutually synchronized spin Hall nano-oscillator arrays for highly coherent microwave signal generation and neuromorphic computing. : Pikes Peak Section Chapter,MAG33 | 10 May 2019 11:00 AM | CH05210 – Pikes Peak Section Chapter,MAG33 | View |
Imaging Spins in Motion : Pikes Peak Section Chapter,MAG33 | 23 May 2019 11:00 AM | CH05210 – Pikes Peak Section Chapter,MAG33 | View |
Tuning of Easy Magnetization Axis by Thickness, Covering and Quantum Confinement : Pikes Peak Section Chapter,MAG33 | 12 Jul 2019 11:00 AM | CH05210 – Pikes Peak Section Chapter,MAG33 | View |
Topological Insulator/Magnetic Insulator Heterostructures : Pikes Peak Section Chapter,PE31 | 06 Sep 2019 11:00 AM | CH05183 – Pikes Peak Section Chapter,PE31 | View |
Joint Pikes Peak and Denver IEEE Life Member Affinity Group Meeting : Pikes Peak Section Affinity Group,LM | 14 Sep 2019 12:00 PM | LM50043 – Pikes Peak Section Affinity Group,LM | View |
ATOMs ‐ Atomistic to Micromagnetic modelling: from permanent magnets to magnetic hybrid materials : Pikes Peak Section Chapter,MAG33 | 20 Sep 2019 11:00 AM | CH05210 – Pikes Peak Section Chapter,MAG33 | View |
Anatomy of spin-orbit torque : Pikes Peak Section Chapter,MAG33 | 07 Oct 2019 01:30 PM | CH05210 – Pikes Peak Section Chapter,MAG33 | View |
Magnetic Nanoparticles Form Follows Function : Pikes Peak Section Chapter,MAG33 | 25 Oct 2019 11:00 AM | CH05210 – Pikes Peak Section Chapter,MAG33 | View |
Pikes Peak IEEE Life Member Affinity Group November Meeting : Pikes Peak Section Affinity Group,LM | 04 Nov 2019 11:30 AM | LM50043 – Pikes Peak Section Affinity Group,LM | View |
Manipulating Spin-Photon Hybridization : Pikes Peak Section Chapter,MAG33 | 06 Dec 2019 11:00 AM | CH05210 – Pikes Peak Section Chapter,MAG33 | View |
Magnetic Nanoparticle Workshop : Pikes Peak Section Chapter,MAG33 | 13 Dec 2019 12:00 PM | CH05210 – Pikes Peak Section Chapter,MAG33 | View |
Joint IEEE Pikes Peak Section and Life Member Affinity Group Meeting : Pikes Peak Section Affinity Group,LM | 18 Feb 2020 05:30 PM | LM50043 – Pikes Peak Section Affinity Group,LM | View |
Advancing quantum information science with hybrid cavity magnonics : Pikes Peak Section Chapter,MAG33 | 21 Feb 2020 11:00 AM | CH05210 – Pikes Peak Section Chapter,MAG33 | View |
Magnonic Second Sound : Pikes Peak Section Chapter,MAG33 | 28 Feb 2020 11:00 AM | CH05210 – Pikes Peak Section Chapter,MAG33 | View |
Accelerating Commercialization of SiC Power Electronics : Pikes Peak Section | 02 Mar 2020 03:10 PM | R50043 – Pikes Peak Section | View |
Pikes Peak IEEE Life Member Affinity Group May Virtual Meeting : Pikes Peak Section Affinity Group,LM | 13 May 2020 02:00 PM | LM50043 – Pikes Peak Section Affinity Group,LM | View |
Pikes Peak IEEE Life Member Affinity Group May Virtual Meeting : Pikes Peak Section Affinity Group,LM | 20 May 2020 02:00 PM | LM50043 – Pikes Peak Section Affinity Group,LM | View |
Pikes Peak IEEE Life Member Affinity Group May Virtual Meeting : Pikes Peak Section Affinity Group,LM | 27 May 2020 02:00 PM | LM50043 – Pikes Peak Section Affinity Group,LM | View |
Pikes Peak IEEE Life Member Affinity Group July Virtual Meeting : Pikes Peak Section Affinity Group,LM | 07 Jul 2020 06:00 PM | LM50043 – Pikes Peak Section Affinity Group,LM | View |
