Event Boundary Detection Method Based on Wireless Sensor Network and Linear Neural Network
WU Peng-Fei1,2, LI Guang-Hui1, ZHU Hong1, ZENG Song-Wei1, LU Wen-Wei1
1.School of Information Engineering, Zhejiang A&F University, Hangzhou 311300 2.School of Internet of Things, Nanjing University of Posts and Telecommunications, Nanjing 210003
Abstract:Environmental monitoring is a typical application in wireless sensor network (WSN), and event boundary detection is important for environmental monitoring. In this paper, a temporal-spatial data model of WSN is established, and then an event boundary detection method based on the linear neural network is presented. Firstly, the temporal correlation of data stream is analyzed, and the abnormal data set is determined based on linear neural network technique. Then, the event boundary is detected by using the spatial correlation of data stream between the neighbor nodes, and both the fault nodes and the event boundary nodes can be found. Thus, the location and the size of the event region can be estimated. Theoretical analysis and experimental results show that the proposed method has a high accuracy of fault node and event boundary detection and a low false positive rate.
[1] Krishnamachari B, Iyengar S. Distributed Bayesian Algorithms for Fault-Tolerant Event Region Detection in Wireless Sensor Network.Trans on Computers, 2004, 53(3): 241-250 [2] Meng J, Li H S, Han Z. Sparse Event Detection in Wireless Sensor Networks Using Compressive Sensing // Proc of the 43rd Annual Conference on Information Sciences and Systems. Baltimore, USA, 2009: 181-185 [3] Jain A K, Khare A, Pandey K K. Developing an Efficient Framework for Real Time Monitoring of Forest Fire Using Wireless Sensor Network // Proc of the 2ndInternational Conference on Parallel Distributed and Grid Computing. Solan, India, 2012: 811-815 [4] Zhang Y, Meratnia N, Havinga P. Outlier Detection Techniques for Wireless Sensor Networks: A Survey.Communications Surveys and Tutorials, 2010, 12(2): 159-170 [5] Segal M L, Antonio F P, Elam S, et al. Method and Apparatus for Automatic Event Detection in a Wireless Communication System: USA, US6124810 A. 2000-09-15 [6] Vu C T, Beyah R A, Li Y S. Composite Event Detection in Wireless Sensor Networks // Proc of theInternational Conference on Performance, Computing and Communications. New Orleans, USA, 2007: 264-271 [7] Werner-Allen G, Lorincz K, Ruiz M, et al. Deploying a Wireless Sensor Network on an Active Volcano.Internet Computing, 2006, 10(2): 18-25 [8] Bahrepour M, Meratnia N, Havinga P J M. Automatic Fire Detection: A Survey from Wireless Sensor Network Perspective. Technical Report, TR-CTIT-08-73. Enschede, The Netherlands: University of Twente, 2008 [9] Ding M, Chen D C, Xing K, et al. Localized Fault-Tolerant Event Boundary Detection in Sensor Networks // Proc of the 24th Annual Joint Conference of theComputer and Communications Societies. Miami, USA, 2005, II: 902-913
[10] Duh D R, Li S P, Cheng V W. Distributed Fault-Tolerant Event Region Detection of Wireless Sensor Networks[EB/OL]. [2014-06-20]. http://www.hindawi.com/journals/ijdsn/2013/160523 [11] Zhou C H, Chen B, Gao Y, et al. A Technique of Filtering Dirty Data Based on Temporal-Spatial Correlation in Wireless Sensor Network // Proc of the 3rd International Conference on Environmental Science and Information Application Technology. Beijing, China, 2011, X: 511-516 [12] Luo X W, Dong M, Huang Y L. On Distributed Fault-Tolerant Detection in Wireless Sensor Networks.Trans on Computers, 2006, 55(1): 58-70 [13] Martincic F, Schwiebert L. Distributed Event Detection in Sensor Networks // Proc of the International Conference on Systems and Networks Communications. Tahiti, France, 2006: 43-48 [14] Cao D L, Cao J N, Jin B H. A Fault-Tolerant Algorithm for Event Region Detection in Wireless Sensor Networks. Chinese Journal of Computers, 2007, 30(10): 1770-1776 (in Chinese) (曹冬磊,曹建农,金蓓弘.一种无线传感器网络中事件区域检测的容错算法.计算机学报, 2007, 30(10): 1770-1776) [15] Li G D, Sun Y G, Liu L P, et al. Distributed Fault-Tolerant Event Boundary Detection in Wireless Sensor Networks. Computer Engineering and Applications, 2009, 45(17): 28-32 (in Chinese) (李桂丹,孙雨耕,刘丽萍,等.分布式无线传感器网络容错事件边界检测.计算机工程与应用, 2009, 45(17): 28-32) [16] Ren Q Q, Li J Z, Cheng S Y. Fault-Tolerant Event Monitoring in Wireless Sensor Networks. Chinese Journal of Computers, 2012, 35(3): 581-590 (in Chinese) (任倩倩,李建中,程思遥.无线传感器网络中可容错的事件监测算法.计算机学报, 2012, 35(3): 581-590) [17] Zhang S K, Wang Y H, Cui Z M. et al. Event Region Fault-Tole-rant Detection Algorithm Based on Aggregation Tree. Journal on Communications, 2010, 31(9): 74-87 (in Chinese) (张书奎,王宜怀,崔志明,等.基于融合树的事件区域检测容错算法.通信学报, 2010, 31(9): 74-87) [18] Peng S L, Li Z H, Chen Q, et al. Complex Event Processing over Live Archived Data Streams. Chinese Journal of Computers, 2012, 35(3): 540-554 (in Chinese) (彭商濂,李战怀,陈 群,等.在线-离线数据流上复杂事件检测.计算机学报, 2012, 35(3): 540-554) [19] Bahrepour M, Meratnia N, Havinga P J M. Use of AI Techniques for Residential Fire Detection in Wireless Sensor Networks // Proc of the 5th IFIP Conference on Artificial Intelligence Applications and Innovations. Thessaloniki, Greece, 2009: 311-321 [20] Bahrepour M, Meratnia N, Havinga P J M. Fast and Accurate Re-sidential Fire Detection Using Wireless Sensor Networks. Environmental Engineering and Management Journal, 2010, 9(2): 215-221 [21] Moustapha A I, Selmic R R. Wireless Sensor Network Modeling Using Modified Recurrent Neural Networks: Application to Fault Detection.Trans on Instrumentation and Measurement, 2008, 57(5): 981-988
2015, Vol. 28 
