RFID – Newly Emerging Technology and Research Areas
Speaker: Dr. Qinghan Xiao, IEEE Senior Member, a Defence Scientist, Defence R&D Canada (DRDC), Ottawa, Canada
Date: Thursday December 9, 2010
Time: Registration and Networking: 03:30 p.m.; Seminar: 04:00 p.m. – 05:00 p.m
Location: Algonquin College, Room P210, P-Building, 1385 Woodroffe Ave., Ottawa, Ontario, Canada
ADMISSION: Free. Registration required. To ensure a seat, please register by e-mail contacting: Gerry Crichlow at crichlg@algonquincollege.com or Bashir Morshed at morsheb@algonquincollege.com or Wahab Almuhtadi at almuhtadi@ieee.org.
Abstract:
Radio Frequency Identification (RFID) is listed as one of the ten most important technologies of the century, which is an area of automatic identification that utilizes radio waves to identify unique instances of objects or people. Many government agencies and private companies are starting to integrate RFID into their business to reduce operation costs, improve process efficiency, optimize asset utilization, and enhance safety and security. Based on speaker’s knowledge and experience in RFID technology, this seminar will address the following questions:
• What are RFID key components?
• How does an RFID system work?
• Where are RFID systems being used?
• How to protect RFID systems from being attacked?
The objective is to help the students understand the key issues in developing RFID.
About the Speaker:
Dr. Qinghan Xiao, IEEE Senior Member, is a Defence Scientist at the Defence R&D Canada. He serves as the Chair of Task Force on Biometrics of the IEEE/CIS Technical Committee on Intelligent Systems Applications. His current research interests include biometric and RFID technologies. He is a Canadian delegate of the ISO/IEC JTC1 SC37 Standards Committee on biometrics, and works on a CRTI project to use RFID for in-the-field management of CBRN casualties. Dr. Xiao has been invited to speak and chair sessions in many national and international conferences. He holds a Ph.D. in Computer Science from the University of Regina. Dr. Xiao received the 2010 Outstanding Engineer Award from IEEE Ottawa Section recently
Wireless Sensor Networks (WSN) in the Power Grid
Speaker: Dr. Melike Erol-Kantarci, School of Information Technology and Engineering, University of Ottawa, Ottawa, Ontario, Canada
Date: Monday November 22, 2010
Time: Refreshments, Registration and Networking: 06:30 p.m.; Seminar: 07:00 p.m. – 08:00 p.m
Location: University of Ottawa, SITE, room 5084, 800 King Edward Avenue, Ottawa, Ontario, Canada
ADMISSION: Free. Registration required. To ensure a seat, please register by e-mail contacting:
Branislav Djokic at branislav@ieee.org , Wahab Almuhtadi at almuhtadi@ieee.org
Abstract:
In the last decades, electrical power grids in the developed countries have been under pressure by the imbalance between growing demand and diminishing fossil fuels, coupled with aging equipments and aging workforce. Furthermore, the resilience of the power grid has become questionable especially after the major blackouts in North America in 2001 and 2003, which have been mostly due to the lack of pervasive and effective communications, automation, monitoring and diagnostic tools. Considering these problems together with the opportunities that become available with the advances in Information and Communications Technology (ICT), it has become necessary to renovate the existing power grid. The future grid, which is also called as the smart grid, will meet the power quality and power availability demands of the 21th century. Briefly, smart grid aims to integrate the capabilities of the ICT field to the power engineering field. In this context, use of Wireless Sensor Networks (WSN) in the power grid appears as a promising issue, and it is gaining wide attention from the industry and the academia. WSNs can be used at several segments of the power grid, such as generation facilities, transmission and distribution lines and the consumer premises. In this talk, we will give an overview of the possible fields that WSNs can be employed. We will also introduce our in-home energy management scheme as an application of WSNs in the consumer premises to implement smart grid applications. We show that consumer expenses, peak load and electricity usage-related emissions can be significantly reduced by our scheme providing benefits to the consumers, the utilities and the governments.
About the Speaker:
Dr. Melike Erol-Kantarci is a postdoctoral fellow at the School of Information Technology and Engineering, University of Ottawa since October 2009. She received her Ph.D. (2009) and M.Sc. (2004) degrees from the Computer Engineering Department, Istanbul Technical University, Turkey, and her B.S. (2001) from the Control and Computer Engineering Department of the same university. From 2001 to 2009, Dr. Erol-Kantarci served as a lecturer at the Information Technologies Program, Istanbul Technical University. During the same period, she was a teaching and research assistant at the Computer Engineering Department, Istanbul Technical University. She has worked in several national and international research projects on IP traffic modeling and underwater communications. She is currently working in the Wireless Heterogeneous Sensor Networks in the e-Society (WISENSE) project at the University of Ottawa under the supervision of Professor Hussein T. Mouftah. From September 2006 to August 2007, she was a Fulbright visiting researcher at the Computer Science Department, University of California Los Angeles (UCLA). Her main research interests are heterogeneous wireless sensor networks, smart grids, underwater sensor networks, mobility modeling and internet traffic modeling.
Networked 3-D Virtual Collaboration in Science and Education: Towards ‘Web 3.0’ (A Modeling Perspective)
Speaker: Prof. Michael Devetsikiotis, ComSoc Distinguished Lecturer, Electrical and Computer Engineering, North Carolina State University, Raleigh, NC
Date: Friday November 19, 2010
Time: Refreshments, Registration and Networking: 06:30 p.m.; Seminar: 07:00 p.m. – 08:00 p.m
Location: Algonquin College, School of Advanced Technology, Building-T, Room T129 Nortel Lab, 1385 Woodroffe Ave., Ottawa, Ontario, Canada
PARKING: at the Parking Lots 8 & 9. Please respect restricted areas. No fee after 5:00 p.m.
ADMISSION: Free. Registration required. To ensure a seat, please register by e-mail contacting: Wahab Almuhtadi at almuhtadi@ieee.org
Abstract:
Combined advances in high speed networking, mobile devices, application sharing, web services, virtual world technologies and large scale event processing are converging to create a new world of pervasive, ubiquitous “presence” of users, which offers tremendous potential for social interaction and co-creation. The communication networking and computing requirements of this converged human-centric environment are also increasing at an accelerated pace. In this new environment, it is imperative that the much-needed networking and computing resources align closely with the needs and patterns dictated by the applications, social networks, and by the human users. We believe that the success of such socio-technical systems will hinge on the way networks capture and interact with human presence and location, in all of its physical, virtual and perceived aspects. A robust, scalable, and dynamic communication infrastructure is necessary to connect service consumers and providers within such rich, interactive collaborative virtual environments. Service-oriented networking (SON) is an emerging paradigm that directly addresses this need by enabling network devices to operate at the application layer to provide functions such as service-based routing, content transformation, and protocol integration to consumers and providers. We anticipate that applications of the future will leverage distributed SON deployment patterns where large numbers of network appliances coordinate with peers using network-wide (or “cloud-wide”) application-specific policies, in order to determine the appropriate points to perform configuration changes based on prevailing network, computing and application conditions. Modeling and adaptation of resources based on state, location, context-awareness and workload (current or predicted) is highly desirable in these high-performance computing and information socio-technical service systems. In this seminar, we provide an overview of our effort, in collaboration with our College of Management, and with IBM and Cisco, to develop models of emerging next generation network-based services, traffic characterization and predictive and dynamic resource allocation. We present an overview of approaches that we are using for service-aware utility-oriented modeling and resource allocation. We apply such techniques in the context of aggregation network optimization, location-aware hybrid activities in wireless networks, and virtual collaboration environments such as virtual worlds used for science and education.
About the Speaker:
Michael Devetsikiotis (IEEE S 1985, M 1994, SM 2003) was born in Thessaloniki, Greece. He received the Dipl. Ing. degree in Electrical Engineering from the Aristotle University of Thessaloniki, Thessaloniki, Greece, in 1988, and the M.Sc. and Ph.D. degrees in Electrical Engineering from North Carolina State University, Raleigh, in 1990 and 1993, respectively. As a student he received scholarships from the National Scholarship Foundation of Greece, the National Technical Chamber of Greece, and the Phi Kappa Phi Academic Achievement Award for a Doctoral Candidate at North Carolina State University. He is a senior member of the Institute of Electrical and Electronics Engineers and a member of the honor societies of Eta Kappa Nu, Sigma Xi, and Phi Kappa Phi.
