Citations: Low-Power Wireless Sensor Networks - Min, Bhardwaj, Cho, Sinha, Shih, Wang, Chandrakasan (ResearchIndex)

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R. Min, M. Bhardwaj, S. Cho, E. Shih, A. Sinha, A. Wang and A. Chandrakasan,, "Low-power wireless sensor networks", Proc. 14th Int'l Conf. on VLSI Design, Bangalone, India, pp. 205-210, January 2001.

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Optimal Energy Aware Clustering in Sensor Networks - Ghiasi, Srivastava, Yang.. (2002) (1 citation) (Correct)

....on sensor networks especially in a power aware fashion is extremely important. 3,4,5] are some of the publications in this direction. 4] studies online power aware routing in large sensor networks. They seek to optimize the system lifetime and develop and approximation algorithm to achieve this. [1,7,13] emphasize the importance of low power communication, computation and partitioning (clustering) in sensor networks. In this paper we look at the theoretical aspects of the sensor node clustering problem. The proposed algorithms could be used for partitioning the sensor nodes into subgroups for ....

Min, R.; Bhardwaj, M.; Cho, S. H.; Sinha, A.; Shih, E.; Wang, A.; Chandrakasan, A. Low Power Wireless Sensor Networks, Proc. of VLSI Design 2001.

An Efficient Clustering-based Heuristic for Data.. - Dasgupta, Kalpakis.. (Correct)

....that the proposed algorithms significantly outperform previous methods, in terms of system lifetime. I. INTRODUCTION The recent advances in micro sensor technology and low power analog digital electronics, have led to the development of distributed, wireless networks of sensor devices ( 9] [17], 18] Sensor networks of the future are envisioned to consist of hundreds of inexpensive nodes, that can be readily deployed in physical environments to collect useful information (e.g. seismic, acoustic, medical and surveillance data) in a robust and autonomous manner. However, there are ....

R. Min, M. Bhardwaj, S.H. Cho, A. Sinha, E. Shih, A. Wang, and A.P. Chandrakasan. Low-Power Wireless Sensor Networks. In VLSI Design, 2001.

Efficient Algorithms for Maximum Lifetime Data.. - Kalpakis, Dasgupta.. (2002) (5 citations) (Correct)

....networks, data gathering, data aggregation, energy efficient protocols, lifetime, maximum flow, minimum cut. I Introduction The recent advances in micro sensor technology and low power analog digital electronics, have led to the development of distributed, wireless networks of sensor devices [11, 19, 20]. Sensor networks of the future are envisioned to consist of hundreds of inexpensive nodes, that can be readily deployed in physical environ ments to collect useful information (e.g. seismic, acoustic, medical and surveillance data) in a robust and autonomous manner. However, there are several ....

R. Min, M. Bhardwaj, S.H. Cho, A. Sinha, E. Shih, A. Wang, and A.P. Chandrakasan. Low-Power Wireless Sensor Networks. In VLSI Design, 2001.

System-Level Power-Aware Design Techniques in Real-Time Systems - Unsal, Koren (Correct)

....batteries and short transmission distances and they also have dynamic configurability and fault tolerance requirements. Taken together, those characteristics call for a unique power aware research agenda. Some of these issues are addressed in an overview paper on low power wireless networks [93]. Presenting several key technologies required for low power sensor network, the paper is a good introduction to the topic. Network concerns such as communication (at the physical, MAC, and network sublayers) routing and data forwarding are main research foci. We present here a short synopsis of ....

R. Min, M. Bhardwaj, S.-H. Cho, A. Sinha, E. Shih, A. Wang, A. Chandrakasan, "Low-Power Wireless Sensor Networks", Fourteenth International Conference on VLSI Design, Jan. 2001, pp. 205-210.

Improving the Lifetime of Sensor Networks via.. - Dasgupta, Kalpakis.. (2003) (1 citation) (Correct)

....Keywords: sensor networks, data gathering, data aggregation, energy efficient protocols, lifetime. i Introduction Recent advances in micro sensor (MEMS) technology and low power analog digital electronics, have led to the development of distributed, wireless networks of sensor devices [9, 15, 16]. Sensor networks of the future are envisioned to consist of hundreds of inexpensive nodes, that can be readily deployed in physical environments to collect useful information (e.g. seismic, acoustic, medical and surveillance data) in a robust and autonomous manner. However, there are several ....

R. Min, M. Bhardwaj, S.H. Cho, A. Sinha, E. Shih, A. Wang, and A.P. Chandrakasan. Low-Power Wireless Sensor Networks. In VLSI Design, 2001.

Topology-Aware Placement and Role Assignment for.. - Dasgupta, Kukreja.. (2003) (2 citations) (Correct)

....the development of miniscule sensing devices with computing and communicaton capabilities. Such smart sensors (physical, chemical and biomedical) can be readily deployed in diverse environments to form distributed wireless networks and collect useful information in a robust and autonomous manner [12, 18, 19, 21]. Potential applications of smart sensors are extensive and range from military surveillance, habitat monitoring and terrain exploration to biomedical applications like glucose monitoring and retina prosthesis. However, there are several obstacles that need to be overcome before this vision ....

