Paper Titles

A New Conjugate Gradient Projection Method and its Application
p.3537

An Effective Image Fusion Method Based on Nonsubsampled Contourlet Transform and Pulse Coupled Neural Network
p.3542

Gene Prediction Based on One-Dimensional Image Segmentation
p.3549

Curriculum Schedule Arrangement Solved by an Improved Immune Optimization Algorithm
p.3556

A Localization Algorithm of Multi-Hop Three Dimensional AOA with Space-Based Angle Transmission and its Application
p.3562

Research on Node Localization Algorithm in WSN Basing Machine Learning
p.3568

Synchronous Optimization Method for Heterogeneous Database Based on the Minimal Data Set
p.3574

Blind Image Separation Based on an Optimized Fast Fixed Point Algorithm
p.3578

A Realization of Security Model on Unified Database Console
p.3584

HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 756-759A Localization Algorithm of Multi-Hop Three...

A Localization Algorithm of Multi-Hop Three Dimensional AOA with Space-Based Angle Transmission and its Application

Article Preview

Abstract:

Wireless sensor node's localization is a funda-mental technology in Wireless Sensor Networks. There are only quite a few study on three-dimensional (3D) localization which is suffered in slow progress, actually, is one of the main difficulties in WSN localization. Based on the study of the existing two-dimensional positioning algorithm and the application of terrain modeling, localization algorithm for sensor nodes in (3D) condition has been focus on as well as the application of terrain model. Using the idea proposed by representative algorithm--APS multi-hop AOA (Angle of Arrival), this paper proposed a new algorithm named Multi-hop Three Dimensional AOA With Space-based Angle Trans-mission (MSAT3D AOA). Using this technology, target nodes can use information of anchor nodes which are more than one hop away form. This paper also combined MSAT3D AOA algorithm with Delaunay triangulation algorithm for terrain modeling.

You might also be interested in these eBooks

Information Technology Applications in Industry, Computer Engineering and Materials Science

Info:

Periodical:

Advanced Materials Research (Volumes 756-759)

Pages:

3562-3567

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.756-759.3562

Citation:

Cite this paper

Online since:

September 2013

Authors:

Qing Zhang Chen, Yun Feng Ni, Xing Hua Li, Rong Jie Wu, Yan Jing Lei, Shuo Jin Fang

Keywords:

Angle Transmission, AOA, Terrain Modeling, Three Dimensional Localization, Wireless Sensor Network (WSN)

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

© 2013 Trans Tech Publications Ltd. All Rights Reserved

Share:

Citation:

[1] C.Y. Chong, S. Kumar. Sensor Networks: Evolution, Opportunities, and Challenges. Proc of the IEEE, 2003, 91(8): 1247-1256.

DOI: 10.1109/jproc.2003.814918

[2] Fan Maojun. Sensor Technology-Neurons of Information Technology Weapons and Equipment. Beijing: National Defence Industry Press, 2008, 154-156.

[3] G.Q. Mao, Baris Fidan, Brian D.O. Anderson. Wireless sensor network localization techniques. Computer Networks, 2007, 51, 2529-2553.

DOI: 10.1016/j.comnet.2006.11.018

[4] L.Q. Zhang, X.B. Zhou, Q. Cheng. Landscape-3D: A Robust Localization Scheme for Sensor Networks over Complex 3D Terrains. Proc of 2006 IEEE Conf on Local Computer Networks, 2006, 239-246.

DOI: 10.1109/lcn.2006.322106

[5] Y.H. Liu, J.H. Pu, Y. He, et al. Three-Dimensional Self-Localization Scheme for Wireless Sensor Networks. Journal of Beijing University of Aeronautics and Astronautics, 2008, 34(6): 647-651.

[6] R.H. Huan, Q. Z Chen, K.J. Mao, Y. Pan. A Three-dimension Localization Algorithm for Wireless Sensor Network Nodes Based on SVM. The 1st International Conf on Green Circuits and Systems (ICGCS), 2010, 651-654.

DOI: 10.1109/icgcs.2010.5542981

[7] S Roy, S Chatterjee, S Bandyopadhyay. Neighborhood Tracking and Location Estimation of Nodes in Ad Hoc Networks Using Directional Antenna: A Testbed Implementation. IEEE Proc of the Int Conf on Wireless Networks, Communications and Mobile Computing, 2005, 1-6.

DOI: 10.1201/9781420013238-7

[8] D Niculescu, B Nath. DV Based Positioning in Ad Hoc Networks. Journal of Telecommunication Systems, 2003, 22(1/4): 267-280.

[9] D Niculescu, B Nath. Ad hoc positioning system. IEEE GLOBECOM, 2001, 5: 2926-2931.

[10] S Capkun, M Hamdi, Hubaux J P. GPS-Free Positioning in Mobile Ad-hoc Networks. Proc of the 34th Annual Hawaii Int'l Conf on System Sciences, USA: IEEE Computer Society, 2001, 3481-3490.

DOI: 10.1109/hicss.2001.927202

[11] X.F. Wang, F.Q. Dai, F. Y Miao. Three-Dimensional Wireless Sensor Network Localization Algorithm Based on TOA. Automation and Instrumentation, 2008, 12: 1-9.

[12] L.M. Sun, J.Z. Li, Y. Chen. Wireless Sensor Networks. Beijing: TsingHua University Press, 2008, 140-155.

[13] D Niculescu, B Nath. Ad Hoc Positioning System (APS) Using AOA. Proc 22nd Annual Joint Conf of the IEEE Computer and Communication Societies (INFOCOM 2003), 2003, 3: 1734-1743.

DOI: 10.1109/infcom.2003.1209196

[14] X.B. Wu, S. X Wang, C. S Xiao. A New Study of Delaunay Triangulation Creation. AGEAS, 1999, 28(1): 28-35.

[15] Level Based Path Selection Technique in Large WSN for Hierarchical Architecture.

[16] Comparative Investigations on Performance of Routing Protocols in Presence of Realistic Radio Models for WSNs.

[17] Level Based Path Selection Technique in Large WSN for Hierarchical Architecture.

[18] Energy Efficient Key Management Protocol in Wireless Sensor Networks.

[19] Secure distribution of neural networks in wireless sensor networks.