1 |
H. Bekkali, M. Sanson & Matsumoto (2007). RFID indoor positioning based on probabilistic RFID map and kalman filtering, Proceedings of the WiMOB. DOI: 10.1109/WIMOB.2007.4390815
|
2 |
J. Na. (2006). The blind interactive guide system using RFID-based indoor positioning system, Proceedings of the ICCHP, 1298-1305.
|
3 |
A. Oh. (2015). Smart Factory Logistics Management System Using House Interior Position Tracking Technology Based on Bluetooth Beacon. Journal of the Korea Institute of Information and Communication Engineering. 19(11), 2677-2682.
DOI
|
4 |
M. J. Hyun & B. H. Kim. (2018). Study on the Beacon Signal Characteristic for Efficiency Analysis of Indoor Positioning. Journal of the Korea Convergence Society, 9(11), 1-7.
DOI
|
5 |
H. D. Park. (2014). Sensor Node Control Considering Energy Efficiency in Wireless Sensor Networks, Journal of Digital Convergence, 12(2), 271-276.
DOI
|
6 |
B. Kang, S. Choi, G. Kim & Y. Park. (2014). A Study on a 3-Dimensional Positioning System over Indoor Wireless Environments, Journal of Digital Convergence, 12(11), 273-279.
DOI
|
7 |
Y. Jung. (2017). A Study on Improving Manufacturing Environment Using Iot Technology in Small Business Environment, Journal of Convergence for Information Technology, 7(2), 83-90.
|
8 |
Y. Jung. (2018). Linking Algorithm Between Iot Devices for Smart Factory Environment of SMEs, Journal of Convergence for Information Technology, 8(2), 233-238.
DOI
|
9 |
H. K. Ryu & T. W. Kim. (2019). Development of a Safety Accident Prevention System for Construction Equipment Utilizing Ilt and RTLS Technology, Journal of the Korea Convergence society, 10(9), 179-186.
|
10 |
A. Cangialosi, J. E. Monaly & S. C. Yang. (2007). Leveraging RFID in hospitals: Patient life cycle and mobility perspectives, IEEE Communications Magazine, 45(9), 18-23.
DOI
|
11 |
T. Mori, C. Siridanupath, H. Noguchi & T. Sato. (2008). Active RFID-based indoor object management system in sensor - embedded environment, Proceedings of the 5th International Conference on Networked Sensing Systems 2008, Kanazawa, Japan, 17-19.
|
12 |
A. Fu & G. Retscher. (2009). Active RFID Trilaternation and Location Fingerprinting Based on RSSI for Pedestrian Navigation, Journal of Navigation, 62(2), 323-340.
DOI
|
13 |
L. Ni, M. Yunhao, L. Cho, Yiu & A. Patil. (2003). LandMarc: indoor location sensing using active RFID, Proceedings of the First IEEE International Conference on Pervasive Computing and Communications (PerCom 2003), 407-415.
|
14 |
A. Ramon, J. Ruiz, F. Granja, J, Carlos, P. Honorato, I. Jorge & G. Rosas. (2012). Accurate Pedestrian Indoor Navigation by Tightly Coupling Foot-Mounted IMU and RFID Measurements, IEEE Transactions on Instrumentation and Measurement, 178-189.
|
15 |
S. Ting, L. Kwok, S. Tsang, H. Albert, C. Ho & T. George. (2011). The study on using passive RFID tags for indoor positioning, International Journal of Engineering Business Management, 3(1), 9-15.
|
16 |
Y. Kim, Y. Jeong & G. C. Park. (2014). Energy-efficient Routing Protocol based on Localization Identification and RSSI Value in Sensor Network, Journal of Digital Convergence, 12(1), 339-345.
DOI
|
17 |
S. Mazuelas, A. Bahillo, R. M. Lorenzo, P. Fernandez, F. A. Lago, E. Garcia, J. Blas & E. J. Abril. (2009). Robust indoor positioning provided by real-time RSSI values in unmodified WLAN networks, IEEE J. Sel. Topics Signal Process, 3(5), 821-831.
DOI
|
18 |
Y. Zhang, M. Amin & S. Kaushik. (2007). Localization and Tracking of Passive RFID Tags Based on Direction Estimation, International Journal of Antennas and Propagation.
|