D2D, MU-MIMO and mmWave in 5G Wireless Systems

The Doubletree Club Orange County Airport 7 Hutton Centre Dr, Santa Ana, CA, United States

Speaker:  Prof. Rose Qingyang Hu Electrical Engineering and Computer Engineering Utah State University, Utah   Date:   Wednesday, Nov 9, 2016 Time: Social Hour:    6:00 p.m. Dinner:             6:30 p.m. Presentation:   7:15 p.m.   Location: The Doubletree Club Orange County Airport 7 Hutton Centre Drive, Santa Ana, CA, 92707-5794 714-751-2400   Please RSVP at http://oc-comsig.eventbrite.com/ Cost: First 10 early-birds (first-come-first-serve) are free! After that, $20 for non-members with dinner, $10 for IEEE members with dinner, $5 for student-members with dinner, free for presentation only For more information on current and future events, please visit Orange County ComSig chapter website at: http://chapters.comsoc.org/comsig/ Abstract: Device-to-Device (D2D) communication, MU-MIMO and mmWave are among the key technologies in the next generation (5G) cellular network as they can significantly improve the system performance on connectivity, spectrum efficiency and energy efficiency. In this talk, we will address how to exploit these technology advantages and tackle the key technical challenges to achieve high system performance gains. In particular, we will present D2D, MU-MIMO, NOMA and mmWave based schemes and their related performance study in 5G/IoT settings. These schemes include power control in D2D underlaid cellular networks, beamforming and NOMA based MU-MIMO in a downlink cellular network with underlay D2D users, and relay-assisted Millimeter Wave cellular networks. The talk will present detailed 5G system model, technology background, mathematical approaches and performance results based on both analysis and simulations. Key technical insights from these studies will be provided. Speaker Biography: Dr. Rose Qingyang Hu (rosehu@ieee.org) is an Associate Professor of Electrical and Computer Engineering Department at Utah State University. She received her B.S. degree from University of Science and Technology of China, her M.S. degree from New York University, and her Ph.D. degree from the University of Kansas. She has more than 10 years of R&D experience with Nortel, Blackberry and Intel as a technical manager, a senior wireless system architect, and a senior research scientist, actively participating in industrial 3G/4G technology development, standardization, system level simulation and performance evaluation. Her current research interests include next-generation wireless communications, wireless system design and optimization, green radios, Internet of Things, Cloud computing/fog computing, multimedia QoS/QoE, wireless system modeling and performance analysis. She has published over 170 papers in top IEEE journals and conferences and holds numerous patents in her research areas.  Prof. Hu will serve or has served as the TPC Co-Chair for IEEE ICC 2018 and ICNC 2014, TPC Vice-Chair for IEEE GreenCom 2013, Student Travel Grant Chair for IEEE Globecom 2019, Symposium Co-Chairs for IEEE ICC 2012/2014/2015, IEEE WCNC 2013, ICNC 2013, and IEEE SmartGridComm 2012. Prof. Hu is an IEEE Communications Society Distinguished Lecturer Class 2015-2016 and the recipient of Best Paper Awards from IEEE Globecom 2012, IEEE ICC 2015, IEEE VTC Spring 2016, and IEEE ICC 2016. She is currently serving on the editorial boards for IEEE Transactions on Wireless Communications, IEEE Transactions on Vehicular Technology, IEEE Communications Magazine, IEEE Wireless Communications Magazine, IEEE Internet of Things. She has also been 9 times guest editors for IEEE Communications Magazine, IEEE Wireless Communications Magazine, and IEEE Network Magazine. Prof. Hu is a senior member of IEEE and a member of Phi Kappa Phi and Epsilon Pi Epsilon Honor Societies.   Questions:   Dr. Lan Nguyen IEEE OC ComSig Chapter Chair lan.nguyen@linquest.com

The Connected Vehicle Revolution

The Doubletree Club Orange County Airport 7 Hutton Centre Dr, Santa Ana, CA, United States

