Events for June 5, 2026

IEEE WIE AG Schenectady is going to organize WIE Distinguished Lecture (virtual webinar) on "Human System Engineering Initiatives: From Human Views to Human Readiness Levels" on 5 June 2026, Friday, 12-1 pm EDT. The speaker is Holly A. H. Handley, PhD, PE, the Interim Dean of the Interdisciplinary Schools and a Professor in the Engineering Management and System Engineering Department of Old Dominion University (ODU). This talk discusses the role of Human System Engineering within the System Engineering discipline. It describes two initiatives that are enabling better integration of humans and systems. The Human Views comprise a system architecture viewpoint that provides a perspective on the human roles, activities, and information flows required by a complex system. The Human Readiness Levels assess the degree to which human-focused requirements are incorporated into design decisions and the readiness of a system to interact with its human operator. Together these two efforts encourage System Engineering for the total system by supporting a comprehensive integration of the human component into the systems engineering effort, which is critical to the design, development, and operation of successful systems. Current standards and applications of both initiatives will be included. Speaker(s): Holly Handley Virtual: https://events.vtools.ieee.org/m/550987

Electromagnetic waves are characterized by their amplitude, frequency, and state of polarization -- also referred to as spin angular momentum (SAM), associated with circular polarization and recognized for over two centuries. In contrast, over the past three decades, growing attention has been directed toward orbital angular momentum (OAM), which arises from helical (twisted) phase fronts and provides an additional degree of freedom through its orthogonal modal structure. In this talk, we explore the use of OAM for integrated sensing and communications (ISAC), with the goal of enhancing spectral efficiency and spatial resolution in automotive scenarios. Unlike conventional uniform circular array (UCA)-based implementations, our approach employs a uniform linear array (ULA) with traveling-wave antennas to synthesize multiple Laguerre-Gaussian vortex beams. The proposed system embeds communication data within radar waveforms while enabling joint estimation of target position and velocity using radar-only frames. An OAM-based mode-division multiplexing strategy is used to separate sensing and communication functionalities, ensuring reliable parameter recovery. We conclude with perspectives on the future of ISAC systems. Speaker(s): Dr. Mishra Agenda: 4:30-5:30 PM Lecture and Q&A Room: Seminar Room B , Bldg: San Diego Mission Valley Branch Library, 1F, 2123 Fenton Pkwy, San Diego, California, United States, 92108, Virtual: https://events.vtools.ieee.org/m/562094