Pikes Peak IEEE Section, Virtual Meeting: Section Status Update & Ames Power Station Presentation : Pikes Peak Section | 30 Jul 2020 05:00 PM | R50043 – Pikes Peak Section | View |
IEEE Pikes Peak Section – Computer Society Chapter August Meeting : Pikes Peak Section Chapter,C16 | 06 Aug 2020 05:00 PM | CH05056 – Pikes Peak Section Chapter,C16 | View |
Who Invented the Integrated Circuit? : Denver Section Jt. Chapter, IT12/C16/RA24 | 06 Aug 2020 05:00 PM | CH05029 – Denver Section Jt. Chapter, IT12/C16/RA24, CH05056 – Pikes Peak Section Chapter,C16 | View |
Title | Date | Hosts | Options |
Pikes Peak IEEE Life Member Affinity Group August Virtual Meeting : Pikes Peak Section Affinity Group,LM | 12 Aug 2020 06:00 PM | LM50043 – Pikes Peak Section Affinity Group,LM | View |
Data Fusion & Resource ment (DF&RM) Dual Node Network (DNN) Technical Architecture : Pikes Peak Section Chapter,C16 | 03 Sep 2020 05:00 PM | CH05056 – Pikes Peak Section Chapter,C16 | View |
October Meeting – Computer Society Pikes Peak Chapter – Quantum Computing Tutorial Part 1 of 2 : Pikes Peak Section Chapter,C16 | 01 Oct 2020 05:00 PM | CH05056 – Pikes Peak Section Chapter,C16 | View |
IEEE CIR: Introduction to Quantum Computing : Denver Section Jt. Chapter, IT12/C16/RA24 | 01 Oct 2020 05:00 PM | CH05029 – Denver Section Jt. Chapter, IT12/C16/RA24, CH05056 – Pikes Peak Section Chapter,C16 | View |
Region 5 Computer Science Joint Event : Wichita Section Jt. Chapter, C16/CS23 | 01 Oct 2020 06:00 PM | CH05066 – Wichita Section Jt. Chapter, C16/CS23, CH05056 – Pikes Peak Section Chapter,C16 | View |
Joint Pikes Peak Section, Pikes Peak LMAG October Virtual Meeting : Pikes Peak Section Affinity Group,LM | 22 Oct 2020 06:00 PM | LM50043 – Pikes Peak Section Affinity Group,LM | View |
November Meeting – Computer Society Pikes Peak Chapter – Quantum Computing Application Part 2 of 2 : Pikes Peak Section Chapter,C16 | 05 Nov 2020 05:00 PM | CH05056 – Pikes Peak Section Chapter,C16 | View |
Region 5 Computer Science Joint Event : Wichita Section Jt. Chapter, C16/CS23 | 05 Nov 2020 06:00 PM | CH05066 – Wichita Section Jt. Chapter, C16/CS23, CH05056 – Pikes Peak Section Chapter,C16 | View |
Virtual Meeting: IEEE Initiative on Privacy and Security Using Blockchain Technology : Pikes Peak Section | 28 Jan 2021 05:30 PM | R50043 – Pikes Peak Section | View |
Pikes Peak Life Member Affinity Group Virtual Meeting : Pikes Peak Section Affinity Group,LM | 11 Feb 2021 07:00 PM | LM50043 – Pikes Peak Section Affinity Group,LM | View |
Technology Innovations for Space Exploration – PPCS March Meeting (Virtual) : Pikes Peak Section Chapter,C16 | 04 Mar 2021 06:00 PM | CH05056 – Pikes Peak Section Chapter,C16 | View |
Pikes Peak Life Member Affinity Group Virtual Meeting – April : Pikes Peak Section Affinity Group,LM | 19 Apr 2021 06:00 PM | LM50043 – Pikes Peak Section Affinity Group,LM, LM500051 – Central Texas Section Aff Group, LM (Austin), LM50015 – Fort Worth Section Affinity Group, LM, LM50017 – Houston Section Affinity Group,LM, LM50045 – Galveston Bay Section Affinity Group, LM | View |
PPCS April Meeting: Speech Recognition – Historical View of Business and Technology : Pikes Peak Section Chapter,C16 | 22 Apr 2021 06:00 PM | CH05056 – Pikes Peak Section Chapter,C16 | View |