In October 1993 he joined the Broadband Networks Laboratory at Carleton University, Ottawa, Canada, as a Post-Doctoral Fellow. Michael later became an Adjunct Research Professor in the Department of Systems and Computer Engineering at Carleton University in April 1995, an Assistant Professor in July 1996 and an Associate Professor in July 1999. He joined the Department of Electrical and Computer Engineering at NC State as an Associate Professor, in October 2000, and became a Professor in July 2006. He remains an Adjunct Research Professor in the SCE Department, Carleton University. Michael served as Chairman of the IEEE Communications Society Technical Committee on Communication Systems Integration and Modeling and is now a member of the Communications Society Education Board. He has served as an Associate Editor of the IEEE Communications Letters, and an Area Editor of the ACM Transactions on Modeling and Computer Simulation, and remains a member of the editorial boards of the International Journal of Simulation and Process Modeling, the IEEE Communications Surveys and Tutorials, and the Journal of Internet Engineering. He co-chaired the Next Generation Internet symposium under IEEE ICC 2002 in New York, the High-Speed Networks symposium under IEEE ICC 2004 in Paris, the Quality, Reliability and Performance Modeling (QRPM) symposium under IEEE ICC 2006 in Istanbul, and the Quality, Reliability and Performance for Emerging Network Services symposium under IEEE Globecom 2006 in San Francisco. He served recently as Workshops Chair for IEEE Globecom 2008 in New Orleans, and as co-chair of the workshops on “Enabling the Future Service Oriented Internet” (2007, 2008 and 2009). Michael will co-chair the QRPM Symposium of IEEE Globecom 2010, in Miami, and is the general Chair for IEEE CAMAD 2011, in Kyoto, Japan. During the Fall of 2010, as part of his sabbatical, Michael has been a visiting professor at the University of Trento, Italy, in the Department of Information Engineering and Computer Science; and at the University of Thessaloniki, Greece, in the Department of Informatics.
Sensing and Identification in the Internet of Things Era
Speaker: Prof. Hossam Hassanein, ComSoc Distinguished Lecturer, School of Computing, Queen’s University, Kingston, Canada
Date: Wednesday October 20, 2010
Time: Refreshments, Registration and Networking: 06:30 p.m.; Seminar: 07:00 p.m. – 08:00 p.m
Location: Algonquin College, School of Advanced Technology, Building-T, Room T129 Nortel Lab, 1385 Woodroffe Ave., Ottawa, Ontario, Canada
PARKING: at the Parking Lots 8 & 9. Please respect restricted areas. No fee after 5:00 p.m.
ADMISSION: Free. Registration required. To ensure a seat, please register by e-mail contacting: Wahab Almuhtadi at almuhtadi@ieee.org
Abstract:
Enabling The concept of Internet of Things (IoT) is opening new horizons in systems intelligence, where physical objects (embedded with sensory, identification and networking capabilities) can interact with other objects through the global infrastructure of wireless/wired Internet. These systems can be monitored and controlled by filtering and processing collected data. Such intelligent design will naturally result is efficient and cost effective systems. Several architectures are being built to implement IoT from two different perspectives. The first, also known as sensor-oriented, is based on large-scale sensors deployment targeting the collection of accurate sensory data. Such huge sensory data are analyzed through cloud computing to deliver intelligent responses. The second architecture, also known as service-oriented, targets the association of unique identifiers with specific services. In such architecture, the service (or the appropriate response) is invoked upon receiving the unique identifier from a specific ID collecting node considering the context in which it was collected. Unique identification technologies (dominated by RFID) and low power Nano-scale sensors are the main enablers of IoT realization through the uniqueness of ID, small size, sensing, storage and processing capabilities. However, energy management, mobility and scale remain main challenges toward ubiquitous adaptation of such technologies. As well, the realization of IoT necessitates overcoming several interrelated technical and social challenges in IoT systems architecture, modeling and design. This talk will highlight the main characteristics of IoT, the opportunities it creates and main challenges it faces. The talk will cover some of the activities at the Telecommunication Research lab at Queen’s University towards the realization of IoT.
About the Speaker:
Hossam Hassanein is with the School of Computing at Queen’s University working in the areas of broadband, wireless and variable topology networks architecture, protocols, control and performance evaluation. Dr. Hassanein obtained his Ph.D. in Computing Science from the University of Alberta in 1990. He is the founder and director of the Telecommunication Research (TR) Lab http://www.cs.queensu.ca/~trl in the School of Computing at Queen’s. Dr. Hassanein has more than 350 publications in reputable journals, conferences and workshops in the areas of computer networks and performance evaluation. He has delivered several plenary talks and tutorials at key international venues, including Unconventional Computing 2007, IEEE ICC 2008, IEEE CCNC 2009, IEEE GCC 2009, IEEE GIIS 2009, ASM MSWIM 2009 and IEEE Globecom 2009. Dr. Hassanein has organized and served on the program committee of numerous international conferences and workshops. He also serves on the editorial board of a number of International Journals. He is a senior member of the IEEE, and is currently chair of the IEEE Communication Society Technical Committee on Ad hoc and Sensor Networks (TC AHSN). Dr. Hassanein is the recipient of Communications and Information Technology Ontario (CITO) Champions of Innovation Research award in 2003. He received several best paper awards, including at IEEE Wireless Communications and Network (2007), IEEE Global Communication Conference (2007), IEEE International Symposium on Computers and Communications (2009), IEEE Local Computer Networks Conference (2009) and ACM Wireless Communication and Mobile Computing (2010). Dr. Hassanein is an IEEE Communications Society Distinguished Lecturer.
– Based Management of Optical Networks for Next Generation Disaster Recovery Networking Solutions with WDM Systems
– Cloud Computing and Security
Speaker: Mr. Andrew MacKay, Chief Technology Officer of Superna, Ottawa, Ontario, Canada
Date: Wednesday October 6, 2010
Time: Refreshments, Registration and Networking: 06:30 p.m.; Seminar: 07:00 p.m. – 08:00 p.m
Location: Algonquin College,, P-Building, Room P-215, 1385 Woodroffe Ave., Ottawa, Ontario, Canada
PARKING: at the Parking Lots 8 & 9. Please respect restricted areas. No fee after 5:00 p.m.
ADMISSION: Free. Registration required. To ensure a seat, please register by e-mail contacting:
Wahab Almuhtadi at almuhtadi@ieee.org
Abstract:
Data center’s are the heart of Enterprise IT and Internet based Cloud computing services and Optical networks are the arteries that connect them. This session will cover the latest trends in data center optical network including disaster recovery, security, protocols and future architectures to enable on demand computing over flexible Optical networks and the technology requirements to make the transition.
About the Speaker:
Andrew MacKay is Chief Technology Officer of Superna, a software development specialist in geospatial network management solutions for Carrier and enterprise networks. With over 19 years in the industry, he’s an experienced leader and innovator in all aspects of Enterprise and Telecom technologies with unique expertise in security, network management, virtualization, cloud computing and BC/DR for both Enterprise and Telecom networks. During his various roles of architect, Optical product manager, strategic planning, technology evaluation and product management he was responsible for presenting the companies vision for data center networking to customers around the globe. He worked in various divisions at Nortel most recently leading activities in storage networking, Enterprise strategic planning, speaker at Industry trade shows, key contributor to T.11 ANSI Fibre channel standards, introduced the first fibre channel over Ethernet product, with later contributions resulting in granted patents around security, and WAN optimization solution
Intelligent Buildings in an Intelligent Grid – the Next Great Network Build-Out
Speaker: Mr. Wes Biggs, President and Chief Executive Officer, Triacta Power Technologies, Inc., Ottawa, Ontario, Canada
Date: Thursday September 30, 2010
Time: Refreshments, Registration and Networking: 06:30 p.m.; Seminar: 07:00 p.m. – 08:00 p.m
Location: Algonquin College, School of Advanced Technology, Building-T, Room T334, 1385 Woodroffe Ave., Ottawa, Ontario, Canada
PARKING: at the Parking Lots 8 & 9. Please respect restricted areas. No fee after 5:00 p.m.
ADMISSION: Free. Registration required. To ensure a seat, please register by e-mail contacting:
Wahab Almuhtadi at almuhtadi@ieee.org
Abstract:
There is a rapid transition happening. The past decade has proven out the conventional wisdom espoused by Green Building Councils around the world, that investing in properties to make them “green” buildings has a rapid return in lowering operating costs, increasing property value, and boosting tenancy rates. The term “green building” is rapidly giving way to a new concept: Intelligent Building. This term recognizes that one of the fundamental properties of a green building is that, above any materials based changes, the overriding characteristic of a green building is the liberal application of control, monitoring and measurement systems. These systems are designed to maintain the building within a tight operating window, and to expose building and operational characteristics to all stakeholders, identifying deviations and enabling areas for improvement.
