Geometric Algebraic Modeling and Movement Behavior Analysis of the PIR Sensor Network

Linwang YUAN; Zhaoyuan YU; Wen LUO; Shuai YUAN; Chunye ZHOU

doi:10.12082/dqxxkx.2020.190552

[1] et alActivity recognition and semantic description for indoor mobile localization[J]. Sensors, 17, 649(2017).

[2] et alSmartITS: Smartphone-based identification and tracking using seamless indoor-outdoor localization[J]. Journal of Network and Computer Applications, 98, 97-113(2017).

[3] et alUWB and MEMS based indoor navigation[J]. Journal of Navigation, 61, 369-384(2008).

[4] Surface measurement and tracking of human body parts from multi-image video sequences[J]. ISPRS Photogramm, Remote Sensensing, 56, 360-375(2002).

[5] Extracting patterns of behavior from a network of binary sensors[J]. Journal of Ambient Intelligence and Humanized Computing, 6, 83-105(2015).

[6] et alPassive Infrared (PIR)-based indoor position tracking for smart homes using accessibility maps and a-star algorithm[J]. Sensors, 18, 332(2018).

[7] et alTarget detection and classification using seismic and PIR Sensors[J]. IEEE Sensors Journal, 12, 1709-1718(2012).

[8] Tracking motion direction and distance with pyroelectric ir sensors[J]. IEEE Sensors Journal, 10, 1486-1494(2010).

[9] et alTarget tracking with binary proximity sensors: Fundamental limits, minimal descriptions, and algorithms[C]//Proceedings of the 4th International Conference on Embedded Networked Sensor Systems[C]. SenSys 2006, Boulder, Colorado, USA(2006).

[10] Multiple human location in a distributed binary pyroelectric infrared sensor network[J]. Infrared Physics & Technology, S1350449517300324(2017).

[11] et alClifford algebra method for network expression, computation, and algorithm construction[J]. Mathematical Methods in the Applied Sciences, 37, 1428-1435(2014).

[12] 王健健, 冯琳耀, 朱帅, 等. PIR传感器网络中行为轨迹重构的几何代数方法,电子学报, 2016,44(6):241-247. [ Wang JJ, Feng LY, ZhuS, et al. Geometric algebraic method for behavior trajectory reconstruction in PIR Sensor networks[J]. ACTA Elect onica sinica, 2016,44(6):241-247. ] [ Wang J J, Feng L Y, Zhu S, et al. Geometric algebraic method for behavior trajectory reconstruction in PIR Sensor networks[J]. ACTA Elect onica sinica, 2016,44(6):241-247. ]

[13] et alGeometric algebra for multidimension-unified geographical information system[J]. Advances in Applied Clifford Algebras, 23, 497-518(2013).

[14] Generalized zeon algebras: Theory and application to multi-constrained path problems[J]. Advances in Applied Clifford Algebras, 1-13(2011).

[15] Similarity-based analysis for large networks of ultra-low resolution sensors[J]. Pattern Recognition, 39, 1918-1931(2006).

[16] Applications of clifford’s geometric algebra[J]. Advances in Applied Clifford Algebras, 23, 377-404(2013).

[17] Dynamic geometric graph processes: adjacency operator approach[J]. Advances in Applied Clifford Algebras, 20, 893-921(2010).

[18] et alGeometric algebra model for geometry-oriented topological relation computation[J]. Transactions in GIS, 20, 259-279(2016).

[19] et alSpatio-temporal constrained human trajectory generation from the pir motion detector sensor network data: A geometric algebra approach[J]. Sensors, 16, 43(2016).

[20] et alThe MERL motion detector dataset[C]// Workshop on Massive Datasets[C]. Nagoya, Japan, 10-14(2007).

[21] The GA modeling and feature analyzing method of motion trajectory based on indoor sensor network data. Nanjing: Nanjing Normal University(2015).