Roozbeh Jafari, Mohammad-Mahdi Bidmeshki
Citation
Roozbeh Jafari, Mohammad-Mahdi Bidmeshki. "Wearable Computers: O(1) Observation = Many Opportunities". Tutorial, 15, November, 2013.
Abstract
Wearable computers bring to fruition many opportunities to continuously monitor human body with sensors placed on body. They provide new avenues to continuously monitor individuals, whether it is intended to detect an early onset of a disease or to assess the effectiveness of the treatment. In the past few years, the community has observed a large number of applications that have been developed using wearable computers. Yet, not many have been deployed in a large scale. There are still several challenges that need to be addressed before realizing the ubiquitous use of wearable computers. In this talk, we present a review of wearable computing systems and their applications. We highlight several components of wearable computers including signal processing, software, hardware architectures, sensors and actuators. We will in particular review signal processing techniques suitable for time-series data acquired from wearable sensors namely dynamic time warping and hidden Markov models. We provide a review for existing software platforms for wearable computers along with the current state-of-the-art hardware architectures. We emphasize the need for holistic approaches optimizing and enhancing the performance of wearable computers (e.g., reducing their form). We will review several cross-layered techniques aimed at creating hardware accelerators for wearable computers. We will conclude the talk by highlighting opportunities and future directions in wearable computer design.
Roozbeh Jafari (www.essp.utdallas.edu) is an associate professor at UT-Dallas. He received his PhD in Computer Science (UCLA) and completed a postdoctoral fellowship at UC-Berkeley. His research interest lies in the area of wearable computer design and signal processing. His research has been funded by the NSF, NIH, DoD - TATRC, AFRL, AFOSR, DARPA, SRC and industry (Texas Instruments, Tektronix, Samsung, Telecom Italia & Texas Health Resources). He has published over 100 papers in refereed journals and conferences. He has served as the general and technical program committee chairs for several flagship conferences in the area of Wireless Health and Wearable Computers including the ACM Wireless Health 2012 and 2013, International Conference on Body Sensor Networks 2011 and International Conference on Body Area Networks 2011. He is an associate editor for the IEEE Sensors Journal and the IEEE Internet of Things Journal. He is the recipient of the NSF CAREER award (2012) and the RTAS 2011 best paper award.
Mohammad-Mahdi Bidmeshki is a PhD student in Computer Engineering at the University of Texas at Dallas. Since 2011, he has been working in embedded systems and signal processing (ESSP) lab on activity monitoring and low power signal processing techniques for wearable computers and medical embedded systems. He received his bachelor’s and master’s degree in Computer Engineering from Sharif University of Technology in Tehran, Iran in 2004 and 2006, respectively. He worked as a lecturer in several universities in Iran and has extensive experience in the design of microcontroller and FPGA based embedded controllers for industrial and medical applications.
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- HTML
Roozbeh Jafari, Mohammad-Mahdi Bidmeshki. <a href="http://www.terraswarm.org/pubs/106.html" ><i>Wearable Computers: O(1) Observation = Many Opportunities</i></a>, Tutorial, 15, November, 2013.
- Plain text
Roozbeh Jafari, Mohammad-Mahdi Bidmeshki. "Wearable Computers: O(1) Observation = Many Opportunities". Tutorial, 15, November, 2013.
- BibTeX
@tutorial{JafariBidmeshki13_WearableComputersO1ObservationManyOpportunities, author = {Roozbeh Jafari and Mohammad-Mahdi Bidmeshki}, title = {Wearable Computers: O(1) Observation = Many Opportunities}, day = {15}, month = {November}, year = {2013}, abstract = {Wearable computers bring to fruition many opportunities to continuously monitor human body with sensors placed on body. They provide new avenues to continuously monitor individuals, whether it is intended to detect an early onset of a disease or to assess the effectiveness of the treatment. In the past few years, the community has observed a large number of applications that have been developed using wearable computers. Yet, not many have been deployed in a large scale. There are still several challenges that need to be addressed before realizing the ubiquitous use of wearable computers. In this talk, we present a review of wearable computing systems and their applications. We highlight several components of wearable computers including signal processing, software, hardware architectures, sensors and actuators. We will in particular review signal processing techniques suitable for time-series data acquired from wearable sensors namely dynamic time warping and hidden Markov models. We provide a review for existing software platforms for wearable computers along with the current state-of-the-art hardware architectures. We emphasize the need for holistic approaches optimizing and enhancing the performance of wearable computers (e.g., reducing their form). We will review several cross-layered techniques aimed at creating hardware accelerators for wearable computers. We will conclude the talk by highlighting opportunities and future directions in wearable computer design. <p>Roozbeh Jafari (www.essp.utdallas.edu) is an associate professor at UT-Dallas. He received his PhD in Computer Science (UCLA) and completed a postdoctoral fellowship at UC-Berkeley. His research interest lies in the area of wearable computer design and signal processing. His research has been funded by the NSF, NIH, DoD - TATRC, AFRL, AFOSR, DARPA, SRC and industry (Texas Instruments, Tektronix, Samsung, Telecom Italia \& Texas Health Resources). He has published over 100 papers in refereed journals and conferences. He has served as the general and technical program committee chairs for several flagship conferences in the area of Wireless Health and Wearable Computers including the ACM Wireless Health 2012 and 2013, International Conference on Body Sensor Networks 2011 and International Conference on Body Area Networks 2011. He is an associate editor for the IEEE Sensors Journal and the IEEE Internet of Things Journal. He is the recipient of the NSF CAREER award (2012) and the RTAS 2011 best paper award.</p> <p>Mohammad-Mahdi Bidmeshki is a PhD student in Computer Engineering at the University of Texas at Dallas. Since 2011, he has been working in embedded systems and signal processing (ESSP) lab on activity monitoring and low power signal processing techniques for wearable computers and medical embedded systems. He received his bachelor’s and master’s degree in Computer Engineering from Sharif University of Technology in Tehran, Iran in 2004 and 2006, respectively. He worked as a lecturer in several universities in Iran and has extensive experience in the design of microcontroller and FPGA based embedded controllers for industrial and medical applications. </p>}, URL = {http://terraswarm.org/pubs/106.html} }
Posted by Christopher Brooks on 18 Sep 2013.
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