The revolution of Intelligent Buildings over the past manner of deploying control systems in buildings is the integration of building automation systems with metering platforms, to create a unified system. At its simplest, this is merely enabling the building management system to access meter data. The Intelligent Building, however, is taking this further by adding integration of the building management system, and a smart metering platform with IT systems within and outside the building. Building automation systems have been naturally moving towards this reality by embracing IP as the communications protocol within the building. BAS communications fabrics have migrated from simple networks to IP. Intelligent Buildings are the payoff for this trend, facilitated by the smooth synthesis of BAS, metering and IT. IBM refers to this as a “building operating system”.
Triacta Power as a leading vendor of Smart Meter Systems has experienced first-hand the evolution of Smart Meters and Smart Buildings and has unique insight into the ultimate integration of Intelligent Buildings with an Intelligent(Smart) Grid. We believe it is the next great network & business opportunity build-out.
About the Speaker:
Wes Biggs joined Triacta as the VP of Engineering & Operations in 2003. He became President in June of 2009. He is a technology company veteran with over 25 years of engineering and executive experience in leading companies such as Newbridge, Mitel and Nortel. Most recently, Wes was co-founder, President and CEO of Meriton Networks.
Mobile Agents for Autonomous Wireless Ad Hoc Networks
Speaker: Dr. Victor C.M. Leung, ComSoc Distinguished Lecturer, Dept. of Electrical and Computer Engineering, University of British Columbia
Date: Thursday June 17, 2010
Time: Refreshments, Registration and Networking: 06:30 p.m.; Seminar: 07:00 p.m. – 08:00 p.m
Location: Algonquin College, School of Advanced Technology, Building-T, Room T129, 1385 Woodroffe Ave., Ottawa, Ontario, Canada
PARKING: at the Parking Lots 8 & 9. Please respect restricted areas. No fee after 5:00 p.m.
ADMISSION: Free. Registration required. To ensure a seat, please register by e-mail contacting:
Wahab Almuhtadi at almuhtadi@ieee.org or Patrick Couture Cout0009@algonquincollege.com
Abstract:
In addition to overcoming the vagaries of propagation impairments and interference in wireless channels, designs of wireless ad hoc networks are challenged by changing network configurations due to node mobility. To meet these challenges, ad hoc networking solutions should incorporate distributed intelligence that enables network nodes to autonomously adapt to changes in networking environments and network configurations. By propagating software codes to mobile nodes for execution and allowing them to spawn new codes for propagation to other nodes, mobile agents can provide an effective solution for these challenges. This presentation provides an overview of the use of mobile agents in wireless ad hoc networks, especially in their practical realization for wireless personal communications and wireless sensor networking. In the first example, we describe the Bluescout mobile agents for scatternet formation in Bluetooth networks, which adaptively reconfigures the Bluetooth scatternet to maximize the size of individual piconets. In the second example, we present the design of a mobile agent platform for wireless sensor networks known as Wiseman, and describe a limited experimental implementation of Wiseman and its evaluation. The presentation concludes with discussions of open research issues concerning the application of mobile agents in wireless networks, and potential applications of mobile agents in wireless networks of the future.
About the Speaker:
Victor C. M. Leung received the B.A.Sc. (Hons.) degree in electrical engineering from the University of British Columbia (U.B.C.) in 1977, and was awarded the APEBC Gold Medal as the head of the graduating class in the Faculty of Applied Science. He attended graduate school at U.B.C. on a Natural Sciences and Engineering Research Council Postgraduate Scholarship and completed the Ph.D. degree in electrical engineering in 1981. From 1981 to 1987, Dr. Leung was a Senior Member of Technical Staff at MPR Teltech Ltd., where he contributed to the design of a number of thin-route and mobile satellite communication networks. He also held a part-time visiting faculty position at Simon Fraser University in 1986 and 1987. He began his full-time academic career in 1988, as a a Lecturer in the Department of Electronics at the Chinese University of Hong Kong. He returned to U.B.C. as a faculty member in 1989, where he is currently a Professor and the inaugural holder of the TELUS Mobility Research Chair in Advanced Telecommunications Engineering in the Department of Electrical and Computer Engineering. He is a member of the Institute for Computing, Information and Cognitive Systems at U.B.C. He also holds Guest/Adjunct Professor appointments at Jilin University, Beijing Jiaotong University, and South China University of Technology in China. Dr. Leung has made substantial contributions to the design and evaluations of wireless networks and mobile systems over the past 30 years, and has authored/co-authored more than 450 technical papers in international journals and conference proceedings in these areas. He and his co-authors have received several best-paper awards. Dr. Leung is a registered member of the Association of Professional Engineers and Geoscientists of British Columbia (APEGBC), Canada. He is a Fellow of IEEE, a Fellow of the Canadian Academy of Engineering, a Fellow of the Engineering Institute of Canada, and a voting member of ACM. He has served on the editorial boards of the IEEE Transactions on Wireless Communications, the IEEE Transactions on Vehicular Technology, the IEEE Transactions on Computers, Computer Communications, the International Journal of Sensor Networks, the Journal of Communications and Networks, and the International Journal of Communication Networks and Distributed Systems. He has guest-edited several special journal issues, and served on the technical program committee of numerous international conferences. He is a Distinguished Lecturer of the IEEE Communications Society. He was the TPC Chair of the wireless networks and cognitive radio track of IEEE VTC-fall 2008, and the TPC Vice-chair of IEEE WCNC 2005. He was the General Chair of QShine 2007, and a General Co-Chair of IEEE EUC 2009 and ACM MSWiM 2005. He is the General Chair of AdhocNets 2010 and WC 2010, and a General Co-Chair of IEEE MobiWorld 2010, IEEE CWCN 2010, IEEE ASIT 2010, EMC 2010 and BodyNets 2010.
Multigigabit Wireless Multimedia Communications: Future and Core Technologies
Speaker: Prof. Dr. Vijay K. Bhargava, FRSC, FIEEE, University of British Columbia, Candidate for IEEE Communications Society President-Elect
Date: May 12, 2010
Time: Refreshments, Registration and Networking: 06:30 p.m.; Seminar: 07:00 p.m. – 08:00 p.m
Location: Algonquin College, School of Advanced Technology, Building-T, Room T129, 1385 Woodroffe Ave., Ottawa, Ontario, Canada
PARKING: at the Parking Lots 8 & 9. Please respect restricted areas. No fee after 5:00 p.m.
ADMISSION: Free. Registration required. To ensure a seat, please register by e-mail contacting:
Wahab Almuhtadi, or Balakumar Balasingam, Raed Abdullah, Patrick Couture.
Abstract:
The millimeter wave technology has been known for several decades but was mainly used for military communications. In this presentation we specifically focus on 60 GHz band as recently a massive unlicensed spectrum up to 9GHz has been allocated worldwide in this band for civilian communication. This spectrum is a very promising candidate for multigigabit wireless transmission systems including wireless personal area network (WPAN) as well as Wireless local area network (WLAN) usage. The effective interference level in this band is less severe then those WLAN systems deployed in the congested WiFi bands (2-2.5 GHz and 5-5.8 GHz). As a result, higher frequency reuse can be achieved, leading to a very high throughput network. After summarizing the current status of standardization activities for 60 GHz band we will focus on a series of technical challenges that need to be resolved before the full deployment of multigigabit wireless multimedia communications. These include 60 GHz propagation and antennas, CMOS circuit design, modulation schemes, LDPC-based error correction schemes and MAC layer design.
About the Speaker:
Vijay Bhargava, an IEEE volunteer for three decades, is Professor in the Department of Electrical and Computer Engineering at the University of British Columbia in Vancouver, where he served as Department Head during 2003-2008. As a senior level IEEE volunteer, he has lectured in 66 countries and assisted IEEE Presidents in negotiating sister society agreements in India, Japan and Russia.