Speaker:  Mr.  Kay Das Systems Research, Development, and Innovation   Date:   Tuesday, Dec 6, 2016 Time:      Social Hour:  6:00 p.m. Dinner:          6:30 p.m. Presentation: 7:15 p.m. Location:  The Doubletree Club Orange County Airport 7 Hutton Centre Drive, Santa Ana, CA, 92707-5794 714-751-2400 Please RSVP at http://oc-comsig.eventbrite.com/ Cost:  $10 (Dinner Included), Free for Presentation Only For more information on current and future events, please visit Orange County ComSig chapter website at: http://chapters.comsoc.org/comsig/  Abstract: A light-hearted but critical look at the Connected Vehicle revolution. There is currently much on-going activity in the research and design of systems to enhance the safety of vehicular traffic on roads and highways. These include vehicle-to-vehicle based and vehicle-to-infrastructure based electronics systems with extension to personal devices. These systems need to work collaboratively in an intelligent and reconfigurable network environment characterized by multiple localized and dynamically changing motion control loops which include each individual vehicle driver (and pedestrian). Systems will comprise a mix of existing and new technologies such as laser, imaging, computer vision, radar, cellular, WiFi, GPS, millimeter Waves, and others.  System complexity is very high in order to deliver and sustain the required levels of reliability. A range of products and systems will compete for market entry from diverse sources and nations. However, a significant challenge exists in validating prototypes and final systems productized for market entry. The cost of failure is high as human life is in the loop. This presentation reviews some of the challenges and offers some directions for this burgeoning industry propelled by developments ranging from Shannon’s Law and Moore’s Law to the evolving Internet of Things and 5G cellular communications. Management of systems research and development with frugality, without over-design, and with a holistic approach on a scale probably never required before, is required. Speaker Biography: Kay Das was GPS Program Manager and Technical Director at LinQuest Corporation in Los Angeles from 2007 to 2013 where he additionally led new business development thrusts in the commercial and automotive safety markets. He has previously held responsibilities as R&D Director for STMicroelectronics’ Asia Pacific region. He is a winner of a Singapore Government National Award for “The Initiation and Expansion of High-value R&D and Promotion of Partnerships”. He has built and led teams in different parts of the world and managed the development of diverse silicon-based signal processing systems with over 40 years industry experience. His current pursuits are the application of communication (such as 5G/ DSRC) and location technologies (such as GPS/ GNSS) to the Connected Vehicle revolution. He holds a MS in Electronics Systems from the Cranfield Institute of Technology, UK. Now in retirement, his pursuits other than Connected Vehicle include amateur astronomy, Internet radio, and he is a professional musician. He is an IEEE Life Member and a member of several societies.  Questions:   Dr. Lan Nguyen IEEE OC ComSig Chapter Chair lan.nguyen@linquest.com

Coding for Distributed Storage

The Doubletree Club Orange County Airport 7 Hutton Centre Dr, Santa Ana, CA, United States

Speaker:  Prof.  Zhiying Wang Electrical Engineering and Computer Science The Henry Samueli School of Engineering University of California, Irvine   Date:   Wednesday, Feb 8th, 2017 Time:      Social Hour:  6:00 p.m. Dinner:          6:30 p.m. Presentation: 7:15 p.m. Location:  The Doubletree Club Orange County Airport 7 Hutton Centre Drive, Santa Ana, CA, 92707-5794 714-751-2400   Please RSVP at http://oc-comsig.eventbrite.com/   Cost:  First 10 early-birds (first-come-first-serve) are free! After that, $20 for non-members with dinner, $10 for IEEE members with dinner, $5 for student-members with dinner, free for presentation only   For more information on current and future events, please visit Orange County ComSig chapter website at: http://chapters.comsoc.org/comsig/   Abstract: Error correction codes (ECC) are ubiquitously used in data storage to provide fault tolerance. Traditionally, redundancy and error tolerance capability are considered the key performance measures for ECC. In distributed storage, however, codes need to be developed for the new challenges brought by the networked nature of the system. In this talk, we present regenerating codes, a family of codes that are efficient for failure correction.  For systems with 2 redundant storage devices, the repair bandwidth can be reduced by 1/2 compared to traditional ECC.   Speaker Biography: Zhiying Wang is an Assistant Professor at University of California, Irvine. She was a postdoctoral research fellow at Stanford University. She received Ph.D. and M.S. in Electrical Engineering at California Institute of Technology, and B.S. in Information and Electronic Engineering at Tsinghua University. Her research interests include information theory, coding for data storage, and compression for genomic information. She is the recipient of IEEE data storage best paper award and NSF Center for Science of Information Postdoctoral Fellowship.   Questions:   Dr. Lan Nguyen IEEE OC ComSig Chapter Chair lan.nguyen@linquest.com

