Aerospace/Defense Measurement Applications

Loren Betts

Dr. Loren Betts
R&D Manager
Keysight Technologies, Santa Rosa, CA

Thu, 02/20/2020

Abstract – The rapid and ongoing integration of new technologies into aerospace and defense systems brings tremendous challenges. The race to keep up with emerging threats puts a strain on already tight budgets. At the same time, requirements on performance and reliability continue to become increasingly stringent. Test tools must adapt by addressing issues such as ease of use, cost of test and, perhaps most important, cutting-edge performance. This talk will explore current trends in test equipment and associated software, highlighting new architectures and capabilities that solve characterization challenges in radar, EW, SIGINT, terrestrial military communications, and satellite technology.

Dr. Loren Betts received his BSc degree in computer engineering from the University of Alberta, Edmonton, Alberta, Canada, in 1997, and his MSc degree in electrical engineering from Stanford University, Stanford, CA, in 2003. In 2010 he completed his PhD degree in electrical engineering from the University of Leeds, Leeds, UK. His PhD research focused on the Nonlinear Vector Network Analyzer (NVNA) based on the Keysight PNA-X. Loren started working at Hewlett Packard (HP) in 1997, Agilent Technologies in 1999, and Keysight Technologies in 2015. He is currently an R&D manager focusing on aerospace and defense.

How Machines 'See' the World

Kaiman Zeng

Dr. Kaiman Zeng
Assistant Professor
EE Department, Arkansas Tech University, Russellville, AR

Thu, 02/06/2020

Abstract – Vision might be the most important sense for our humans. Visual perception provides us an understanding of our surroundings and help interact with the surroundings. In order to build smart machines to perform intelligent work for us, enabling machine vision plays a central role. Thanks to recent advances in deep learning, big data, and supercomputers, we start to have the capabilities of empowering machines see the world like us. The performances of some classic tasks in computer vision, such as image recognition and object detection, have been significantly boosted. This talk will discuss the research challenges, state-of-the-art deep learning models, and their applications in classic computer vision tasks.

Dr. Kaiman Zeng is an Assistant Professor in the Department of Electrical Engineering at Arkansas Tech University. She received her Ph.D. degree from the Department of Electrical and Computer Engineering at Florida International University. Her research interests include digital image processing, computer vision, machine learning, and engineering education.

5G Mobile Wireless: A 5G Overview and Market Update

Roger Nichols

Mr. Roger Nichols
5G Program Manager
Keysight Technologies, Santa Rosa, CA

Thu, 11/21/2019

Abstract – The fifth generation of mobile wireless is now a commercial concept with many operators around the world selling 5G services and many more preparing to launch in the next 18 months. This talk will review the overall concept of 5G, the commercial, technical, and policy drivers, and many of the enabling technologies. We will also cover the state of the deployment and what to expect as this generation moves from its infancy closer to the mainstream.

Mr. Roger Nichols is the 5G Program Manager for Keysight Technologies His 35 years of experience in the wireless test & measurement industry spans various roles in Manufacturing and R&D and crosses the evolution from analog cellular radio through LTE and now 5G. He spent eight years as the Director of Marketing for Keysight’s Mobile Broadband Operation responsible for delivering the Wireless Test sets and systems used in all major design and certification labs as well as manufacturing facilities worldwide.

Applications of Chaotic Maps in Communication and Signal Processing

Anish Nair

Dr. Anish Nair
Senior Engineer
Qualcomm, San Jose, CA

Thu, 11/07/2019

Abstract - The talk focusses on building/ renewing interests in chaotic maps to solve some of the critical problems in communication and signal processing. Chaotic maps can be considered as complex non-linear, initial condition dependent mathematical functions with very interesting features. The talk throws light on a subset of diverse applications from modeling atrial fibrillation from electrocardiogram (ECG) time series to lowering peak to average power ratio (PAPR) in orthogonal frequency domain multiplexing (OFDM) systems, using a known repository of chaotic functions. The underlying engineering challenge is, how can we leverage these properties to solve, model, analyze and predict future values of seemingly random behavior of highly dynamical systems using chaotic maps. Join to learn more.

Dr. Anish Nair is part of the R&D system group at Qualcomm Atheros, San Jose, California. He is currently involved in the development of next-generation coexistence solution for wireless technologies. Before joining Qualcomm Inc, Anish worked on the development of self-interference cancellation filter chip at GenXComm Inc, Austin, Texas. Dr. Anish received his Ph.D. and MS in Electrical Engineering from the University of Texas at Dallas, Texas.

Smart Environmental Monitoring Using Low-Cost Sensors and LPWAN

Nansong Wu

Dr. Nansong Wu
ES Department
Sonoma State University, Rohnert Park, CA

Thu, 10/17/2019

Abstract - Rapid convergence of traditional research areas of embedded systems, wireless sensor networks, control systems, automation, and sensors has enabled the evolution of Internet of Things (IoT). The concept of IoT is based on a selfconfiguring and adaptive system consisting of networks of sensors that interconnect in such a way as to make them intelligent and programmable. An important application of IoT is in environmental monitoring through distributed sensors and controllers that stream data for cloud storage and web access. Lakes from nationwide often lack water quality monitoring stations that can record data for public or private users. This research is to leverage the low-cost sensors for the design and development of a mobile water quality monitoring system (WQMS). We survey the available wireless technologies, select and deploy the LoRa (Long Range) network and evaluate its performance. We also present the detailed design and implementation of the mobile WQMS based on an unmanned surface vehicle (USV).

Dr. Nansong Wu received his M.S. in Electrical Engineering, Engineering Management, and Ph.D. in Electrical Engineering from Florida International University, Miami, FL. He has several years of academic experience. His areas of interest are wireless sensor networks, low-power wide-area networks, and FPGA design.

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