Vijay has served as the IEEE Vice President for Regional Activities Board, now known as Member and Geographic Activities (MGA) Board. During his tenure the program known as Graduates of the Last Decade (GOLD) was conceived and he developed a profound understanding of how IEEE Societies, Regions, Sections, Chapters and Student Branches work. He is the Founder of the IEEE Pacific Rim Conference on Communications, Computers and Signal Processing and of the Canadian Conference on Electrical and Computer Engineering Vijay played major role in the creation of the IEEE Communications and Networking Conference (WCNC) and IEEE Transactions on Wireless Communications, for which he served as the Editor-in-Chief during 2007-2009. In 2010, he was appointed for a two year term as the IEEE Communications Society Director of Journals. He is a past President of the IEEE Information Theory Society. Vijay Bhargava is a candidate for IEEE Communications Society President-Elect in the forthcoming election.
and the International Society for Bayesian Analysis.
2009
The Particle Filtering Methodology in Signal Processing
Speaker: Prof. Petar M. Djuric, Department of ECE, Stony Brook University, NY, USA
Date & Time: Monday, November 23rd, 2009, 2:00 PM – 3:00 PM
Place: University of Ottawa, School of Information Technology and Engineering (SITE), Boardroom, 5th floor, 800 King Edward Avenue, Ottawa, Ontario, Canada
Admission: Free Registration. Please contact in advance to reserve seats.
Refreshments: Will be served 15 minutes before the start of the meeting.
Abstract:
Particle filtering is a Monte Carlo – based methodology for sequential signal processing. It is designed for estimation of hidden processes that are dynamic and that can exhibit most severe nonlinearities. Also, it can be applied with equal ease to problems that involve any type of probability distributions. Therefore, it is not surprising that particle filtering has gained immense popularity. In this talk, first, the basics of particle filtering will be provided with description of its essential steps. Then some important topics of the theory will be addressed including Rao-Blackwellization, smoothing, and estimation of constant parameters. Finally, a presentation of most recent advances in the theory will be given. The talk will contain signal processing examples which will aid in gaining valuable insights about the methodology.
About the Speaker:
ViPetar M. Djuric (Fellow, IEEE) received his B.S. and M.S. degrees in Electrical Engineering from the University of Belgrade, in 1981 and 1986, respectively, and his Ph.D. degree in Electrical Engineering from the University of Rhode Island (1990). From 1981 to 1986, Prof. Djuric was a Research Associate with the Institute of Nuclear Sciences, Vinca, Belgrade. Since 1990, he has been with Stony Brook University, where he is Professor, Department of Electrical and Computer Engineering. His research interests are in the area of statistical signal processing, and his primary interests are in the theory of modeling, detection, estimation, and time series analysis and its application to a wide variety of disciplines including wireless communications and biomedicine. Prof. Djuric has served on numerous technical committees for the IEEE and has been invited to lecture at universities in the United States and overseas. His SPS activities include: Vice President-Finance (2006-09); Area Editor of Special Issues, IEEE Signal Processing Magazine (2002-05); Associate Editor, IEEE Transactions on Signal Processing (1994-96 and 2003-05); Chair, SPS Signal Processing Theory and Methods Technical Committee (2005-06); and Treasurer, SPS Conference Board (2001-03). He is
an Editorial Board Member, IEEE Journal on Special Topics in Signal Processing, Elsevier Digital Signal Processing, Elsevier Signal Processing, and the EURASIP Journal on Wireless Communications and Networking. Prof. Djuric is an IEEE Fellow, as well as a Member of the American Statistical Association.
and the International Society for Bayesian Analysis.
Converged Services and New Generation of Networking
Speaker: Dr. Bhumip Khasnabish, IEEE ComSoc Distinguished Lecturer, Distinguished MTS of Verizon Network and Technology, Waltham, MA, USA
Date & Time: Wednesday, July 15th, 2009, Refreshments, Registration and Networking: 06:00 p.m.; Seminar: 06:30 p.m. – 07:30 p.m
PLACE: Algonquin College, 1385 Woodroffe Ave., School of Advanced Technology, Building-T, Room T129
PARKING: at the Parking Lots 8 & 9. Please respect restricted areas. No fee after 5:00 p.m.
ADMISSION: Free. Registration required. To ensure a seat, please register by e-mail contacting:
Wahab Almuhtadi at almuhtadi@ieee.org or Patrick Couture Cout0009@algonquincollege.com
Abstract:
Commoditization of voice service has reached such a state that anyone with a server to provide registry and addressing (identification) functions can offer it to the Internet community using the voice over the Internet protocol (IP) or VoIP technology. Traditional client-server model has evolved to peer-to-peer model for near-real-time voice and multimedia (gaming, video, etc.) sessions. Voice mail service is being replaced by Instant-messaging (for presence-announced users), use of Star codes for advanced call/session feature activation is being replaced by Web based service-provisioning interface, and so on. Similar revolution is also happening in the areas of IP-based Television (IPTV) service development and distribution. These are only a glimpse of what is possible with the new/emerging converged services paradigm. However, many issues related to reliability/availability, security/privacy, mobility, service provisioning and continuity, regulation, operations, and quality of service and experience (QoS/QoE) still remain open.
In this discussion, we will explore the current activities of the traditional service providers to find implementable and operable solutions to these problems in the evolving Next Generation Networks (NGNs). The objective is to support VoIP, IPTV, and other multimedia services seamlessly over a variety of interconnected networks using the emerging IP multimedia subsystem (IMS) and service-oriented architecture/network (SOA/SON) based standards.
About the Speaker:
Dr Khasnabish is a Distinguished MTS of Verizon Network and Technology, Waltham, MA, USA. He is the founding chair of the recently created ATIS Next Generation Carrier Interconnect (NG-CI) Task Force. Bhumip also founded MSF Services Working Group and led World’s first IMS-based IPTV Interop during GMI08. In Verizon, he focuses on NGN and Carrier Interconnection projects related to delivering enhanced multimedia services. He represents Verizon in the Standards activities of MSF and ATIS NG-CI. Previously Bhumip worked in Bell-Northern Research (BNR) Ltd. designing, implementing, and leading implementation of trunking and traffic management software modules for Passport® multi-service switch. Bhumip contributed to developing numerous patents and publications including the books entitled Implementing Voice over IP (Wiley, 2003, 2005) and Multimedia Communications Networks: Technologies and Services (Artech House, 1998). Bhumip is a Distinguished Lecturer of IEEE, an adjunct faculty member of Brandeis University and Bentley University and Northeaster University; all in greater Boston, Massachusetts, area, and a member of the Board of Editors of the Journal of Network and Systems Management (JNSM).
Microelectronics Reliability: It’s evolution from Military to Commercial Requirements
Speaker: Dr. Ray Haythornthwaite
DATE: Thursday, May 21, 2009
TIME: Refreshments, Registration and Networking: 06:30 p.m.; Seminar: 07:00 p.m. – 08:00 p.m.
PLACE: Algonquin College, 1385 Woodroffe Ave., School of Advanced Technology, T-Building, Room T230.
Parking: No fee after 5:00 p.m. at the Visitors’ Parking Lots 8 (green) & 9 (red). Please respect restricted areas. Map: to view the map, click here.
ADMISSION: All welcome – Free.
REGISTRATION: pre-registration Registration required. To ensure a seat, please register by e-mail contacting: Raed Abdullah
ORGANIZED BY: IEEE Reliability Ottawa Chapter, IEEE ComSoc/BTS/CES Ottawa Chapter, IEEE LEOS Ottawa Chapter, IEEE AESS Ottawa Chapter, IEEE P/MTT Ottawa Chapter, IEEE CS Ottawa Chapter, and Algonquin College Student Branch.
CONTACT: details – Raed Abdullah, Patrick Couture, or almuhtadi@ieee.org.Go to Top
Why Technical Writing Matters and What It Can Do for Your Career
Speaker: Kerry Surman, Algonquin College, Ottawa, Canada
DATE: Wednesday May 13, 2009
TIME: Refreshments, Registration and Networking: 06:30 p.m.; Seminar: 07:00 p.m. – 08:00 p.m.
PLACE: Algonquin College, 1385 Woodroffe Ave., School of Advanced Technology, T-Building, Room T129.
Parking: No fee after 5:00 p.m. at the Visitors’ Parking Lots 8 (green) & 9 (red). Please respect restricted areas. Map: to view the map, click here.
ADMISSION: All welcome – Free.
REGISTRATION: pre-registration Registration required. To ensure a seat, please register by e-mail contacting: almuhtadi@ieee.org.
ORGANIZED BY: IEEE ComSoc/BTS/CES, PES Ottawa Chapter, Reliability Chapter, IEEE Ottawa Section Educational Activities, Women in Engineering Affinity Group, and Algonquin College Student Branch.