Massive MIMO Communications with One-Bit Quantization

The Doubletree Club Orange County Airport 7 Hutton Centre Dr, Santa Ana, CA, United States

Speaker:  Prof.  Lee Swindlehurst Electrical Engineering and Computer Science University of California, Irvine   Date:   Wednesday, Apr 19th, 2017 Time:      Social Hour:  6:00 p.m. Dinner:          6:30 p.m. Presentation: 7:15 p.m. Location:  The Doubletree Club Orange County Airport 7 Hutton Centre Drive, Santa Ana, CA, 92707-5794 714-751-2400 Please RSVP at http://oc-comsig.eventbrite.com/ Cost:  First 10 early-birds (first-come-first-serve) are free! After that, $20 for non-members with dinner, $10 for IEEE members with dinner, $5 for student-members with dinner, free for presentation only For more information on current and future events, please visit Orange County ComSig chapter website at: http://chapters.comsoc.org/comsig/ Abstract: As the quest for increased wireless throughput marches on, proposals abound for 5G systems based on orders of magnitude more antennas (massive MIMO) and greater bandwidths at higher frequencies (millimeter waves). To avoid a corresponding exponential increase in the cost of the hardware required for such systems, attention has recently focused on the use of very coarse analog-to-digital and digital-to-analog converters, even down to the level of one-bit quantization for both in-phase and quadrature components. This talk reviews some of the signal processing impacts of one-bit quantization on MIMO communications systems, and provides examples of algorithms for channel estimation, uplink decoding and downlink precoding that attempt to offset these impacts. Speaker Biography: Dr. A. Lee Swindlehurst received the B.S., summa cum laude, and M.S. degrees in Electrical Engineering from Brigham Young University, Provo, Utah, in 1985 and 1986, respectively, and the PhD degree in Electrical Engineering from Stanford University in 1991. From 1986-1990, he was employed at ESL, Inc., of Sunnyvale, CA, where he was involved in the design of algorithms and architectures for several radar and sonar signal processing systems. He was on the faculty of the Department of Electrical and Computer Engineering at Brigham Young University from 1990-2007, where he was a Full Professor and served as Department Chair from 2003-2006. During 1996-1997, he held a joint appointment as a visiting scholar at both Uppsala University, Uppsala, Sweden, and at the Royal Institute of Technology, Stockholm, Sweden. From 2006-07, he was on leave working as Vice President of Research for ArrayComm LLC in San Jose, California. He is currently a Professor of the Electrical Engineering and Computer Science Department at at the University of California Irvine (UCI), and a Hans Fischer Senior Fellow in the Institute for Advanced Studies at the Technical University of Munich. He served as the Associate Dean for Research and Graduate Studies in the Henry Samueli School of Engineering at UCI from 2013-16. His research interests include sensor array signal processing for radar and wireless communications, detection and estimation theory, and system identification, and he has over 275 publications in these areas. Dr. Swindlehurst is a Fellow of the IEEE, a past Secretary of the IEEE Signal Processing Society, past Editor-in-Chief of the IEEE Journal of Selected Topics in Signal Processing, and past member of the Editorial Boards for the EURASIP Journal on Wireless Communications and Networking, IEEE Signal Processing Magazine, and the IEEE Transactions on Signal Processing. He is a recipient of several paper awards: the 2000 IEEE W. R. G. Baker Prize Paper Award, the 2006 and 2010 IEEE Signal Processing Society’s Best Paper Awards, the 2006 IEEE Communications Society Stephen O. Rice Prize in the Field of Communication Theory, and is co-author of a paper that received the IEEE Signal Processing Society Young Author Best Paper Award in 2001. Questions:   Dr. Lan Nguyen IEEE OC ComSig Chapter Chair lan.nguyen@linquest.com