Speech Recognition: An Historical Perspective on the Business and Technology – Regional Webinar : Las Vegas Section Chapter, C16 | 22 Apr 2021 06:00 PM | CH06266 – Las Vegas Section Chapter, C16, CH05056 – Pikes Peak Section Chapter,C16 | View |
PPCS May Meeting: An Overview of Data Science : Pikes Peak Section Chapter,C16 | 06 May 2021 06:00 PM | CH05056 – Pikes Peak Section Chapter,C16 | View |
PPCS June 2021 Virtual Meeting: A Brief Prehistory of Voice over IP with Steve Casner : Pikes Peak Section Chapter,C16 | 10 Jun 2021 06:00 PM | CH05056 – Pikes Peak Section Chapter,C16, R605 – Southern California Council, CH06122 – Orange County Section Chapter, C16 | View |
Pikes Peak & Denver Life Member Affinity Group – June Meeting (In-Person) : Pikes Peak Section Affinity Group,LM | 12 Jun 2021 10:30 AM | LM50043 – Pikes Peak Section Affinity Group,LM, LM50011 – Denver Section Affinity Group, LM | View |
Quantum-inspired cavity-magnon polaritons experiments: From coherence at ultra-low temperatures over multi-tone manipulation to time-resolved control : Pikes Peak Section Chapter,MAG33 | 25 Jun 2021 11:00 AM | CH05210 – Pikes Peak Section Chapter,MAG33 | View |
Annual meeting of Pikes Peak Section of Magnetics Society : Pikes Peak Section Chapter,MAG33 | 25 Jun 2021 12:30 PM | CH05210 – Pikes Peak Section Chapter,MAG33 | View |
Pikes Peak Life Member Affinity Group Virtual Meeting – July : Pikes Peak Section Affinity Group,LM | 28 Jul 2021 06:00 PM | LM50043 – Pikes Peak Section Affinity Group,LM, LM50045 – Galveston Bay Section Affinity Group, LM | View |
Pikes Peak Life Member Affinity Group – August Virtual Meeting : Pikes Peak Section Affinity Group,LM | 18 Aug 2021 06:00 PM | LM50043 – Pikes Peak Section Affinity Group,LM, LM50025 – Saint Louis Section Affinity Group,LM | View |
Pikes Peak Computer Society – September Meeting – Conversational AI : Pikes Peak Section Chapter,C16 | 16 Sep 2021 06:00 PM | CH05056 – Pikes Peak Section Chapter,C16 | View |
IEEE Pikes Peak Section EXCOM Meeting (Virtual) : Pikes Peak Section | 28 Oct 2021 06:00 PM | R50043 – Pikes Peak Section | View |
Magnetic Spin Hall Effects in Noncollinear Antiferromagnets : Pikes Peak Section Chapter,MAG33 | 11 Nov 2021 11:00 AM | CH05210 – Pikes Peak Section Chapter,MAG33 | View |
Pikes Peak Life Member Affinity Group – November Virtual Meeting : Pikes Peak Section Affinity Group,LM | 16 Nov 2021 06:00 PM | LM50043 – Pikes Peak Section Affinity Group,LM, LM50009 – Dallas Section Affinity Group,LM, LM50017 – Houston Section Affinity Group,LM, LM50019 – Kansas City Section Affinity Group,LM, LM50021 – Oklahoma City Section Affinity Group,LM, LM50025 – Saint Louis Section Affinity Group,LM, LM50045 – Galveston Bay Section Affinity Group, LM, R50043 – Pikes Peak Section, LM50035 – Wichita Section Affinity Group,LM, LM50011 – Denver Section Affinity Group, LM, LM50015 – Fort Worth Section Affinity Group, LM, LM50031 – Tulsa Section Affinity Group,LM | View |
Visualizing the rapidly-vanishing signal using ultra-short echo time MRI: techniques and applications : Pikes Peak Section Chapter,MAG33 | 03 Dec 2021 11:00 AM | CH05210 – Pikes Peak Section Chapter,MAG33 | View |