CONTACT: details – Wahab Almuhtadi, Branislav Djokic, and Patrick Couture.Go to Top
Advanced Technology Seminar on:
1. Compensation of Long Input Delays for Unstable Nonlinear and PDE Systems by Dr. Miroslav Krstic, Sorenson Distinguished Professor and Director of the Center for Control Systems and Dynamics at UC San Diego
2. 40 Gb/s and 100 Gb/s Coherent Modems by Kim Roberts, Nortel, Ottawa, Ontario, Canada
PLACE: Algonquin College, School of Advanced Technology, Building-T, Room T119, 1385 Woodroffe Ave. , Ottawa, Ontario
Program
Thursday March 19, 2009:
6:30 pm
Refreshments, Registration and Networking
6:55 pm
Opening Remarks,
Claude Brule, Executive Dean, Faculty of Technology and Trades, Algonquin College
7:00 pm
“Compensation of Long Input Delays for Unstable Nonlinear and PDE Systems”
IEEE CSS Distinguished Lecturer: Dr. Miroslav Krstic, Sorenson Professor and Director of the Center for Control Systems and Dynamics, UC San Diego, USA
8:00 pm
“40 Gb/s and 100 Gb/s Coherent Modems”
Guest Speaker: Kim Roberts, Nortel Networks, Canada
9:00 pm
Closing
Wahab Almuhtadi
Compensation of Long Input Delays for Unstable Nonlinear and PDE Systems
Speaker: Prof. Dr. Miroslav Krstic, Sorenson Distinguished Professor and Director of the Center for Control Systems and Dynamics at UC San Diego
Date & Time: March 19, 2009. Refreshments, Registration and Networking: 06:30 p.m.; Seminar: 07:00 p.m. – 08:00 p.m.
Location: Algonquin College, 1385 Woodroffe Ave., School of Advanced Technology, Building-T, Room T119
Parking: No fee after 5:00 p.m. at the Visitors’ Parking Lots 8 & 9. Please respect restricted areas.
Admission: Free. Registration required. To ensure a seat, please register by e-mail contacting: Wahab Almuhtadi at almuhtadi@ieee.org.
More Info: Contact: Jurek Sasiadek jsas@ccs.carleton.ca, Wahab Almuhtadi almuhtadi@ieee.org, Raed Abdullah RaedAbdullah@ieee.org, Balakumar Balasingam balasing@site.uottawa.ca, Branislav Djokic branislav@ieee.org, Patrick Couture Cout0009@algonquincollege.com
Abstract:
Input delays create challenges in stabilization problems in many applications for unstable plants. I will present new designs for global stabilization of broad classes of nonlinear systems with long input delays. I will also introduce problems where the length of the input delay is highly uncertain, or even completely unknown, and present adaptive control designs for stabilization in the presence of this and other parametric uncertainties. In addition to input delays, I will discuss other infinite-dimensional input dynamics, such as those that combine convective and diffusive phenomena. Finally, I will show designs for PDEs with long input delays, such as unstable reaction-diffusion equations and anti-stable wave equations.
About the Speaker:
Miroslav Krstic is a Sorenson Distinguished Professor and Director of the Center for Control Systems and Dynamics at UC San Diego. He is a Fellow of IEEE and IFAC and a co-author of eight books: Nonlinear and Adaptive Control Design (1995), Stabilization of Uncertain Nonlinear Systems (1998), Flow Control by Feedback (2002), Real-Time Optimization by Extremum Seeking Control (2003), Control of Turbulent and Magnetohydrodynamic Channel Flows (2007), Boundary Control of PDEs (2008), Adaptive Control of Parabolic PDEs (2009), and Delay Compensation for Nonlinear and PDE Systems (2009).Go to Top
40 Gb/s and 100 Gb/s Coherent Modems
Speaker: Kim Roberts, Nortel, 3500 Carling Ave, Ottawa, Ontario, Canada
Date & Time: March 19, 2009. Refreshments, Registration and Networking: 06:30 p.m.; Seminar: 08:00 p.m. – 09:00 p.m.
Location: Algonquin College, 1385 Woodroffe Ave., School of Advanced Technology, Building-T, Room T119
Parking: No fee after 5:00 p.m. at the Visitors’ Parking Lots 8 & 9. Please respect restricted areas.
Admission: Free. Registration required. To ensure a seat, please register by e-mail contacting: Kexing Liu kexing.liu@ieee.org, or Wahab Almuhtadi at almuhtadi@ieee.org.
Abstract:
Due to demand for increased optical transmission capacity, lower cost, and better spectral efficiency, 40 Gb/s optical systems are emerging and 100 Gb/s transmission is being discussed. With increased baud rate, system performance becomes very sensitive to chromatic dispersion, noise, and Polarization Mode Dispersion. It is desirable to have 40 and 100 Gb/s systems that operate as independently of optical physics as is possible. Traditionally, optical dispersion compensation modules were used within line amplifiers to compensate chromatic dispersion. Electrical Domain Compensation of Optical dispersion (eDCO) systems at 10 Gb/s, use digital signal processing to perform dispersion compensation in the transmitter such that all forms of optical compensation are obsolete. Systems at 40 and 100 Gb/s should be designed to be just as independent of dispersion. Telecommunications operators have been discovering significant amounts of Polarization Mode Dispersion in many of their installed fibers. Coherent detection provides several thousand kilometres of reach at 40 Gb/s, and allows linear digital filters in the receiver to combat dispersion, PDL and PMD A 100 Gb/s coherent product operates within a single 50 GHz WDM slot. The same coherent technology can be applied to 200, 400 and 1000 Gb/s modems, with future generations of CMOS.
About the Speaker:
Kim Roberts has innovated in the areas of optical transmission and high capacity packet connections since 1984. His creations are at the heart of much of Nortel’s optical transmission portfolio from the first OC-48 to the 40 Gb/s DSP-assisted coherent transceiver. He has been granted 85 US patents while at the Nortel labs in Edmonton, Harlow UK, and Ottawa. Kim holds a BASc and MASc. in EE from UBC and is a Nortel Fellow. Kim received the Outstanding Engineer medal in 2008 from IEEE Canada.Go to Top
Adaptive Filtering Games for designing Reconfigurable Sensor Networks
Speaker: Prof. Vikram Krishnamurthy, Department of Electrical and Computer Engineering, University of British Columbia
Date & Time: Tuesday, March 17th, 2009, 2:00 PM – 3:00 PM
Location: University of Ottawa, School of Information Technology and Engineering (SITE), Boardroom, 5th floor, 800 King Edward Avenue, Ottawa, Ontario, Canada
Admission: Free Registration. Please contact in advance to reserve seats.
Refreshments: Will be served 15 minutes before the start of the meeting.
Abstract:
This seminar deals with decentralized sensor activation and management in large scale sensor networks using game theoretic methods. Using recent results in economics, we describe how the theory of global games gives a powerful paradigm for designing decentralized data-aware sensor activation algorithms in dense sensor networks. We show that the Nash equilibrium of the sensor network has a simple threshold structure and exhibits a remarkable phase transition as more data is collected. Next, we describe how decentralized adaptive filtering algorithms with regret matching can be deployed in sensor networks to guide network behavior to a satisfactory operating point. A major theme of the talk will be the focus on structural properties that result in numerically efficient algorithms rather than brute force computational methods. Another key paradigm of the talk is the idea of sensors learning from data and other sensors – this is different to the traditional paradigm of sensors learning from data alone. This seminar should be of interest to researchers and practitioners in signal processing, sensor design, control systems and economics/applied mathematics.
About the Speaker:
Vikram Krishnamurthy (F) currently holds the Canada Research Chair in Signal Processing at the University of British Columbia. Prior to 2002, he was a Chaired Professor, University of Melbourne, Australia where has served as Deputy Head of Department. He has made several contributions to the theory of bayesian estimation, stochastic sensor scheduling, and hidden markov models. Dr. Krishnamurthy’s current research interests include computational game theory, stochastic dynamical systems for modeling of biological ion channels and stochastic optimization and sensor scheduling. Much of his recent research deals with sensor-adaptive signal processing – that is, how networked sensors can dynamically adapt their behavior to optimize the statistical signal processing. Such problems use game theory and stochastic control together with statistical signal processing. Dr Krishnamurthy has published over 30 book chapters and 125 peer reviewed journal papers. He has served as Associate Editor, IEEE Transactions Signal Processing (2000-2005); IEEE Transactions Automatic Control; IEEE Transactions Aerospace & Electronic Systems; IEEE Transactions Circuit and Systems II; IEEE Transactions Nanobioscience; EURASIP Journal of Applied Signal Processing; and Systems & Control Letters. Dr. Krishnamurthy has received many awards for his research including the Canada Research Chair, and Queen Elizabeth II Fellowship. He is a Fellow of the IEEE and a Member, IEEE Signal Processing Theory and Methods Technical Committee(2005-present).
