Computer Science ›› 2022, Vol. 49 ›› Issue (6A): 606-611.doi: 10.11896/jsjkx.210700108
• Computer Network • Previous Articles Next Articles
ZHOU Chu-lin, CHEN Jing-dong, HUANG Fan
CLC Number:
[1] KAWAGUCHI N,YANO M,ISHIDA S,et al.Undergroundpositioning:subway information system using WiFi location technology[C]//IEEE Tenth International Conference on Mobile Data Management:Systems,Services and Middleware(MDM'09).IEEE,2009:371-372. [2] BISWAS J,VELOSO M.WiFi localization and navigation for autonomous indoor mobile robots[C]//2010 IEEE International Conference on Robotics and Automation(ICRA).IEEE,2010:4379-4384. [3] WOODMAN O,HARLE R.Pedestrian localisation for indoorenvironments[C]//Tenth International Conference on Ubiquitous Computing.Seoul,South Korea:ACM,2018:114-123. [4] BAHL P,PADMANABHAN V N.RADAR:an in-building RF-based user location and tracking system[C]//Nineteenth An-nual Joint Conference of the IEEE Computer and Communications Societies(INFOCOM 2000).IEEE,2000. [5] YOUSSEF M A,AGRAWALA A,UDAYA SHANKAR A.WLAN location determination via clustering and probability distributions[C]//First IEEE International Conference on Pervasive Computing and Communications(PerCom 2013).IEEE,2013:143-150. [6] WEINBERG H.Using the ADXL202 in pedometer and personal navigation applications[EB/OL].(2014-10-20).https://www.analog.com. [7] QIU C,MUTKA M W.Walk and learn:Enabling accurate indoor positioning by profiling outdoor movement on smartphones[J].Pervasive and Mobile Computing,2018,48:84-100. [8] SHIN S H,PARK C G,KIM J W,et al.Adaptive step length estimation algorithm using low-cost MEMS inertial sensors[C]//IEEE Sensors Applications Symposium(SAS'07).IEEE.2017:1-5. [9] KIM J W,JANG H J,HWANG D H,et al.A step,stride and heading determination for the pedestrian navigation system[J].Journal of Global Positioning Systems,2014,3(1/2):273-279. [10] ZOU H,WANG H,XIE L,et al.An RFID indoor positioningsystem by using weighted path loss and extreme learning machine[C]//International Conference on Cyber-Physical Systems,Networks,and Applications(CPSNA).2013:66-71. [11] ZOU H,XIE L,JIA Q S,et al.Platform and algorithm development for a rfid-based indoor positioning system[J].Unmanned Systems,2014,2:279-291. [12] READ J,ACHUTEGUI K,MIGUEZ J.A Distributed Particle Filter for Nonlinear Tracking in Wireless Sensor Networks[J].Signal Processing,2014,98:121-134. [13] LEPPÄKOSKI H,COLLIN J,TAKALA J.Pedestrian navigation based on inertial sensors,indoor map,and WLAN signals[J].Journal of Signal Processing Systems,2013,71:287-296. [14] CHEN Z,ZOU H,JIANG H,et al.Fusion of WiFi,smartphone sensors and landmarks using the Kalman filter for indoor localization[J].Sensors,2019,15(1):715-732. [15] KIM J W,HAN J J,HWANG D H,et al.A Step,Stride and Heading Determination for the Pedestrian Navigation System[J].Journal of Global Positioning Systems,2014,3(1/2):273-279. [16] BYLEMANS I,WEYN M,KLEPAL M.Mobile phone-baseddisplacement estimation for opportunistic localisation systems[C]//International Conference on Mobile Ubiquitous Computing,Systems,Services and Technologies.2009:113-118. [17] GUO S B,SHEN F,LI Y.Indoor positioning method based on WiFi/PDR fusion[J].Electronic Information Warfare Technology,2019,34(5):24-27. [18] DENG Z Z.Pedestrian indoor positioning algorithm based oninertial sensor and map matching [D].Harbin:Harbin Industry University,2015. [19] ZHOU R,YUAN X Z,HUANG Y M.WiFi-PDR fusion indoor positioning based on Kalman filter[J].Journal of University of Electronic Science and Technology of China,2016,45(3):3-5. [20] XU W.Research and implementation of indoor positioning technology based on Android mobile phones [D].Wuhan:Central China Normal University,2014. [21] POULOSE A,KIM J,HAN D S.Indoor Localization with Smart-phones[C]//Magnetometer Calibration in IEEE International Conference on Consumer Electronics(ICCE).2019:1-3. [22] DI Y,GU X H,LONG F,et al.An Interactive Multi-model Target Tracking Method Based on Improved UPF for Motion Acoustic Array[J].Control and Decision,2018,33(2):249-255. [23] HUANG X P,WANG Y,MIAO P C.Principle and Application of Target Positioning and Tracking-MATLAB Simulation [M].Beijing:Electronic Industry Publishing Society,2018. [24] YANG Y X.Principle of Equivalence-Robust Least Squares Solution of Parametric Adjustment Model[J].Bulletin of Sur-veying and Mapping,1994,29(6):33-35. [25] ZHOU J W.Classical error theory and robust estimation[J].Journal of Surveying