THE IMPLEMENTATION OF HIGH EFFICIENCY WIRELESS SENSOR IN ACOUSTIC OBJECT TRACKING

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International Journal on Smart Sensing and Intelligent Systems

Professor Subhas Chandra Mukhopadhyay

Exeley Inc. (New York)

Subject: Computational Science & Engineering , Engineering, Electrical & Electronic

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VOLUME 8 , ISSUE 4 (December 2015) > List of articles

THE IMPLEMENTATION OF HIGH EFFICIENCY WIRELESS SENSOR IN ACOUSTIC OBJECT TRACKING

ChengFang Zhen * / Wenyi LIU * / Hanming WEI *

Keywords : Wireless sensor network, scalable architecture, energy-equalize, power control.

Citation Information : International Journal on Smart Sensing and Intelligent Systems. Volume 8, Issue 4, Pages 1,997-2,017, DOI: https://doi.org/10.21307/ijssis-2017-840

License : (CC BY-NC-ND 4.0)

Received Date : 11-August-2015 / Accepted: 03-November-2015 / Published Online: 03-December-2015

ARTICLE

ABSTRACT

Energy control in Wireless Sensor Network is one of the most crucial technologies. Based on the acoustic object localization background, we designed a new structure of the sensor node to realize the energy efficiency in the power supply and artificial sleeping scheduling in this paper. The power control model is independent with data processing and control model and can separately realize the power supply for different part of the node. The node can transfer status according the different circumstance to minimize the energy consumption. Furthermore, a new synchronous sleeping/wake schedule mechanism in the medium access control layer is proposed. Sensor nodes can use the forwarding and listening status to schedule their better energy status on demanded. The experiment has been evaluated and analyzed in a test-bed. The result confirms the structure and the proposed mechanism are energy efficiency and gain better trade-off between the accuracy and efficiency.

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REFERENCES

[1] Gyula, Marklos, Maroti, Sensor network-based counter sniper system, Proceedings of the 2nd International Conference on Embedded Networked Sensor Systems, ACM, NY, USA (2004 ) 1-12;
[2] Junfeng Qiao, Sanyang Liu , and Xiaogang Qi, Transmission Power Control in Wireless Sensor Networks under the Minimum Connected Average Node Degree Constraint, International Journal on Smart and Intelligent Systems, 2015,8(1),801-821.
[3]HUANG Zhiwei, ZHENG Zimu, LI Zhicheng and PENG Xinyi,
Connectivity-aware Topology Control with Cyclic-like Structures in Wireless Sensor Networks, International Journal on Smart and Intelligent Systems, 2014,7(4), 1663-1682.
[4] Miguel S. Familiar, José F. Martínez, Pervasive Smart Spaces and Environments: A Service-Oriented Middleware Architecture for Wireless Ad Hoc and Sensor Networks, International Journal of Distributed Sensor Networks Volume 2012
[5] A. Aroraa, P. Duttaa,A line in the sand: a wireless sensor network for target detection, classification, and tracking ,Computer Networks, Volume 46, Issue 5, 5 December (2004)605–634
[6] IF Akyildiz, W Su, Y Sankarasubramaniam, E. Cayirci, Wireless sensor networks: a survey, Computer Networks 39 (2002) 393–422.
[7] Alessandra Flamminia, Paolo Ferrari, Wired and wireless sensor networks for industrial applications, Microelectronics Journal, Volume 40, Issue 9, September 2009, Pages 1322–1336
[8] Zoran M, Saric • Dragan D, Kukolj, Acoustic Source Localization in Wireless Sensor Network, Circuits System Signal Process (2010) 29: 837–856
[9] Frost G P. Sizing up smart dust. Computing in Science & Engineering, (2003)5(6): 6–9.
[10] J. Rabaey R. Broderson, Pico radio: Communication/Computation Pico nodes for Sensor Networks, NTIS Technical Reports Newsletter, Jan (2003)
[11] http://www.cens.ucla.edu/P~~ject-Descriptions/Sensor??ZOPlatform/approach.htm
[12] Sung Park, Design of a Wearable Sensor Badge for Smart Kindergarten, Proceedings of International Symposium on Wearable Computers, October (2002), 231-238
[13] Pushpin: http://www.media.mit.edu/resenv/PushpiniWebSite.
[14] F.M. Costa, H. Ochiai, A comparison of modulations for energy optimization, in: Wireless Sensor Network Links, IEEE Global Telecommunications Conference, 2010, pp. 1–5.
[15] S. Cui, A. Goldsmith, A. Bahai, Energy-constrained modulation optimization, IEEE Trans. Wireless Commun. 4 (5) (2005) 2349–2360.
[16] S. Lin, J. Zhang, G. Zhou, L. Gu, J.A. Stankovic, T. He, ATPC: adaptive transmission power control for wireless sensor networks, in: 4th Int. Conf. on Embedded networked sensor systems, 2006, pp. 223–236.
[17] L.H. Correia, D.F. Macedo, A.L. dos Santos, A.A. Loureiro, J.M.S. Nogueira, Transmission power control techniques for wireless sensor networks, Computer. Network. 51 (17) (2007) 4765–4779.
[18] E. Fasolo, M. Rossi, J. Widmer, M. Zorzi, In-network aggregation techniques for wireless sensor networks: a survey, IEEE Wireless Commun. 14 (2) (2007) 70–87.
[19] N. Kimura, S. Latifi, A survey on data compression in wireless sensor networks, in: Int. Conf. on Information Technology: Coding and Computing, Las Vegas, NV, 2005, pp. 8–13.
[20] R. Carrano, D. Passos, L. Magalhaes, C. Albuquerque, Survey and taxonomy of duty cycling mechanisms in wireless sensor networks, IEEE Commun. Surv. Tutorials 16 (1) (2014) 181–194.
[21] C. Ranhotigamage and S. C. Mukhopadhyay, “Field Trials and Performance Monitoring of Distributed Solar Panels Using a Low Cost Wireless Sensors Network for Domestic Applications”, IEEE Sensors Journal, Vol. 11, No. 10, October 2011, pp. 2583-2590.
[22] H. Ba, I. Demirkol, W. Heinzelman, Passive wake-up radios: from devices to applications, Ad Hoc Netw. 11 (8) (2013) 2605–2621.
[23] S. Misra, M.P. Kumar, M.S. Obaidat, Connectivity preserving localized coverage algorithm for area monitoring using wireless sensor networks, Comput. Commun. 34 (12) (2011) 1484–1496.
[24] A. Liu, J. Ren, X. Li, Z. Chen, X.S. Shen, Design principles and improvement of cost function based energy aware routing algorithms for wireless sensor networks, Comput. Netw. 56 (7) (2012) 1951–1967.
[25] Y.M. Lu, V.W.S. Wong, An energy-efficient multipath routing protocol for wireless sensor networks, Int. J. Commun. Syst. 20 (7) (2007) 747–766.

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