Watch this White Space: Leveraging the latest license-free spectrum
Speaker: Stephen Rayment, Chief Technology Officer, BelAir Networks, Ottawa, Canada
Date & Time: Monday, Monday 26 January 2009, 8:00 PM
Optional pub supper 6.30 pm -Social hour with refreshments from 7.30 pm – All welcome
Location: RA Centre, Riverside Drive, Courtside A Room, Ottawa, Ontario, Canada
Parking: free. Please park in East lot and enter by corner door, Map: http://www.racentre.com/e/about/map.htm
Admission: Free Registration. Pre registration requested for either pub supper or social hour, please contact Hugh Reekie 613-728-5343, max-com@allstream.net.
Refreshments: Will be served 15 minutes before the start of the meeting.
Organized by: The Institution of Engineering and Technology (IET) Ottawa Network and IEEE Ottawa Joint Chapter of Communications Society & Broadcast Technology Society (ComSoc, BTS & CES).
Abstract:
There is a sign in the US FCC’s window which reads: “Broadband spectrum with excellent propagation characteristics suitable for both fixed and mobile applications – Free to a good home!” Free, yes, and potentially priceless, but this puppy will need some training. Stephen Rayment will delve into the promise and problems presented by this new “beachfront property” spectrum soon to be vacated – in the move from analog to digital TV. With requirements for GPS capabilities and third-party databases, spectrum sensing and microphone protection, adaptive power control and other technical specifications — many covered under IEEE 802.22 — it’s not quite as simple as “give it away and they will build it” but it still presents an attractive opportunity for broadband innovation. Attend this meeting to find out what Microsoft KNOWS and why Dolly Parton was up in arms – you’ll get the latest update on the spectrum that everyone’s talking about and how and where you can expect to leverage it.
About the Speaker:
Stephen Rayment is co-founder and Chief Technology Officer of BelAir Networks where he has been responsible for delivering its first products and now oversees product and technology strategy and evolution. He brings 30 years of product and technology experience in the telecommunications industry, including 20 years in the wireless arena. At Bell-Northern Research, he led the development of broadband wireless products, the launch of broadband multimedia satcom equipment and the design of the industry’s first wireless PBX. Stephen is active in industry standardization, serving as an officer in IEEE 802.11 and is author of over a dozen patents. Stephen holds a B.Sc. and a M.Sc. in Electrical Engineering from Queen’s University, a Diploma in Administration from the University of Ottawa, is a graduate of the MIT Sloan School’s Management of Technology program and is a Senior Member of the IEEE.
2008
Impacts of the Sun on Satellite Communications Systems
Speaker: Dr. Andy D Kucar, andy@radio4u.com, www.radio4u.com, Ottawa, Canada
Time/Date: Monday, Sept. 22, 2008, 7:00pm-8:00pm
Location: 4124 Mackenzie Engineering Building, Carleton University
Abstract
For over 60 years, artificial man–made satellites have been providing diverse, highly available services, worldwide. The Sun is the lifeline of majority of satellite space segments, providing to satellites a thermal equilibrium, and, via solar cells, the electric energy. When the Sun becomes obscured by the Earth or by the Moon, a solar eclipse occurs. A satellite’s lifeline becomes vitally reduced or cut and its thermal equilibrium disrupted. Different measures have to be taken to reduce and/or avoid potential degradations and/or disruptions of services. The worst case scenario, an unavailability of service, is also called an outage. Direct exposure to the Sun by a receiver’s antenna main beam would cause an increase in the receiver’s system noise temperature, which, consequentially, may cause a degradation of service and even an outage.
About the Speaker:
Dr Andy D Kucar P2EE4 has >30 years of industrial experience, worldwide, working on: top-of-the-line special projects and design of advanced terrestrial and satellite wireless radio equipment for oil/nafta/gas, aviation, transportation, TV, PTT, Baby Bells, dispatch and delivery, service industries, governments, etc. His affiliations include (d): Zagreb University, Radioindustrija Zagreb, Iskra/ITT, Ottawa University, BCE: Telesat, BCE: Bell Northern Research (now Nortel), KFUPM, and since 1990 4U Comm > www.radio4u.com, where he serves as a co-founder and senior manager.
Blind Modulation Classification: A Concept Whose Time Has Come
Speaker: Dr. Octavia A. Dobre, Faculty of Engineering and Applied Science, Memorial University of Newfoundland, St. John’s, NL, Canada
DATE: Wednesday March 26, 2008.
TIME: Refreshments, Registration and Networking: 06:45 p.m.; Seminar: 07:00 p.m. – 08:30 p.m.
PLACE: University of Ottawa, School of Information Technology and Engineering (SITE), Boardroom, 5th floor,
800 King Edward Avenue, Ottawa, Ontario, Canada, For direction to SITE click here on the map.
Admission: Free. Registration required. To ensure a seat, please register by e-mail contacting:
Wahab Almuhtadi at almuhtadi@ieee.org.
Abstract
In a world of rapid growth of commercial wireless services, accommodating the explosive demand for spectrum access, efficiency and reliability becomes increasingly technically challenging. A solution is provided by flexible cognitive and intelligent radios, which sense the environment and respond intelligently, without explicit pre-configuration to define their functions. Furthermore, implementation of advanced information services for military applications in a crowded electromagnetic spectrum is a challenging task for communication engineers. Friendly signals should be securely transmitted and received, whereas hostile signals must be located, identified and jammed. The spectrum of these signals may range from HF to millimeter frequency band and their format can vary from simple narrowband modulations to wideband schemes. Under such conditions, advanced techniques are required for real-time signal intelligence, vital for decisions involving electronic warfare operations. This has created the need for flexible cognitive and intelligent radio systems, which employ advanced signal processing techniques. A major task of such radios is signal identification, which can encompass signal detection, separation, parameter estimation, modulation classification, etc..
Modulation classification is an intermediate step between signal detection and demodulation. This is a challenging task, especially in non-cooperative environments, since in addition to complex channels; there are many unknown parameters, such as symbol timing, and carrier phase and frequency. This talk focuses on techniques to tackle the blind modulation classification problem. The state-of-the-art in this research area is first reviewed. Signal cyclostationarity-based techniques are then introduced. Digital and analog, single- and multi-carrier modulations are considered. Single- and multiple-receive antenna cyclostationarity-based classifiers are presented. The talk concludes by outlining new and challenging problems in the dynamic research field of blind signal identification.
About the Speaker:
Octavia A. Dobre received the Diploma of Engineer and Ph. D. degrees in Electrical Engineering from the Polytehnic University of Bucharest, Romania, in 1991 and 2000, respectively. In 2000 she was the recipient of a British Royal Society fellowship at Westminster University, UK. In 2001 she joined the Wireless Information Systems Engineering Laboratory at Stevens Institute of Technology, US, as a Fulbright fellow. Between 2002 and 2005 she was a Research Associate with the Department of Electrical and Computer Engineering, New Jersey Institute of Technology, US, where she collaborated with US Army CECOM. Currently she is an Assistant Professor with the Faculty of Engineering and Applied Science at Memorial University, Canada. She has published over 25 research papers, authored over 10 technical reports, served as a reviewer for several international journals and conferences in the area of signal processing and wireless communications and as a member of the Technical Program and Organizing Committees of a number of IEEE conferences, such as ICC 2005 and CCECE 2009, respectively. She has given several invited talks to academia and industry, including Illinois Institute of Technology and Drexel University, US, and CRC and DRDC, Canada. Her current research interests include blind modulation classification and parameter estimation techniques, cognitive radio, multi-antenna systems, multicarrier modulation techniques, cyclostationarity applications in communications and signal processing, and resource allocation in emerging wireless networks.
2007
Advances in Wireless Sensor Networks
Speaker: Dr. Hussein T. Mouftah, Canada Research Chair and Distinguished University Professor SITE, University of Ottawa, Ottawa, Ontario, Canada
DATE: Wednesday February 27, 2008.
TIME: Refreshments, Registration and Networking: 06:45 p.m.; Seminar: 07:00 p.m. – 08:30 p.m.
