Research Article
BACP+: A More Efficient Beacon Analysis-Based Collision Prevention Protocol
@INPROCEEDINGS{10.1007/978-3-030-51051-0_18, author={Sidiya Dieng and Youssou Faye and Marius Dasylva}, title={BACP+: A More Efficient Beacon Analysis-Based Collision Prevention Protocol}, proceedings={Innovations and Interdisciplinary Solutions for Underserved Areas. 4th EAI International Conference, InterSol 2020, Nairobi, Kenya, March 8-9, 2020, Proceedings}, proceedings_a={INTERSOL}, year={2020}, month={8}, keywords={Radio Frequency IDentification Anti-colision protocol Reader-tag}, doi={10.1007/978-3-030-51051-0_18} }- Sidiya Dieng
Youssou Faye
Marius Dasylva
Year: 2020
BACP+: A More Efficient Beacon Analysis-Based Collision Prevention Protocol
INTERSOL
Springer
DOI: 10.1007/978-3-030-51051-0_18
Abstract
As in traditional wireless networks and Wireless Sensor Networks (WSN), Medium Access Control (MAC) in RFID (Radio Frequency IDentification) networks is a real challenge. RFIDs are increasingly being used for a variety of applications in several fields such as agriculture, industry, commerce, monitoring. Thus, providing MAC solution while preserving the resources (bandwidth, energy, storage, computing and transmission capacities) and ensuring scalability is very challenge. To avoid collisions that may occur between readers, anti-collision protocols use two approaches. The centralized approach based on Time Divisible Multiple Access (TDMA). The decentralized approach is based on the Carrier Sense multiple Access (CSMA) and uses notifications. That’s why we offer Called Beacon Analysis-based Collision Prevention more (BACP+) to provide better performance for Called Beacon Analysis-based Collision Prevention (BACP) which uses the centralized approach by optimizing resources, and promoting the greatest number of reading with less interference. BACP+ makes full use of available resources, and frequency channels to ensure proper collision management and coverage time.