“It was a Cold Week in Texas (Texas Grid near Blackout)” : Kansas City Section Affinity Group,LM | 08 Dec 2021 06:00 PM | LM50019 – Kansas City Section Affinity Group,LM, R50019 – Kansas City Section, LM50009 – Dallas Section Affinity Group,LM, LM50035 – Wichita Section Affinity Group,LM, CH05052 – Kansas City Section Chapter, PE31/IA34, LM50043 – Pikes Peak Section Affinity Group,LM | View |
Pikes Peak Holiday Speaker’s Recognition Dinner : Pikes Peak Section Affinity Group,LM | 09 Dec 2021 06:00 PM | LM50043 – Pikes Peak Section Affinity Group,LM | View |
Graph Analytics in the Accelerator-enabled Exascale Era : Boise Section Chapter,C16 | 20 Jan 2022 07:00 PM | CH06198 – Boise Section Chapter,C16, CH06107 – Spokane Sec Jt Chap,AP03/CAS04/ED15/C16/CS23, CH05056 – Pikes Peak Section Chapter,C16 | View |
IEEE CIR: Deep learning Techniques for Hybrid Beamforming in Communications and Radar : Denver Section Jt. Chapter, IT12/C16/RA24 | 10 Feb 2022 06:00 PM | CH05029 – Denver Section Jt. Chapter, IT12/C16/RA24, LM50011 – Denver Section Affinity Group, LM, R50011 – Denver Section, CH05056 – Pikes Peak Section Chapter,C16, CH05026 – Denver Section Jt. Chapter, VT06/COM19 | View |
Title | Date | Hosts | Options |
Pikes Peak LMAG February Virtual Meeting : Pikes Peak Section Affinity Group,LM | 10 Feb 2022 06:00 PM | LM50043 – Pikes Peak Section Affinity Group,LM | View |
Venture Capital – 101 : Pikes Peak Section Chapter,C16 | 17 Feb 2022 06:00 PM | CH05056 – Pikes Peak Section Chapter,C16, CH05029 – Denver Section Jt. Chapter, IT12/C16/RA24, R50011 – Denver Section, R50043 – Pikes Peak Section | View |
Pikes Peak Life Member Affinity Group – March Meeting (In-Person) : Pikes Peak Section Affinity Group,LM | 07 Mar 2022 11:30 AM | LM50043 – Pikes Peak Section Affinity Group,LM, R50043 – Pikes Peak Section | View |
IEEE Oral History Project Training — Dr. Mary Ann Hellrigel : Pikes Peak Section Chapter,C16 | 17 Mar 2022 06:00 PM | CH05056 – Pikes Peak Section Chapter,C16, R50043 – Pikes Peak Section, LM50043 – Pikes Peak Section Affinity Group,LM | View |
Understanding nanoscale correlations in complex oxide heterostructures : Pikes Peak Section Chapter,MAG33 | 15 Apr 2022 11:00 AM | CH05210 – Pikes Peak Section Chapter,MAG33 | View |
Detecting Alzheimer’s With a Voice Sample (rescheduled version) : Denver Section Affinity Group, LM | 21 Apr 2022 06:30 PM | LM50011 – Denver Section Affinity Group, LM, LM50043 – Pikes Peak Section Affinity Group,LM, CH05031 – Denver Section Chapter, EMB18, LM500051 – Central Texas Section Aff Group, LM (Austin) | View |
Pikes Peak Life Member Affinity Group – April Virtual Meeting : Pikes Peak Section Affinity Group,LM | 26 Apr 2022 06:00 PM | LM50043 – Pikes Peak Section Affinity Group,LM, R50043 – Pikes Peak Section | View |
AI- Iterative Quality Control Strategies for Expert Medical Image Labeling (Google Health) : Pikes Peak Section Chapter,C16 | 28 Apr 2022 06:00 PM | CH05056 – Pikes Peak Section Chapter,C16, CH05029 – Denver Section Jt. Chapter, IT12/C16/RA24 | View |
Table Top microMRI for Cell Imaging : Pikes Peak Section Chapter,MAG33 | 06 May 2022 11:00 AM | CH05210 – Pikes Peak Section Chapter,MAG33 | View |