PLACE: Algonquin College, 1385 Woodroffe Ave., School of Advanced Technology, Building-T, Room T129.
PARKING: No fee after 5:00 p.m. at the Visitors’ Parking Lots 8 & 9. Please respect restricted areas.
Admission: Free. Registration required. To ensure a seat, please register by e-mail contacting:
Wahab Almuhtadi at almuhtadi@ieee.org.
Abstract
In recent years, advances in miniaturization; low-power circuit design; simple, low power, yet reasonably efficient wireless communication equipment; and improved small-scale energy supplies have combined with reduced manufacturing costs to make a new technological vision possible: Wireless sensor networks. A sensor network is composed of a large number of sensor nodes, which are densely deployed either inside the phenomenon or very close to it. The position of nodes need not be engineered or pre-determined. This allows random deployment in inaccessible terrains or disaster relief operation. We will present an overview of advances in wireless sensor networks technology and its future trends and its applications.
About the Speaker:
Hussein Mouftah joined the School of Information Technology and Engineering (SITE) of the University of Ottawa in September 2002 as a Canada Research Chair (Tier 1) Professor in Optical Networks, where he became a Distinguished University Professor in February 2006. He has been with the Department of Electrical and Computer Engineering at Queen’s University (1979-2002), where he was prior to his departure a Full Professor and the Department Associate Head. He has three years of industrial experience mainly at Bell Northern Research of Ottawa, now Nortel Networks (1977-79). He has spent three sabbatical years also at Nortel Networks (1986-87, 1993-94, and 2000-01), always conducting research in the area of broadband packet switching networks, mobile wireless networks and quality of service over the optical Internet. He served as Editor-in-Chief of the IEEE Communications Magazine (1995-97) and IEEE Communications Society Director of Magazines (1998-99), Chair of the Awards Committee (2002-2003) and Director of Education (2006-). He is a Distinguished Speaker of the IEEE Communications Society since 2000. Dr. Mouftah is the author or coauthor of five books, 24 book chapters and more than 800 technical papers and 9 patents in this area. He is the joint holder of the Best Paper Award for papers presented at the IEEE ICC’2005 Optical Networking Symposium and SPECTS’2002, and the Outstanding Paper Award for papers presented at the IEEE HPSR’2002 and the IEEE ISMVL’1985. Also he is the joint holder of a Honorable Mention for the Frederick W. Ellersick Price Paper Award for Best Paper in the IEEE Communications Magazine in 1993. He is the recipient of numerous prestigious awards, such as the 2006 IEEE Canada McNaughton Medal, the 2006 Engineering Institute of Canada (EIC) Julian Smith Medal, the 2004 IEEE Communications Society Edwin Howard Armstrong Achievement Award, the 2004 George S. Glinski Award for Excellence in Research of the University of Ottawa Faculty of Engineering, the 1989 Engineering Medal for Research and Development of the Association of Professional Engineers of Ontario (PEO), and the Ontario Distinguished Researcher Award of the Ontario Innovation Trust. He is also the recipient of the IEEE Canada (Region 7) Outstanding Service Award (1995) and the 2006 CSIM Distinguished Service Award of the IEEE Communications Society. Dr. Mouftah is a Fellow of the IEEE (1990), Fellow of the Canadian Academy of Engineering (2003) and Fellow of the Engineering Institute of Canada (2005).
Micro-power Integrated Circuits and Systems
Speaker: Prof. Anantha Chandrakasan, Director of the MIT Microsystems Technology Laboratories, MA
Date: Thursday, Dec. 20, 2007, 2:00pm – 3:30pm
Place: 5050MC (Minto Center), Carleton University, 1125 Colonel By Drive, Ottawa
Organized by: IEEE Ottawa SSCS Chapter and ComSoc/BTS/CES Joint Chapter
Contact: Sreedhar Natarajan sn@ieee.org, Ram Achar achar@doe.carleton.ca, Wahab Almuhtadi almuhtadi@ieee.org
Abstract:
Energy efficient system design requires systematic optimization at all levels of the design abstraction ranging from devices and circuits to architectures and algorithms. The design of micro-power systems will enable operation using energy scavenging. A major opportunity to reduce the power dissipation of digital circuits is to scale the power supply voltage below the device thresholds (i.e., sub-threshold operation). The opportunities and challenges associated with sub-threshold design will be presented. This includes variation-aware design for logic and SRAM circuits, efficient DC-DC converters for ultra-low-voltage delivery, and algorithm structuring to support extreme parallelism. A number of integrated circuit examples that demonstrate sub-threshold operation will be presented. Other power management techniques such as ultra-dynamic-voltage scaling, fine-grained power gating and 3-D integration will be discussed. The use of highly digital architectures for wireless communication circuits can also significantly reduce system energy dissipation. Specific examples of power management will be presented, focusing on wireless sensor networks and impulse based ultra-wideband communications as drivers.
About the Speaker:
Anantha P. Chandrakasan received the B.S, M.S. and Ph.D. degrees in Electrical Engineering and Computer Sciences from the University of California, Berkeley, in 1989, 1990, and 1994 respectively. Since September 1994, he has been with the Massachusetts Institute of Technology, Cambridge, where he is currently the Joseph F. and Nancy P. Keithley Professor of Electrical Engineering. He was a co-recipient of several awards including the 1993 IEEE Communications Society’s Best Tutorial Paper Award, the IEEE Electron Devices Society’s 1997 Paul Rappaport Award for the Best Paper in an EDS publication during 1997, the 1999 DAC Design Contest Award, the 2004 DAC/ISSCC Student Design Contest Award, and the ISSCC 2007 Beatrice Winner Award for Editorial Excellence. His research interests include low-power digital integrated circuit design, wireless microsensors, ultra-wideband radios, and emerging technologies. He is a co-author of Low Power Digital CMOS Design (Kluwer Academic Publishers, 1995), Digital Integrated Circuits (Pearson Prentice-Hall, 2003, 2nd edition), and Sub-threshold Design for Ultra-Low Power Systems (Springer 2006). He is also a co-editor of Low Power CMOS Design (IEEE Press, 1998), Design of High-Performance Microprocessor Circuits (IEEE Press, 2000), and Leakage in Nanometer CMOS Technologies (Springer, 2005). He has served as a technical program co-chair for the 1997 International Symposium on Low Power Electronics and Design (ISLPED), VLSI Design ’98, and the 1998 IEEE Workshop on Signal Processing Systems. He was the Signal Processing Sub-committee Chair for ISSCC 1999-2001, the Program Vice-Chair for ISSCC 2002, the Program Chair for ISSCC 2003, and the Technology Directions Sub-committee Chair for ISSCC 2004-2007. He was an Associate Editor for the IEEE Journal of Solid-State Circuits from 1998 to 2001. He served on SSCS AdCom from 2000 to 2007 and he was the meetings committee chair from 2004 to 2007. He is the Technology Directions Chair for ISSCC 2008. He is the Director of the MIT Microsystems Technology Laboratories.Go to Top
Cooperative and Opportunistic Communications
Speaker: Behnaam Aazhang, distinguished lecturer
Date: July 30, 2007.
Contact: Burt Christian at b.christian@ieee.orgGo to Top
2006
Air Interfaces for Future-Generation Wireless Systems
Speaker: Dr. David Falconer
Date: April 18, 2006
Contact: zahir@ieee.orgGo to Top
VoIP PBXs for Small and Multi-Location Businesses
Speaker: Ron Reddick
Date: May 3, 2006
Contact: zahir@ieee.orgGo to Top
Introduction to Turbo Equalization
Speaker: Maryam Sabbaghian
Date: May 15, 2006
Contact: zahir@ieee.orgGo to Top
A Unified view of iterative (“Turbo”) Receivers and Decoders
Speaker: Dr. Ezio Biglieri
Date: September 27, 2006
Contact: zahir@ieee.org, b.christian@ieee.orgGo to Top
1. A Brief Overview of the European Union WINNER Projects
2. WINNER Channel Model; Challenges in MIMO System Testing
Speakers: 1. Dr. David Falconer, 2. Pekka Kyosti and Yuha Ylitalo
Date: October 19, 2006
Contact: zahir@ieee.org, b.christian@ieee.orgGo to Top
2005
OWRA/IEEE COMSOC/NCIT/CRC Seminar Day
“Wireless Applications”
Program Chair: Bahram Zahir, zahir@ieee.org
Program Co-Chair: Maike Luiken Miller, maike.miller@ieee.org
DATE: Wednesday, June 22, 2005
LOCATION: CRC Auditorium, 3701 Carling Ave., Ottawa
(CRC is a secure site – All attendees must sign in at CRC Reception Centre)
Registration The theme of our seminar, Wireless Applications, highlights the importance that developing applications plays in improving the services and consequently enhancing the economic situation of the communications industry. We look forward to providing a forum for discussion and debate on current status of the research on wireless applications. Building on past experience and drawing from the insights of our members, a primary goal of this seminar is to further educate ourselves as to where the industry is headed, or should go. The security aspects, trust and privacy will be of great importance in this seminar. Along these lines, we have several speakers, from industry, government organizations or academia, who come forward and share with us their most recent research and development ideas, or products.
