Events for May 14, 2026

It may surprise you that the world’s first hospital‑wide medical information system MIS-I (pronounced "MIS One") was pioneered in Silicon Valley by defense contractor Lockheed Missiles and Space Company in partnership with El Camino Hospital. This accomplishment is being recognized with the dedication of an IEEE Milestone plaque at El Camino Hospital on Thursday, May 14th. From one hospital in 1974 to two hundred in the late1990s and still installed at a few installations as late as 2020, MIS-I proved what a true systems‑engineering approach could accomplish in healthcare. It let physicians and staff across all departments access patient data and enter work orders electronically, eliminating handwritten versions and thereby reducing costs, improving safety, and laying the foundation of modern medical informatics. MIS-I and its successive embodiments were treated the way Lockheed treated spacecraft: as an integrated system. Working side‑by‑side with the hospital’s clinical staff, teams designed and configured each system in a way no competitor matched then and perhaps even now. That collaboration led Lockheed to a number of inventions, including: - A systems architecture that enabled near instantaneous response using 1970s IBM mainframe computers. - The light-pen controlled Video Matrix Terminal, a practical solution to the user‑interface problems of the era when staff couldn’t type fast enough, and the mouse was not available as a tool. - Matrix Programming (also known as Matrix Coding), a language that allowed screens to be created for clinical use without reprogramming the system. The program includes a slide show and a video on the history of MIS‑I at El Camino Hospital, along with an interview of Mel Hodge by Deb Muro, CIO of El Camino Health. Mel drove the development of MIS‑I at Lockheed and continued on as the leader of Technicon Medical Information Systems Company. Executives from El Camino Health, IEEE, and Lockheed Martin will speak about the Milestone and the role MIS‑I played in the evolution of hospital information systems. The event will conclude with the dedication of the Milestone plaque. Virtual Attendance Suggested URL will be provided to registered attendees prior to start of event Limited In-Person Seating Available Please select In-Person only if you truly plan to attend Allow ample time for parking. Limited valet parking available at the hospital main entrance. Co-sponsored by: Silicon Valley Technology History Committee Agenda: Virtual Attendees Start Time Virtual Event 4:00 PM Live stream starts, includes historic slide show 4:15 PM Live stream of Program begins 5:30 PM Virtual event ends In-Person Attendees Start Time Live Event 3:45 PM Arrival and Historic Photo Slideshow 4:15 PM Program begins 5:30 PM Reception with Refreshments 6:30 PM Event ends El Camino Hospital, 2500 Grant Road, Mountain View, California, United States, 94040, Virtual: https://events.vtools.ieee.org/m/554746

Abstract: Active Magnetic Bearings (AMBs) are actuators for robotics systems that offer near-frictionless operation of spinning rotors. As is often the case with actuators used with feedback, magnetic bearings are driven with a high gain inner loop to linearize their input-output response for the stabilizing rotor position outer loop control development. The primary benefit of the high gain actuator is that the need for the outer loop to have an internal model of the magnetic bearings is mitigated. However, driving the magnetic bearings with high gain presents issues including increased noise, reduced stability margin, and sensitivity to rotor imbalance, motivating the inclusion of an internal model of the magnetic bearings. H_inf synthesis will be employed to demonstrate potential benefits of a low gain amplifier. And since magnetic bearings show temperature sensitivity, mu-synthesis will be leveraged to show that the benefits of a low gain amplifier can still be realized despite significant process noise and strict requirements. Models of AMB rotor systems will be shown to demonstrate their inherent issues and how a holistic control approach can solve them. Speaker(s): Jordan McCrone, Agenda: 6:00 - 6:30 - Networking and light dinner (for in person attendees) 6:30 - 7:30 - Talk and Q & A 7:30 - 8:00 - Wrap up and Networking Room: 116, Bldg: Bergin Hall, Santa Clara University, 500 El Camino Real, Santa Clara, California, United States, 95053, Virtual: https://events.vtools.ieee.org/m/558058