This work is licensed under the Creative Commons Attribution 4.0 International License.
Dong, G., Zhang, W., Xuan, S., Qin, F., Tan, H. (2020). An Improved Binary Search Anti-Collision Protocol for RFID Tag Identification. Computers, Materials & Continua, 65(2):1855-186.Search in Google Scholar
Pal, K. (2019). Algorithmic solutions for RFID tag anti-collision problem in supply chain management. Procedia Computer Science, 151(2): 929-934.Search in Google Scholar
Huang, Z., Su, J., Wen, G., Zheng, W., Chu, C., Zhang, Y. (2019). A Physical Layer Algorithm for Estimation of Number of Tags in UHF RFID Anti-Collision Design. Computers, Materials & Continua, 61(1):399-408.Search in Google Scholar
Wei, S., Zhang, X., Xue, W. (2019). RFID Anti-Collision Algorithm Based on Tag Best Response Probability Estimation//BASIC & CLINICAL PHARMACOLOGY & TOXICOLOGY. 111 RIVER ST, HOBOKEN 07030-5774, NJ USA: WILEY, 124: 317-317.Search in Google Scholar
Huang, Z., Ma, H., Wang, S., Shen, Yl. (2021). Accurate Item Recommendation Algorithm of itemrank based on tag and context information. Computer Communications, 176(3): 282-289.Search in Google Scholar
Nath, S., Som, S., Negi, M. C. (2021). Cryptanalysis of a novel bitwise xor rotational algorithm and security for iot devices. International Journal of Knowledge-based and Intelligent Engineering Systems, 25(1): 139-147.Search in Google Scholar
Liang, X., Guo, Y. (2019). A probability-based anti-collision protocol for RFID tag identification. Wireless Personal Communications, 107(1): 57-79.Search in Google Scholar
Huang, Z., Su, J., Wen, G., Zheng, W., Chu, C., Zhang, Y., Zhang, Y. (2019). A Physical Layer Algorithm for Estimation of Number of Tags in UHF RFID Anti-Collision Design. Computers, Materials & Continua, 61(1):399-408Search in Google Scholar
Wang, X., Zhang, M,. Lu, Z. (2019). A Frame Breaking Based Hybrid Algorithm for UHF RFID Anti-Collision. Computers, Materials & Continua, 59(3):873-883Search in Google Scholar
Kumudham, R., Ganesh, E. N., Rajendran, V. (2020). Testing anti-collision algorithm for tracking purpose using RFID in IOT technology. Journal of Critical Reviews, 7(15): 4587-4592.Search in Google Scholar
Li, X. N. (2020). Automatic identification management of goods in warehouse logistics based on RFID technology. Telecommunications and Radio Engineering, 79(13):1167-1176Search in Google Scholar
Öztürkoğlu, Ö. (2020). A bi‐objective mathematical model for product allocation in block stacking warehouses. International Transactions in Operational Research, 27(4): 2184-2210.Search in Google Scholar
Li, T., Huang, B., Li, C., Huang, M. (2019). Application of convolution neural network object detection algorithm in logistics warehouse. the Journal of Engineering, 2019(23): 9053-9058.Search in Google Scholar
Long, W., Wu, C. H., Tsang, Y. P., Chen, Q. (2021). An end-to-end bidirectional authentication system for pallet pooling management through blockchain internet of things (BIoT). Journal of Organizational and End User Computing (JOEUC), 33(6): 1-25.Search in Google Scholar
Saderova, J., Rosova, A., Sofranko, M., Kacmary, P. (2021). Example of warehouse system design based on the principle of logistics. Sustainability, 13(8): 44-58.Search in Google Scholar
Setiawan, A., Kristina, L. R., Kurniawan, R. C. (2021). THE ALGORITHM OF GOOD PLACEMENT ON THE SHELF BY CONSIDERING THE WEIGHT AND VOLUME OF THE GOODS TO THE CENTRE OF MASS. Journal of Industrial Engineering Management, 21(6): 208-217.Search in Google Scholar
Hale, B. (2020). User-mediated authentication protocols and unforgeability in key collision. International Journal of Information Security, 19(6): 609-621.Search in Google Scholar
Wang, C., Shao, X., Meng, Y., Gao, J. (2021). A physical layer network coding based tag anti-collision algorithm for RFID system. Computers Materials & Continua, 66(1): 931-945.Search in Google Scholar
Baha’A, A., Thompson, D. R., Alma’aitah, A., Jia, D. (2022). Using dummy data for RFID tag and reader authentication. Digital Communications and Networks, 8(5): 804-813.Search in Google Scholar
Raghib, A., Majd, B. A. E. (2019). Hierarchical multiobjective approach for optimising RFID reader deployment. International Journal of Mathematical Modelling and Numerical Optimisation, 9(1):70-88.Search in Google Scholar