Distributed Space-Time Coding and Beamforming

The Doubletree Club Orange County Airport 7 Hutton Centre Dr, Santa Ana, CA, United States

Speaker: Chancellor’s Prof. Hamid Jafarkhani Electrical Engineering and Computer Science The Henry Samueli School of Engineering University of California, Irvine Date: Tuesday, Oct 17, 2017 Time: Social Hour: 6:00 p.m. Dinner: 6:30 p.m. Presentation: 7:15 p.m. Location: The Doubletree Club Orange County Airport 7 Hutton Centre Drive, Santa Ana, CA, 92707-5794 714-751-2400 Please RSVP at http://oc-comsig.eventbrite.com/ Cost: First 10 early-birds (first-come-first-serve) are free! After that, $20 for non-members with dinner, $10 for IEEE members with dinner, $5 for student-members with dinner, free for presentation only For more information on current and future events, please visit Orange County ComSig chapter website at: http://chapters.comsoc.org/comsig/ Abstract: We present a general review of space-time coding and beamforming in multiple-input multiple-output (MIMO) systems with an emphasis on the role of limited/quantized feedback. We continue with a description of wireless relay networks and formulate its system model as a virtual MIMO. We discuss the distributed nature of the network and present distributed space-time coding and distributed beamforming methods. We show that despite the existing challenges in a relay network, distributed methods can provide similar gains even in the case of limited/quantized feedback. Speaker Biography: Prof. Hamid Jafarkhani  is a Chancellor's Professor at the Department of Electrical Engineering and Computer Science, University of California, Irvine, where he is also the Director of Center for Pervasive Communications and Computing and the Conexant-Broadcom Endowed Chair. Prof. Jafarkhani ranked first in the nationwide entrance examination of Iranian universities in 1984. He was a co-recipient of the American Division Award of the 1995 Texas Instruments DSP Solutions Challenge. He received an NSF Career Award in 2003, the UCI Distinguished Mid-Career Faculty Award for Research in 2006 and the School of Engineering Fariborz Maseeh Best Faculty Research Award in 2007. Also, he was a co-recipient of the 2002 best paper award of ISWC, the 2006 IEEE Marconi Best Paper Award in Wireless Communications, the 2009 best paper award of the Journal of Communications and Networks, the 2012 IEEE Globecom best paper award (Communication Theory Symposium), the 2013 IEEE Eric E. Sumner Award, and the 2014 IEEE Communications Society Award for Advances in Communication. He received the 2015-2016 School of Engineering Excellence in Research Senior Career Award and was an IEEE ComSoc Distinguished Lecturer. He is listed as a highly cited researcher in http://www.isihighlycited.com.   According to the Thomson Scientific, he is one of the top 10 most-cited researchers in the field of "computer science" during 1997-2007. He is a Fellow of AAAS, an IEEE Fellow, and the author of the book "Space-Time Coding: Theory and Practice."   Questions: Dr. Lan Nguyen IEEE OC ComSig Chapter Chair lan.nguyen@linquest.com

Full duplex, low power systems, for high throughput communication and computing platforms

The Doubletree Club Orange County Airport 7 Hutton Centre Dr, Santa Ana, CA, United States