and Mapping,1989,48(2):115-120. [26] WU B,TIAN Q.Indoor moving target localization algorithmbased on improved unscented particle filter[J].Sensors and Microsystems,2021,40(3):153-156. [27] BAHL P,PADMANABHAN V N.RADAR:an in-building RF-based user location and Tracking system[C]//Nineteenth Annual Joint Conference of the IEEE Computer and Communications Societies(INFOCOM 2000).IEEE,2000. [28] DE MORAES L F M,NUNES B A A.Calibration-free WLAN location system based on dynamic mapping of signal strength[C]//Fourth ACM International Workshop on Mobility Mana-gement and Wireless Access.IEEE,2006:92-99. [29] LIM H,KUNG L C,HOU J C,et al.Zero-configuration,robust indoor localization:theory and experimentation[C]//Twenty-fifth IEEE International Conference on Computer Communications(INFOCOM 2006).Barcelona,Spain:IEEE,2006:1-12. [30] RUNTASTIC.Runtastic pedometer[EB/OL].(2014-10-20).https://www.runtastic.com/zh/apps/pedometer. [31] KULAS L.Calibration-Free Single-Anchor Indoor LocalizationUsing an ESPAR Antenna[J].Sensors,2021,21(10):3431-3440. [32] CHEW M T,ALAM F.Accurate Ultrasound Indoor Localiza-tion Using Spring-RelaxationTechnique[J].Electronics,2021,10(11):1290-1290. [33] JIANG Z Q,HONG X Y.RFID indoor target location algorithm based on improved particle filter[J].Information Technology,2021,20(4):107-112. [34] YU C B,CHENG K H.WiFi and pedestrian dead reckoningadaptive unscented Kalman filter fusion positioning algorithm[J].Science Technology and Engineering,2020,20(27):11155-11160. [35] WANG Z Z,ZANG L G,TANG Y M,et al.UWB precise positioning adaptive unscented Kalman filter algorithm[J].Agricultural Equipment and Vehicle Engineering,2021,59(5):24-28. |
[1] | TANG Qing-hua, WANG Mei, TANG Chao-chen, LIU Xin, LIANG Wen. PDR Indoor Positioning Method Based on M2M Encounter Region [J]. Computer Science, 2022, 49(9): 283-287. |
[2] | YAN Jia-dan, JIA Cai-yan. Text Classification Method Based on Information Fusion of Dual-graph Neural Network [J]. Computer Science, 2022, 49(8): 230-236. |
[3] | ZHANG Yuan, KANG Le, GONG Zhao-hui, ZHANG Zhi-hong. Related Transaction Behavior Detection in Futures Market Based on Bi-LSTM [J]. Computer Science, 2022, 49(7): 31-39. |
[4] | LIU Zhi-xin, ZHANG Ze-hua, ZHANG Jie. Top-N Recommendation Method for Graph Attention Based on Multi-level and Multi-view [J]. Computer Science, 2021, 48(4): 104-110. |
[5] | LI Li, ZHENG Jia-li, LUO Wen-cong, QUAN Yi-xuan. RFID Indoor Positioning Algorithm Based on Proximal Policy Optimization [J]. Computer Science, 2021, 48(4): 274-281. |
[6] | XU He, WU Man-xing, LI Peng. RFID Indoor Relative Position Positioning Algorithm Based on ARIMA Model [J]. Computer Science, 2020, 47(9): 252-257. |
[7] | LI Li,ZHENG Jia-li,WANG Zhe,YUAN Yuan,SHI Jing. RFID Indoor Positioning Algorithm Based on Asynchronous Advantage Actor-Critic [J]. Computer Science, 2020, 47(2): 233-238. |
[8] | ZHANG Liang-cheng, WANG Yun-feng. Dynamic Adaptive Multi-radar Tracks Weighted Fusion Method [J]. Computer Science, 2020, 47(11A): 321-326. |
[9] | SUN Zhi-gang, WANG Guo-tao, JIANG Ai-ping, GAO Meng-meng, LIU Jin-gang. Monitoring System of Traffic Safety Based on Information Fusion Technology [J]. Computer Science, 2020, 47(11A): 642-650. |
[10] | WANG Zhe, ZHENG Jia-li, LI Li, YUAN Yuan, SHI Jing. RFID Indoor Positioning Algorithm Combining Grasshopper Optimization Algorithm and Extreme Learning Machine [J]. Computer Science, 2019, 46(12): 120-125. |
[11] | ZHANG Mei-jing, WANG Ying-ming. Decision Making Approach Based on Evidential Reasoning Considering SemanticRelationship among Assessment Grades [J]. Computer Science, 2018, 45(12): 166-169. |
[12] | FU Xian-kai, JIANG Xin-long, LIU Jun-fa, ZHANG Shao-bo, CHEN Yi-qiang. Adaptive Indoor Location Method for Multiple Terminals Based on Multidimensional Scaling [J]. Computer Science, 2018, 45(10): 104-110. |
[13] | CHEN Shi-jun, WANG Hui-qiang, WANG Yuan-yuan, HU Hai-jing. Base Station Selection Optimization Method Oriented at Indoor Positioning [J]. Computer Science, 2018, 45(10): 115-119. |
[14] | HUANG Xu, FAN Jing, WU Mao-nian and GU Yong-gen. Design and Implementation of Intelligent Parking System Based on Wi-Fi Fingerprint Location Technology [J]. Computer Science, 2016, 43(Z6): 512-515. |
[15] | ZHAO Ying-xiu, LIU Wen-qi, LI Jin-hai and ZHAO Ning. Credit Evaluation of P2P Lending User Based on Granular Computing and Information Fusion [J]. Computer Science, 2016, 43(9): 242-246. |
|