For directions to CRC, please visit:
http://www.crc.ca/en/html/crc/home/info_crc/contact/visitor_info
Program
8:00 – 8:30 Registration and Coffee, Continental Breakfast
8:30 – 8:35 Welcome
8:35 – 9:10 Current and Future Handheld Applications, Jason Flick, Flick Software
9:10 – 9:55 Mobile Payment, Mohammad Tanabian, Hivva Technologies
9:55 – 10:15 Coffee Break
10:15 – 11:00 Wireless Security through RF Fingerprinting, Nur Serinken, CRC
11:00 – 11:45 Mobilizing Applications: A few PWGSC Case Studies, Marek Dziedzic, PWGSC
11:45 – 12:00 Q & A
12:00 – 13:00 Lunch Break
13:00 – 13:45 Collaborative Leadership for Market Driven Success, Stephen Fry, i2p.biz
13:45 – 14:30 Mobile Applications with Digital Broadcasting, Francois Lefebvre, CRC
14:30 – 14:50 Coffee Break
14:50 – 15:35 Developing Remote Communication Wireless Networks, Harry Silverstone, EION
15:35 – 16:10 Middleware for Mobile Applications, Thomas Kunz, Carleton University
16:10 – 16:55 Q & A
16:55 – 17:30 Panel
ABSTRACTS & BIOS
Current and Future Handheld Applications, Jason Flick, Flick Software
Abstract: This presentation will give an overview of both personal and enterprise handheld/wireless applications that are available and yet to be developed. It will also cover the breath of device types available and look into some of the future devices yet to be commercialized.
Bio: Jason Flick is the President and Chief Technology Officer of the mobile technology and solutions company, Flick Software. He has 15 years of technical leadership experience in mobile and handheld technology, and has held board positions at a number of technology companies and not-for-profit organizations. Jason enjoys exploring the latest advancements in mobility, and has focused on helping customers understand how to harness its’ usefulness to generate value in their businesses.
Mobile Payment as a Wireless Application, Mohammad Tanabian, MBA, Hivva Technologies
Abstract: Mobile payment as a wireless application has been on wish list of many wireless operators and wireless subscribers alike. Over the last decade, the idea of using a mobile phone as a payment medium, a data retrieval device and as a personal companion has seen hype of support and at times, wave of criticism. This presentation will give an overview of today’s electronic payment solutions and shows how mobile payment can fill a gap that they haven’t been able to address. It also introduces some of the available mobile payment solutions that are being commercially deployed today.
Bio: Mohammad Tanabian is the President and one of the co-founders of Hivva Technologies. He has a number of patents in m-commerce, mobile payment, point of sales collaboration and location based services. Mohammad holds a Bachelor of Engineering, A Master of Science from Carleton University and an MBA from Queen’s university.
Wireless Security through RF Fingerprinting, Nur Serinken, PhD., CRC
Abstract: The process to identify radio transmitters by examining their unique transient characteristics at the beginning of transmission is called “RF fingerprinting”. The security of wireless networks can be enhanced by challenging a user to prove its identity if the fingerprint of a network device is unidentified or deemed to be a threat. In this talk, the identification problem of an individual node in a wireless network using its RF fingerprint will be addressed. A complete identification system, including data acquisition, transient detection, RF fingerprint extraction and classification subsystems, will be presented. The system performance results based on the real data acquired using the test bed at Communications Research Centre will be highlighted.
Bio:
Employment: 1981 to Present CRC- Ottawa, 1977-1981- Bell Northern Research -Ottawa, 1974-1977- General Electric Research Centre Wembley UK
Areas of interest and past research topics: Transmitter identification for security, Research into radio packet data transmission systems, for HF, VHF and UHF channels, Facsimile data transmission over radio, Secure identification
documents, secure facsimile systems, Large area flat LCD displays, Meteor burst communications.
Education: Ph.D E.E. 1974, M.Sc. E.E 1971, B.Sc. E.E 1969
Mobilizing Applications: A few PWGSC Case Studies, Marek Dziedzic, PWGSC
Abstract: Over the last few years a number of attempts was made to implement mobile applications within the PWGSC environment. This presentation discusses a few of these trials and explores the successes and challenges of these implementations.
Bio: Marek Dziedzic has extensive experience in Telecommunications and Information Technology. He held various senior technical and management positions with telecommunications and hi-tech companies. He has extensive experience in network architecture, management and operations of large-scale national and international telecommunications networks and in management and operations of IT/IM. Recently, he led the Connectivity Initiative in Real Property Branch of Public Works and Government Services Canada, where, as part of his responsibilities, he is working on wireless and mobility solutions and on Building Automation Systems. He holds a Master’s degree in Electrical Engineering and is a certified Information Systems Professional (I.S.P.).
Collaborative Leadership for Market Driven Success, Stephen Fry, i2p.biz
Abstract: This presentation is designed to give the researcher and business participant an appreciation for key enablers for business success, including any endeavour relating to the wireless market. Collaboration is not only a technology, but a powerful approach to achieving business success. Identifying a real market opportunity, developing a solution and a plan to execute, and gathering the resources to succeed are critical elements of successful ventures.
Bio:Steve Fry PEng has a strong IT and communications sales/engineering background with Nortel in Canada and the USA which he is now successfully applying to commercialization consulting projects. Steve’s quiet practical approach to technical sales and implementation processes help users develop confidence in execution of new product offerings.
Mobile Applications with Digital Broadcasting, Francois Lefebvre, CRC
Abstract: Digital broadcasting technologies like DAB, DMB and DVB-H are currently attracting a lot of attention in the mobile telecommunication industry. Projected networks will combine 3G one-to-one communication channels with one-to-many broadcast downlinks to deliver new services. On the end-user side, multi-radio handsets will provide flexible access, storage and rendering capabilities for multimedia-rich applications. This presentation will give an overview of these new systems and applications while focusing on convergence aspects.
Bio: Mr. Lefebvre has 15 years of R&D experience in multimedia systems and applications. He joined the Broadcast Technology branch at the Communications Research Centre in 1999 and is currently leading the Mobile Multimedia Broadcasting project. His most recent works focus on converging technologies built on DAB/DMB, Internet and personal wireless communications systems. He holds a Master’s degree in Electrical Engineering from Laval University.
Developing Remote Communication Wireless Networks, Harry Silverstone, MBA, EION
Abstract: Deploying Wireless Network Infrastructure in Remote and Rural Communities has technical and business challenges. It entails understanding the local needs, their current abilities, along with developing an economically viable solution. This presentation will explore some of the concerns, considerations and how EION is addressing them.
Bio: Director Technology & Business Development Mr. Harry Silverstone has a solid track record in the Data Networking industry, and brings extensive experience from Nortel Networks, Bay Networks and Digital Equipment Corp. Mr. Silverstone has a thorough understanding of IP protocols and Broadband Access technologies. Through his combined technical, marketing and customer skills, he has designed and installed WAN and LAN networks worldwide, improved product quality, developed RFCs, and provided internal and external wired and wireless training. Mr. Silverstone holds a Bachelor of Computer Science from the University of New Hampshire and an Executive MBA from the University of Ottawa.
Middleware for Mobile Applications, Thomas Kunz, Carleton University
Abstract: While traditional middleware technology has shown great suitability for fixed distributed systems, it does not offer much help for dealing with the dynamic aspects of mobile applications. Challenges from mobile computing applications indicate the need for defining a new architecture for distributed systems. The new architecture should be able to address many of the limitations exposed by emerging mobile applications. This talk sheds some light on the concept of middleware and its relations with mobile applications. It defines the major constraints posed by mobile computing systems and presents a detailed analysis of static and dynamic requirements to evaluate the traditional and modern middleware solutions, respectively. We also provide a general overview of traditional and modern middleware solutions, and discuss several implementations of both paradigms against these.