Page History: SeminarsSpring2011
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Spring 2011 Presentation Schedule for CISTER Seminar Series
Weekly meetings will be held Fridays, 12PM
Previous Seminars
Feb 25 - Aida Ehyaei, ISEP, Portugal - Scalable Data Acquisition for Densely Instrumented Cyber-Physical Systems
Talk abstract: Consider the problem of designing an algorithm for acquiring sensor readings. Consider specifically the problem of obtaining an approximate representation of sensor readings where (i) sensor readings originate from different sensor nodes, (ii) the number of sensor nodes is very large, (iii) all sensor nodes are deployed in a small area (dense network) and (iv) all sensor nodes communicate over a communication medium where at most one node can transmit at a time (a single broadcast domain). We present an efficient algorithm for this problem, and our novel algorithm has two desired properties: (i) it obtains an interpolation based on all sensor readings and (ii) it is scalable, that is, its time-complexity is independent of the number of sensor nodes. Achieving these two properties is possible thanks to the close interlinking of the information processing algorithm, the communication system and a model of the physical world.
Speaker Bio.: Aida Ehyaei received her MSc. and BSc. degree in Electrical engineering from Isfahan University of technology, Iran. She is a PhD student in FEUP and does her research in CISTER Research Unit from September 2009. Currently, her research is in the field of Cyber Physical Systems.
Talk slides:
pdf
March 4 - Claro Noda, ISEP, Portugal - Channel Quality Metric for Interference-aware WSN
Talk abstract:WSN operate in ISM bands and share the spectrum with other wireless technologies, thus interference is a relevant problem.
In order to minimise its effect nodes can dynamically adapt radio resources to accommodate network traffic, provided information about spectrum usage is available. We present a new channel quality metric that is based on availability of the channel over time.
We do experiments to investigate its parameter space and also show our metric has strong correlation with Packet Reception Rate.
This suggest that quantifying interference in the channel can help in adapting radio resources to boost reliability and bound latency in packet delivery. We then entertain some resource adaptation techniques where the metric can help optimising them according to the channel condition.
Speaker Bio.:Claro Noda graduated in Physics from University of Havana, Cuba in 1996. He worked in Scientific Instrumentation at the Superconductivity Laboratory, IMRE (1996-2001) where he completed his Master in Physical Sciences in 2000 and later continued research activities at the "Henri Poincaré" Complex Systems Group. He has also taught at the General Physics Department in the Faculty of Physics in Havana (2005-2008). Currently he's a MAP-Tele PhD student at University of Minho and a researcher at CISTER/ISEP, Portugal.
March 11 - Gurulingesh Raravi, ISEP, Portugal - Assigning Real-Time Tasks on a Two-type Heterogeneous Multiprocessor Platform
Talk abstract:Consider the problem of scheduling a set of implicit-deadline sporadic tasks on a heterogeneous multiprocessor platform to meet all deadlines. Tasks cannot migrate and each processor is either of type-1 or type-2 (with each task having different execution speed on each processor type).
We present a new algorithm, FF-3C, for this problem. FF-3C offers low time-complexity and provably good performance. Specifically, (i) its time-complexity is O(n * max(m; log n)), where n is the number of tasks and m is the number of processors and (ii) it offers the guarantee that if a task set can be scheduled by an optimal task assignment scheme to meet deadlines then FF-3C meets deadlines as well if given processors twice as fast. We also present several extensions to FF-3C; these offer the same time-complexity and performance guarantee as that of FF-3C but in addition, they offer improved average-case performance.
Via experiments with randomly generated task sets, we compare the performance of our new algorithms and two established state-of-art algorithms (and variations of the latter). We evaluate algorithms based on
(i) running time and (ii) the necessary multiplication factor, i.e., the amount of extra speed of processors the algorithm needs, for a given task set, so as to succeed, compared to an optimal task assignment scheme.
Overall our new algorithms compare favorably to the state-of-art. One in particular (FF-4CCOMB), in our experimental evaluations, runs 12000 to 160000 times faster and has significantly smaller necessary multiplication factor than state-of-art algorithms.
Speaker Bio.:Gurulingesh Raravi finished his Masters Degree at IIT Bombay in 2005. He has three years of working experience. Currently, he is pursuing PhD in the area of Real-Time Scheduling on Heterogeneous Multiprocessor Platform.
Talk slides:
pdf
Following Seminars
March 18 - Vikram Gupta, ISEP, Portugal - Nano-CF: A Coordination Framework for Macro-programming in Wireless Sensor Networks
Talk abstract: Wireless Sensor Networks (WSN) are being used for a number of applications involving infrastructure monitoring, building energy monitoring and industrial sensing. The difficulty of programming individual sensor nodes and the associated overhead have encouraged researchers to design macro-programming systems which can help program the network as a whole or as a combination of subnets.
In this paper, we propose a maro-programming framework called Nano-CF, which, in addition to supporting in-network programming, allows multiple applications written by different programmers to be executed simultaneously on a sensor networking infrastructure. This framework enables the use of a common sensing infrastructure for a number of applications without the users being concerned about the applications already deployed on the network. The framework also supports timing constraints and resource reservations using the Nano-RK
operating system. Nano-CF is efficient at improving WSN performance by
(a) combining multiple user programs,
(b) aggregating packets for data delivery, and
(c) satisfying timing and energy specifications using Rate-Harmonized Scheduling.
Using representative applications, we demonstrate that Nano-CF
achieves 90% reduction in Source Lines-of-Code (SLoC) and 50% energy
savings from aggregated data delivery
Speaker Bio.:Vikram Gupta is a PhD candidate in Electrical and Computer Engineering in the Carnegie Mellon University (CMU) - Portugal joint program beginning August 2008 and is supervised by Prof. Raj Rajkumar (ECE-CMU) and Prof. Eduardo Tovar (ISEP-IPP). His current research includes developing clock synchronization methods for Wireless Sensor Networks. Before joining PhD program, he was working as a research associate at Indian Institute of Technology (I.I.T.) Delhi, India, where he focussed on Performance Assessment and Interoperability of WiMAX (802.16) on a Campus based Test Bed. He received his degree of Bachelor of Technology from National Institute of Technology (V.N.I.T.) Nagpur India in May 2007.
March 25 - Paulo Balrarejo Sousa, ISEP, Portugal
April 1 - Hossein Fotouhi, ISEP, Portugal
April 8 - Ricardo Severino, ISEP, Portugal
April 15 - Antonio Barros, ISEP, Portugal
April 29 - Dakshina Dasari, ISEP, Portugal
May 6 - Maryam Vahabi, ISEP, Portugal
May 13 - Jose Marinho, ISEP, Portugal
May 20 - Artem Burmyakov, ISEP, Portugal
May 27 - Ricardo Garibay-Martinez, ISEP, Portugal
June 3 - Muhammad Ali Awan, ISEP, Portugal
June 17 - Borislav Nikolic, ISEP, Portugal
June 24 - Suhas Aggarwal, ISEP, Portugal
July 1 - Konstiantyn Berezovskyi, ISEP, Portugal
July 8 - Hazem Ali, ISEP, Portugal
July 15 - Claudio Maia, ISEP, Portugal