Analytic theories for magnetic skyrmions : Pikes Peak Section Chapter,MAG33 | 12 May 2022 11:00 AM | CH05210 – Pikes Peak Section Chapter,MAG33 | View |
Using Artificial Bias to Assist Pilots in Avoiding Missiles : Pikes Peak Section Chapter,C16 | 19 May 2022 06:00 PM | CH05056 – Pikes Peak Section Chapter,C16, LM50043 – Pikes Peak Section Affinity Group,LM, R50043 – Pikes Peak Section, CH05029 – Denver Section Jt. Chapter, IT12/C16/RA24 | View |
Using Artificial Bias to Assist Pilots in Avoiding Missiles : Pikes Peak Section | 19 May 2022 06:00 PM | R50043 – Pikes Peak Section, LM50043 – Pikes Peak Section Affinity Group,LM | View |
June 2022 — PPCS – Analysis and Learnings from Cyber-Attacks on Nine Well Known Companies : Pikes Peak Section Chapter,C16 | 16 Jun 2022 06:00 PM | CH05056 – Pikes Peak Section Chapter,C16, R50043 – Pikes Peak Section, LM50043 – Pikes Peak Section Affinity Group,LM | View |
ANALYSIS AND LEARNINGS FROM CYBER-ATTACKS ON NINE WELL KNOWN COMPANIES : Pikes Peak Section | 16 Jun 2022 06:00 PM | R50043 – Pikes Peak Section, CH05056 – Pikes Peak Section Chapter,C16 | View |
Student WWII Aircraft Simulation Projects At National Museum of WWII Aviation : Pikes Peak Section Affinity Group,LM | 28 Jul 2022 11:30 AM | LM50043 – Pikes Peak Section Affinity Group,LM, R50043 – Pikes Peak Section, CH05056 – Pikes Peak Section Chapter,C16 | View |
Meet the Candidates for IEEE President-Elect – Hosted by Region 5 : Southwestern USA – Region 5 | 10 Aug 2022 07:00 PM | R5 – Southwestern USA – Region 5, R50017 – Houston Section, R50005 – Central Texas Section, R50037 – Ozark Section, R50027 – Shreveport Section, R50047 – Arkansas River Valley Section, R50025 – Saint Louis Section, R50011 – Denver Section, R50052 – Lone Star Section, R50045 – Galveston Bay Section, WE50049 – Baton Rouge Section Affinity Group,WIE, R50051 – New Orleans Section, R50043 – Pikes Peak Section, R50035 – Wichita Section | View |
MEET THE CANDIDATES FOR IEEE PRESIDENT-ELECT – HOSTED BY REGION 5 : Pikes Peak Section | 10 Aug 2022 06:00 PM | R50043 – Pikes Peak Section | View |
EXCOM Meeting: Budgeting Process and Outreach Program : Pikes Peak Section | 23 Aug 2022 05:30 PM | R50043 – Pikes Peak Section | View |
Power and Energy : Pikes Peak Section | 31 Aug 2022 07:00 PM | R50043 – Pikes Peak Section, CH05183 – Pikes Peak Section Chapter,PE31, CH05056 – Pikes Peak Section Chapter,C16 | View |
Virtual Meeting with IEEE UCCS Student Branch and IEEE Pikes Peak Section : University of Colorado-Colorado Springs | 20 Sep 2022 03:00 PM | STB08811 – University of Colorado-Colorado Springs, R50043 – Pikes Peak Section | View |
IN-PERSON: State-of-the-Art Power System Design and Implementation for a Missionary Complex in a Remote Village in Africa. : Pikes Peak Section | 27 Sep 2022 05:30 PM | R50043 – Pikes Peak Section, CH05183 – Pikes Peak Section Chapter,PE31 | View |