  Speaker: Prof. Ahmed M. Eltawil, UCI Electrical Engineering and Computer Science University of California, Irvine   Date: Tuesday, May 1st, 2018 Time: Social Hour: 6:00 p.m. Dinner: 6:30 p.m. Presentation: 7:15 p.m. Location: The Doubletree Club Orange County Airport 7 Hutton Centre Drive, Santa Ana, CA, 92707-5794 714-751-2400 Please RSVP at http://oc-comsig.eventbrite.com/ Cost: First 10 early-birds (first-come-first-serve) are free! After that, $20 for non-members with dinner, $10 for IEEE members with dinner, $5 for student-members with dinner, free for presentation only For more information on current and future events, please visit Orange County ComSig chapter website at: http://comsig.chapters.comsoc.org/ Abstract: Enabling the 5G vision of a wirelessly interconnected ecosystem requires innovation and optimization at all levels of the hierarchy. In this talk, we first consider the system from a link enhancement perspective, where we present recent results directed at enabling Full-duplex communications. Currently systems operate in "Half duplex mode" to avoid self-saturation, where the high-powered transmitter saturates the receive path. Full-duplex transmission promises to double the spectral efficiency by allowing bidirectional communications to be carried out over the same resources. The key challenge in practical full-duplex systems is the un-cancelled self-interference power caused by a combination of hardware imperfections. We discuss recent work that identifies system limitations, performance, optimizations, and the practicality of proposed architectures. In the second part of the talk, we consider the Achilles heel of wireless systems, namely, power consumption. Traditionally, reliability is attributed to higher power consumption. We show that this is not necessarily true. In fact, one can design systems to be both reliable (within desired specifications) and low power. We present a unique approach for power management which factors in the built-in algorithmic resilience to errors inherent in all wireless designs. This error tolerance can be utilized and co-designed with the hardware circuitry in mind to provide resilience not only to channel induced errors but also to hardware induced faults (due to low power modes), thus expanding the adaptation space to unexplored domains. Speaker Biography: Ahmed M. Eltawil is a Professor at the University of California, Irvine. He has been with the Department of Electrical Engineering and Computer Science since 2005 where he is the founder and director of the Wireless Systems and Circuits Laboratory. His current research interests are in the general area of low power digital circuit and signal processing architectures with an emphasis on mobile systems. In addition to his department affiliation, he is also affiliated to a number of research centers across the University of California, Irvine. He received the Doctorate degree from the University of California, Los Angeles, in 2003 and the M.Sc. and B.Sc. degrees (with honors) from Cairo University, Giza, Egypt, in 1999 and 1997, respectively. Dr. Eltawil has been on the technical program committees and steering committees for numerous workshops, symposia, and conferences in the areas of low power computing and wireless communication system design. He received several awards, as well as distinguished grants, including the NSF CAREER grant in 2010 supporting his research in low power systems. Questions: Dr. Lan Nguyen IEEE OC ComSig Chapter Chair lan.nguyen@linquest.com

Artificial Neural Networks (ANNs) and Machine Learning

The Doubletree Club Orange County Airport 7 Hutton Centre Dr, Santa Ana, CA, United States

    Artificial Neural Networks (ANNs) and Machine Learning Speaker: Dr. Lan Nguyen, LinQuest Corporation Date: Thursday, December 13, 2018 Time: Social Hour: 6:00 p.m. Dinner: 6:30 p.m. Presentation: 7:15 p.m. Location: The Doubletree Club Orange County Airport 7 Hutton Centre Drive, Santa Ana, CA, 92707-5794 714-751-2400 Please RSVP at http://oc-comsig.eventbrite.com/ Cost: First 10 early-birds (first-come-first-serve) are free! After that, $20 for non-members with dinner, $10 for IEEE members with dinner, $5 for student-members with dinner, free for presentation only For more information on current and future events, please visit Orange County ComSig chapter website at: http://comsig.chapters.comsoc.org/ Abstract: The development of Artificial Neuron Networks (ANNs) began in the 1940s with the work of Warren McCulloch and Walter Pitts who showed that network of artificial neurons could in principle compute any arithmetic function or logical function. In recent years, neural networks have achieved results that surpass many traditional techniques. Thousands of neural networks have been applied successfully in hundreds of fields, which include target tracking, radar and image processing, cybersecurity, cancer diagnosis, mortgage screening, routing systems, and integrated circuits. These neural networks have been proven to learn complex relations between input data (features) and output values. The intent of this talk is for the public who want to understand neural networks and machine learning. Topics to be covered in this talk include: Introduction to Artificial Neural Networks (ANNs), what is an ANN and why ANN? A brief history of ANN, biological neural networks versus artificial neural networks, and principles of ANNs Important neural networks models, such as Adaline and Perceptron, feed forward and feedback networks, self-organizing networks (Kohonen’s model) Learning methods, such as Hebbian learning, supervised learning, unsupervised learning, reinforcement learning, back propagation learning, and data training Machine learning, what is machine learning? Challenges of machine learning, and the role of neural networks in machine learning Case studies Speaker Biography: Lan Nguyen is a System Engineer at LinQuest Corporation. He joined LinQuest in 2004 and has over 30 years of industry experience.  His current research interests are in the area of SATCOM, Communication Theory, Digital Signal Processing, and Machine Learning. Dr. Lan Nguyen has been on the technical program committees for numerous symposia and conferences.  He has published numerous conference and journal papers in the areas of SATCOM and wireless communication. He is a Senior IEEE member and a Certified Expert System Engineering Professional (ESEP), International Council on Systems Engineering (INCOSE). Questions: Dr. Lan Nguyen IEEE OC ComSig Chapter Chair lan.nguyen@linquest.com