R. Min, M. Bhardwaj, S.H. Cho, A. Sinha, E. Shih, A. Wang, and A.P. Chandrakasan. Low-Power Wireless Sensor Networks. In VLSI Design, 2001.

Intergated Micro-Instrumentation for Dynamic.. - Wang, Tang.. (2002) Self-citation (Wang) (Correct)

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R. Min, M. Bhardwaj, S.H. Cho, A. Sinha, E. Shih, A. Wang, and A. Chandrakasan, "Low-power wireless sensor networks," VLSI Design 2001.

Intergated Micro-Instrumentation for Dynamic.. - Wang, Tang.. (2002) Self-citation (Wang) (Correct)

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R. Min, M. Bhardwaj, S.H. Cho, A. Sinha, E. Shih, A. Wang, and A. Chandrakasan, "Low-power wireless sensor networks," VLSI Design 2001.

The Hardware and the Network: Total-System.. - Min, Bhardwaj.. (2002) (2 citations) Self-citation (Min) (Correct)

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R. Minet al., "Low-Power Wireless Sensor Networks," Proc. 14th lnt'l Conf on VLSI Design, Bangalore, India, Jan. 2001, pp. 205-210.

Does Proper Coding Make Single Hop Wireless - Sensor Networks Reality (2005) (Correct)

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R. Min, M. Bhardwaj, S. Cho, E. Shih, A. Sinha, A. Wang and A. Chandrakasan,, "Low-power wireless sensor networks", Proc. 14th Int'l Conf. on VLSI Design, Bangalone, India, pp. 205-210, January 2001.

Adaptive Filters for Continuous Queries over Distributed.. - Olston, Jiang, Widom (2003) (26 citations) (Correct)

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R. Min, M. Bhardwaj, S. Cho, A. Sinha, E. Shih, A. Wang, and A. Chandrakasan. Low-power wireless sensor networks. In Proc. Fourteenth International Conference on VLSI Design, 2001.

Distributed Top-K Monitoring - Babcock, Olston (2003) (13 citations) (Correct)

LORD: A Localized, Reactive and Distributed Protocol for Node .. - Ghosh, Givargis (Correct)

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R. Min, M. Bhardwaj, S. Cho, E. Shih, A. Sinha, A. Wang, and A. Chandrakasan. Low-power wireless sensor networks. In Keynote Paper ESSCIRC, Florence, Italy, 2002.

Embedment of Structural Monitoring Algorithms in a .. - Lynch.. (2003) (Correct)

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Min, R., Bhardwaj, M., Seong-Hwan Cho, Shih, E., Sinha, A., Wang, A. and Chandrakasan, A. (2001), "Lowpower wireless sensor networks", Proc. the 14th Int. Conf. on VLSI Design, IEEE, Bangalore, India.

Adaptive Filters for Continuous Queries over Distributed.. - Olston, Jiang, Widom (2003) (24 citations) (Correct)

Distributed Top-K Monitoring - Brian Babcock And (2003) (13 citations) (Correct)

Approximate Replication - Olston (2003) (Correct)

Optimal Energy Aware Clustering - Xiaojian Yang Soheil (Correct)

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R. Min, M. Bhardwaj, S.H. Cho, A. Sinha, E. Shih, A. Wang, and A. Chandrakasan. "Low-Power Wireless Sensor Networks". In Proc. of VLSI Design 2001.

Efficient and Fault-Tolerant Feature Extraction in.. - Krishnamachari, Iyengar (2003) (2 citations) (Correct)

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Rex Min, Manish Bhardwaj, Seong-Hwan Cho, Amit Sinha, Eugene Shih, Alice Wang, and Anantha Chandrakasan, "Low-Power Wireless Sensor Networks", VLSI Design 2000, January 2001.

Network Coverage Using Low Duty-Cycled Sensors: Random &.. - Hsin, Liu (2004) (2 citations) (Correct)

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Min, R., Bhardwaj, M., Cho, S.H., Shih, E., Sinha, A., Wang, A., Chandrakasan, A.: Low-power wireless sensor networks. In: IEEE Fourteenth International Conference on VLSI Design. (2001)

Approximate Replication - Olston (2003) (Correct)

Image Chipping with a Common Architecture for Microsensors.. - Scalera (2001) (1 citation) (Correct)

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R. Min, M. Bhardwaj, S.-H. Cho, A. Sinha, E. Shih, A. Wang, and A. Chandrakasan, "Lowpower wireless sensor networks," VLSI Design 2001.

Network Coverage Using Low Duty-Cycled Sensors: Random &.. - Hsin, Liu (2004) (2 citations) (Correct)

Distributed Algorithms for Tasking Large Sensor Networks - Mehrotra (2001) (2 citations) (Correct)

No context found.

R. Min, M. Bhardwaj, S.-H. Cho, A. Sinha, E. Shih, A. Wang, and A. Chandrakasan, "Lowpower wireless sensor networks," VLSI Design 2001.

Approximate Replication - Olston (2003) (Correct)

No context found.

R. Min, M. Bhardwaj, S. Cho, A. Sinha, E. Shih, A. Wang, and A. Chandrakasan. Low-power wireless sensor networks. In Proceedings of the Fourteenth International Conference on VLSI Design, Bangalore, India, January 2001.

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