A Fossil Free Future for Cleanly Heating Homes and Businesses : Baltimore Section Chapter,PE31 | 28 Sep 2022 12:00 PM | CH02013 – Baltimore Section Chapter,PE31, CH05048 – Houston Section Chapter,PE31, CH04035 – Milw/NE Wisc Jt. Section Chapter, PE31, CH01189 – Green Mountain Section Chapter,PE31, CH01271 – Providence Section Chapter,PE31, CH04031 – Chicago Section Chapter, PE31, CH05009 – Central Texas Sec,PE31/PEL35/IE13/IA34/PSE43Austin, R50043 – Pikes Peak Section, CH05255 – High Plains Sect Jt. Chap,IA34/PE31 – Black Hills, R5005301 – Black Hills Subsection, CH05183 – Pikes Peak Section Chapter,PE31, CH01065 – New Hampshire Section Chapter,PE31, CH01042 – Boston Section Chapter,PE31, CH02146 – Northern Virginia/Washington Jt Chapter, PE31, CH02100 – Northern Virginia/Baltimore/Washington Chap,SIT30, CH05206 – Lone Star Section Chapter, PE31 San Antonio, CH02153 – Northern Virginia/Washington Jt Chapter, IA34, CH01015 – Connecticut Section Chapter,PE31 | View |
IEEE Day: Why Your Technical Skillset Might Not Be Enough & ‘State of the IEEE Pikes Peak Section’ : University of Colorado-Colorado Springs | 06 Oct 2022 11:00 AM | STB08811 – University of Colorado-Colorado Springs, R50043 – Pikes Peak Section | View |
The Fundamentals and Energy Implications of Bitcoin Mining : Baltimore Section Chapter,PE31 | 20 Oct 2022 12:00 PM | CH02013 – Baltimore Section Chapter,PE31, R50043 – Pikes Peak Section, CH05183 – Pikes Peak Section Chapter,PE31, CH05056 – Pikes Peak Section Chapter,C16, CH01189 – Green Mountain Section Chapter,PE31, CH04035 – Milw/NE Wisc Jt. Section Chapter, PE31, CH04151 – Madison Section Jt. Chapter,PE31/IA34, CH01236 – Long Island Section Joint Chapter,PE31/IA34, CH04057 – Southeastern Michigan Section Chapter, PE31/IA34, CH04136 – Cedar Rapids Section Chapter, PE31, CH03012 – Atlanta Section Chapter, PE31, CH06257 – Utah Section Chapter, PE31 | View |
October Joint Pikes Peak Section, Life Member Affinity Group, Computer Society In-Person Meeting : Pikes Peak Section Affinity Group,LM | 27 Oct 2022 11:30 AM | LM50043 – Pikes Peak Section Affinity Group,LM, R50043 – Pikes Peak Section, CH05056 – Pikes Peak Section Chapter,C16 | View |
VDL – Connecting Space Assets to the Internet: Challenges and Solutions : Northwest Florida Section Chap,C16/COM19 | 03 Nov 2022 06:30 PM | CH03197 – Northwest Florida Section Chap,C16/COM19, LM30557 – Northwest Florida Section Affinity Group, LM, R30557 – Northwest Florida Section, STB63891 – West Florida Univ – Fort Walton Beach, STB96971 – West Florida Univ Of, CH01156 – North Jersey Section Chapter,COM 19, CH07016 – Montreal Section Chapter, IT12/COM19, CH02009 – Baltimore Section Chapter,COM19, CH02088 – Pittsburgh Section Jt Chapter,VT06/COM19, CH04027 – Chicago Section Chapter, COM19, CH06125 – Oakland-East Bay Section Chapter, COM19, CH02109 – Washington Section Chapter,COM19, CH01049 – Long Island Section Chapter,COM19, CH07188 – Victoria Section Jt Chapter, VT06/COM19, CH02135 – Washington Section Jt Chapter, C16/COM19/EMC27, CH06201 – Foothill Section Chapter,COM19, CH01231 – Binghamton Section Chapter,COM19, CH01082 – New York Section Chapter,COM19, CH10164 – Quebec Section Jt. Chapter, SP01/COM19, CH05056 – Pikes Peak Section Chapter,C16, CH01117 – Schenectady Section Chapter,C16, CH07135 – Hamilton Section Chapter, SP01/IT12/COM19, CH05247 – Houston Section Chapter,COM19, CH06055 – Sacramento Valley Section Chap,VT06/COM19, CH04055 – Southeastern Michigan Section Chapter, C16, CH06221 – Buenaventura Section Chapter,COM19, CH06084 – Santa Clara Valley Section Chapter,C16, CH01027 – Boston Section Chapter,C16, CH02193 – Susquehanna Section Chapter, C16, CH05075 – Kansas City Section Chapter, COM19, CH07071 – New Brunswick Section Jt. Chapter, C16/COM19, CH05066 – Wichita Section Jt. Chapter, C16/CS23, CH06322 – Oregon Section Chapter,C16, CH04053 – Southeastern Michigan Sec,AES10/COM19, CH07127 – Saint Maurice Sect Chap, COM19, CH04025 – Chicago Section Chapter, C16, CH06189 – Utah Section Chapter, C16, CH03229 – Melbourne Section Jt. Chapter, GRS29/AES10/C16, CH02150 – Cleveland Sec Jt Chpt, AP03/MTT17/ED15/AES10/COM19, CH02140 – Northern Virginia Section Chapter,COM19, CH07009 – Kitchener-Waterloo Section Chapter,COM19, CH07156 – Newfoundland Labrador Sect Chap, C16/COM19/CAS04, CH04084 – Central Iowa Section Jt. Chapter, SP01/CAS04/COM19, CH03081 – Eastern North Carolina Section Chapter, C16, CH05171 – Fort Worth Section Chapter, COM19, CH01102 – Princeton/Central Jersey Sec Jt Chap,CT08/COM19, CH06119 – San Diego Section Chapter, COM19, CH06063 – San Diego Section Chapter, C16, CH05224 – Galveston Bay Section Chapter, C16, CH04157 – West Michigan Section Jt Chapter,C16/RA24, CH06053 – Richland Section Chapter, C16, CH03236 – Richmond Section Chapter, C16, CH05017 – Dallas Section Chapter, C16, CH03043 – Miami Section Jt. Chapter, VT06/COM19, CH04050 – Southeastern Michigan Chap, AP03/ED15/MTT17/PHO36, CH04049 – Southeastern Michigan Jt.Chap,SP01/CAS04/IT12 | View |
IEEE CTS CTCN and LM Nov 17,2022 meeting: INDEPENDENT FOR LIFE : Central Texas Section Affinity Group,CN | 17 Nov 2022 06:00 PM | CN50005 – Central Texas Section Affinity Group,CN, LM500051 – Central Texas Section Aff Group, LM (Austin), R50005 – Central Texas Section, LM50009 – Dallas Section Affinity Group,LM, LM50015 – Fort Worth Section Affinity Group, LM, LM50011 – Denver Section Affinity Group, LM, LM50017 – Houston Section Affinity Group,LM, LM50043 – Pikes Peak Section Affinity Group,LM, LM50005 – Lone Star Section Affinity Group, LM San Antonio | View |
FERC Order 2222: Key Concepts and Ongoing Steps Towards DER Aggregations in Wholesale Markets : Baltimore Section Chapter,PE31 | 05 Dec 2022 12:00 PM | CH02013 – Baltimore Section Chapter,PE31, CH05255 – High Plains Sect Jt. Chap,IA34/PE31 – Black Hills, R50043 – Pikes Peak Section, CH05056 – Pikes Peak Section Chapter,C16, CH05183 – Pikes Peak Section Chapter,PE31, CH01015 – Connecticut Section Chapter,PE31, CH01189 – Green Mountain Section Chapter,PE31, CH04057 – Southeastern Michigan Section Chapter, PE31/IA34, CH05206 – Lone Star Section Chapter, PE31 San Antonio, R5005301 – Black Hills Subsection, CH01065 – New Hampshire Section Chapter,PE31, CH03012 – Atlanta Section Chapter, PE31, R5 – Southwestern USA – Region 5, CH02188 – Baltimore Section Chapter,PEL35, CH02146 – Northern Virginia/Washington Jt Chapter, PE31, CH06196 – Boise Section Chapter, PE31 | View |
VIRTUAL PRESENTATION: COMMITTING TO BEING A HIGH IMPACT LEADER AS AN ENGINEER : Pikes Peak Section | 13 Dec 2022 10:00 AM | R50043 – Pikes Peak Section, CH05056 – Pikes Peak Section Chapter,C16, LM50043 – Pikes Peak Section Affinity Group,LM, CH02013 – Baltimore Section Chapter,PE31, R50051 – New Orleans Section, R50025 – Saint Louis Section, R5005301 – Black Hills Subsection, STB01631 – Rice University, HKN161 – William Marsh Rice University, Theta Rho | View |