RFID-Based Real-Time Locating System for Construction Safety Management
Tóm tắt
Từ khóa
Tài liệu tham khảo
Abdelhamid T. S., 2000, Identifying root causes of construction accidents, 126
Abderrahim M., 2005, A mechatronics security system for the construction site, 14
Bahl P. and Padmanabhan V. N. (2000). “RADAR: An in-building RF-based user location and tracking system.” Proc. IEEE INFOCOM 2000 IEEE New York 775–784.
Caffery J., 2000, A new approach to the geometry of TOA locationIEEE VTS Fall VTC52nd Vehicular Technology Conference
Chae S., 2010, Application of RFID technology to prevention of collision accident with heavy equipment, 19
Chin S., 2008, RFID + 4D CAD for progress management of structural steel works in high-rise building, 22
Cho H. Jung Y. Choi H. Jang H. Son S. and Baek Y. (2008). “Precise location tracking system based on time difference of arrival over LR-WPAN.” Proc. Int. Conf. on Mobile Computing and Networking Association for Computing Machinery New York 67–72.
Cho H., 2010, An enhanced positioning scheme for Chirp spread spectrum ranging, 37
Cho Y. K., 2010, Error modeling for an untethered ultra-wideband system for construction indoor asset tracking, 19
Cheng T. Mantripragada U. Teizer J. and Vela P.A. (2011). “Automated trajectory and path planning analysis based on ultra wideband data.” J. Comp. Civ. Eng. in press 10.1061/(ASCE)CP.1943-5487.0000115.
Cheng T. and Teizer J. (2010). “Real-time data collection and visualization technology in construction.” Proc. Construction Research Congress ASCE Reston VA 339–348.
Dogancay K., 2005, Target tracking by time difference of arrival using recursive smoothing, 85
Ergen E., 2007, Tracking components and maintenace history within a facility utilizing radio frequency identification technology, 21
Fosbroke D. E. (2004). “Studies on heavy equipment blind spots and internal traffic control.” Proc. 3rd Int. Roadway Construction Safety and Health Conf. National Institute for Occupational Safety and Health Atlanta 31–40.
Fullerton C. E. Allread B. S. and Teizer J. (2009). “Pro-active-real-time personnel warning system.” Proc. Construction Research Congress ASCE Reston VA 31–40.
Haefner J., 2009, Multi target optical positioning system-MTOPSIEEE MTT-S Int. Microwave Workshop on Wireless Sensing, Local Positioning, and RFID
Hallowell M. R., 2009, Construction safety risk mitigation, 135
Hallowell M. R. Teizer J. and Blaney W. (2010). “Application of sensing technology to safety management.” Proc. Construction Research Congress ASCE Reston VA 31–40.
Heb R. and Schilling K. (2010). “GPS/Galileo testbed using a high precision optical positioning system.” SIMPAR’10 Proc. 2nd Int. Conf. on Simulation Modeling and Programming for Autonomous Robots Springer-Verlag Berlin 87–96.
Hinze J., 1995, Analysis of fatalities recorded by OSHA, 121
Hinze J., 1998, Identifying root causes of construction injuries, 124
Hightower J., 2001, Location systems for ubiquitous computing, 34
Jaselskis E. J., 1995, Radio-frequency identification applications in construction industry, 121
Jaselskis E. J., 2003, Implementing radio frequency identification in the construction process, 129
Khoury H. M. and Kamat V. R. (2008). “WLAN based user position tracking for contextual information access in indoor construction environments.” Proc. Computing in Civil Engineering ASCE Reston VA 838–845.
Khoury H. M., 2009, Evaluation of position tracking technologies for user localization in indoor construction environments, 18
Kim J. E. Kang J. Kim D. Ko Y. and Kim J. (2007). “IEEE 802.15.4a CSS-based localization system for wireless sensor networks.” Proc. IEEE Int. Conf. on Mobile Adhoc and Sensor System (MASS) IEEE New York 1–3.
Lanzisera S. Lin D. T. and Pister K. S. J. (2006). “RF time of flight ranging for wireless sensor network localization.” Workshop on Intelligent Solutions in Embedded Systems IEEE New York 1–12.
Lei J. Jianping X. Jun Z. Xuan Z. and Chaoli Z. (2007). “A GPS-free city bus real-time positioning system.” Proc. Int. Conf. on Transportation Engineering ASCE Reston VA 846–851.
Maye O. Schaeffner J. and Maaser M. (2006). “An optical indoor positioning system for the mass market.” Proc. 3rd Workshop on Positioning Navigation and Communication IEEE New York 111–116.
National Institute for Occupational Safety and Health (NIOSH). (2007). “Fatality assessment and control evaluation (FACE) program.” 〈http://www.cdc.gov/niosh/face/〉 (June 25 2010).
Pradhan A., 2009, Technological assessment of radio frequency identification technology for indoor localization, 23
Pu C. C., 2011, Indoor location tracking using received signal strength indicatorEmerging communications for wireless sensor networks
Rohrig C. and Muller M. (2009). “Indoor location tracking in non-line-of-sight environments using a IEEE 802.15.4a wireless network.” Proc. IEEE/RSJ Int. Conf. on Intelligent Robots and Systems IEEE New York 552–557.
Rossow M. P., 2005, Trilateration computer program, 131
Ruff T. M. (2008). “Recommendations for evaluating and implementing proximity warning system on surface mining equipment.” Research Rep. 2007-146 National Institute for Occupational Safety and Health Atlanta.
Saide K. S., 2011, Static and dynamic performance evaluation of a commercially-available ultra wideband trcking system, 20
Son S. Kim J. Choi H. Jung Y. and Baek Y. (2009). “Demo abstract: Implementation of RTLS to overcome radio shadow area.” Proc. 15th IEEE Real-Time and Embedded Technology and Application Symposium IEEE New York.
Song J., 2006, Tracking the location of materials on construction job sites, 132
Teizer J. Castro-Lacouture D. (2007). “Combined ultra-wideband positioning and range imaging sensing for productivity and safety monitoring in building construction.” Proc. 2007 ASCE Int. Workshop on Computing in Engineering ASCE Reston VA 681–688.
Teizer J., 2007, Real-time three-dimensional occupancy grid modeling for the detection and tracking of constrcution resources, 133
Teizer J., 2010, Automous pro-active real-time construction worker and equipment operator proximity safety alert system, 19
Torrent D. G., 2009, Methodology for automating the identification and localization of construction components on industrial projects, 23
U.S. Bureau of Labor. (2007). “National census of fatal occupational injuries in 2007.” 〈http://www.bls.gov/news.release/archives/cfoi_08202008.pdf〉 (Dec. 18 2009).
Wu W., 2010, Towards an autonomous real-time tracking system of near-miss accidents on construction sites, 19
Xiong J. and Jamieson K. (2010). “SecureAngle: Improving wireless security using angle-of-arrival information.” Proc. ACM SIGCOMM Association for Computing Machinery New York 1–6.
Zhen B., 2009, Networking issues in medical implant communication, 4