Active Learning and Optimization for Next Generation Communication Networks

The Doubletree Club Orange County Airport 7 Hutton Centre Dr, Santa Ana, CA, United States

IEEE Orange County Communications Society and Signal Processing Society (ComSig) Chapter Invites You to the Following Event: Active Learning and Optimization for Next Generation Communication Networks Speaker:  Prof. Tara Javidi, ECE Dpt. UC San Diego   Date:   Monday, June 24, 2019 Time: Social Hour:  6:00 p.m. Dinner/Presentation: 6:30 p.m. Location:  The Doubletree Club Orange County Airport 7 Hutton Centre Drive, Santa Ana, CA, 92707-5794 714-751-2400 Please RSVP at https://www.eventbrite.com/e/active-learning-and-optimization-for-next-generation-communication-networks-tickets-63349771873 Cost: First 10 early-birds (first-come-first-serve) are free! After that, $20 for non-members with dinner, $10 for IEEE members with dinner, $5 for student-members with dinner, free for presentation only For more information on current and future events, please visit Orange County ComSig chapter website at: http://comsig.chapters.comsoc.org   Abstract: Network management and configuration is an essential attribute of any wireless network with reliable self-tuning capabilities.  In contrast to the past generations of networking solutions, on the other hand, in the ever-increasingly mobile and large-scale networks of tomorrow the network reconfiguration overhead may not be insignificant; this includes the initial beam alignment, link maintenance, spectrum sensing, packet resizing, etc.  Our work aims to provide fundamental limits on the overhead associated with learning, network tuning, and optimization of network parameters.  Our approach relies on the theory of active learning and optimization to quantify the networking overhead and utilizes recent data analytic and machine learning algorithms to develop practical learning/optimization algorithms. In the first part of the talk, we consider the problem of search and optimization of the directional link establishment and maintenance (beam alignment) in mmWave communications.  In the second part of the talk, we consider an important variant of the search problem: data-driven and empirical optimization for wireless network parameter tuning.   Speaker Biography Prof. Tara Javidi received her BS in electrical engineering at Sharif University of Technology, Tehran, Iran.  She received her MS degrees in electrical engineering (systems) and in applied mathematics (stochastic analysis) from the University of Michigan, Ann Arbor, in 1998 and 1999, respectively.  She received her Ph.D. in electrical engineering and computer science from the University of Michigan, Ann Arbor, in 2002. From 2002 to 2004, Tara Javidi was an assistant professor at the Electrical Engineering Department, University of Washington, Seattle.  In 2005, she joined the University of California, San Diego, where she is currently a professor of electrical and computer engineering.  In 2013-2014, she spent her sabbatical at Stanford University as a visiting faculty. At the University of California, San Diego, Tara Javidi is a founding co-director of the Center for Machine-Integrated Computing and Security, directs the Advanced Networking Science Lab and is a faculty member of the Centers of Information Theory and Applications (ITA), Wireless Communications (CWC), and Networked Systems (CNS).  She is a founding faculty member of HALICIOĞLU DATA SCIENCE INSTITUTE (HDSI) at UCSD. At UCSD, she is an affiliate faculty member in the departments of Computer Science and Engineering as well as Ethnic Studies.  She is also a member of Board of Governors of the IEEE Information Theory Society (2017/18/19). Tara Javidi’s research interests are in theory of active learning, information theory with feedback, stochastic control theory, and stochastic resource allocation in wireless communications and communication networks.  She was the guest editor for the IEEE Journal of Selected Areas in Communications special issue on Communications and Control. From 2011 to 2014, she was an associate editor for ACM/IEEE Transactions on Networking and the editor for the IEEE Information Theory Society Newsletter.  From 2014-2017, she served as the associate editor for IEEE Transactions on Information Theory. She currently serves as an associate editor for IEEE Transactions on Network Science and Engineering. Tara Javidi received the 2018 Qualcomm Faculty Award for her contributions to wireless technology.  Tara Javidi was a recipient of the National Science Foundation early career award (CAREER) in 2004, Barbour Graduate Scholarship, University of Michigan, in 1999, and the Presidential and Ministerial Recognitions for Excellence in the National Entrance Exam, Iran, in 1992.  In addition to numerous contributed and invited talks, she was a tutorial speaker at various international and prestigious conferences: International Conference on Cognitive Radio Oriented Wireless Networks (CROWNCOM) 2010, ACM International Symposium on Mobile Ad Hoc Networking and Computing (Mobihoc) 2013, International Symposium on Information Theory (ISIT) 2014, and IEEE Conference on Decision and Control (CDC) 2016.  Tara Javidi was a Distinguished Lecturer of the IEEE Information Theory Society (2017/18). Contact:   Lan Nguyen, Ph.D. IEEE OC ComSig Chapter Chair lan.nguyen@linquest.com  

Running Deep Learning Models on Smartphones as Real-Time Apps for Signal and Image Processing Applications

The Doubletree Club Orange County Airport 7 Hutton Centre Dr, Santa Ana, CA, United States

Running Deep Learning Models on Smartphones as Real-Time Apps for Signal and Image Processing Applications Speaker:  Prof. Nasser Kehtarnavaz, Univ. of Texas at Dallas Date: Thursday, July 11, 2019 Time: Social Hour: 6:00 p.m. Dinner: 6:30 p.m. Presentation: 7:15 p.m. Location: The Doubletree Club Orange County Airport 7 Hutton Centre Drive, Santa Ana, CA, 92707-5794 714-751-2400 Please RSVP at http://oc-comsig.eventbrite.com/ Cost: First 10 early-birds (first-come-first-serve) are free! After that, $20 for non-members with dinner, $10 for IEEE members with dinner, $5 for student-members with dinner, free for presentation only For more information on current and future events, please visit Orange County ComSig chapter website at: http://comsig.chapters.comsoc.org/ Abstract: In many signal and image processing applications, deep learning models or deep neural networks have provided superior performance compared with conventional machine learning solutions. This talk covers how deep learning models can be turned into apps running in real-time on smartphones (both Android and iOS). One signal and one image processing application are presented. The image processing application involves real-time implementation of a deep learning model as a smartphone app to detect retinal abnormalities in an on-the-fly manner as retina images are captured by the smartphone camera through commercially available lenses. The motivation behind this application is to use smartphones as an alternative to fundus cameras providing a cost-effective and widely accessible approach to first-pass eye examination. The signal processing application involves real-time implementation of the speech processing pipeline of hearing aids as a smartphone app. The components of the implemented pipeline include a deep learning-based voice activity detection, noise reduction, noise classification, and compression. The motivation behind this application is to use smartphones as an open-source, programmable, and portable signal processing platform to conduct hearing enhancement studies in realistic audio environments. Speaker Biography: Prof. Nasser Kehtarnavaz is an Erik Jonsson Distinguished Professor with the Department of Electrical and Computer Engineering. His research interests include real-time signal and image processing, machine learning and deep learning, and biomedical signal and image analysis. He has authored or co-authored 10 books and over 380 journal papers, conference papers, patents, manuals, and editorials in these areas. He is a Fellow of IEEE, a Fellow of SPIE, a licensed Professional Engineer, and is serving as Editor-in-Chief of Springer Journal of Real-Time Image Processing. Questions: Dr. Lan Nguyen IEEE OC ComSig Chapter Chair lan.nguyen@linquest.com