Abstract
Radio frequency identification technology has been extensively used in various practical applications, such as inventory management and logistics control. When numerous tags respond to reader simultaneously, tags-to-tag collision occurs and causes the reader to identify tags unsuccessfully. Therefore, how to reduce tag collisions has already emerged as an urgent and crucial problem to be solved for speeding up the identification operation. This article designs a characteristic-value-based grouping rule and a collision bits rule to determine transmitted bit string combinations accurately and proposes a bit arbitration tree anti-collision protocol based on these two rules to decrease the time for collecting all tag IDs. Furthermore, we consider the case that received bit string less than three bits, which occurs during the tag identification operation. Both theory and simulation analyses show that the proposed protocol can reduce the number of idle slots and total number of slots and thereby improve system ...
Highlights
Radio frequency identification (RFID) has been widely used in our lives due to its low cost and ubiquitous characteristics, and it brings a revolutionary change in a wide range of applications, such as inventory control,[1] treatment,[2] smart environments[3] and warehouse management.[4]
We propose a bit arbitration tree (BAT) anti-collision protocol to minimize the total number of slots, to speed up the identification and to increase the system efficiency in RFID systems
Since the reader can more accurately infer the prefixes of responding tags than A4PQT, BAT protocol reduces the number of idle slots
Summary
Radio frequency identification (RFID) has been widely used in our lives due to its low cost and ubiquitous characteristics, and it brings a revolutionary change in a wide range of applications, such as inventory control,[1] treatment,[2] smart environments[3] and warehouse management.[4]. Tags-to-tag collision, as illustrated, occurs when more than one tag attempts to transmit data simultaneously to a single reader within its interrogation zone. In this scenario, these tags are unable to be identified correctly by the reader. We propose a bit arbitration tree (BAT) anti-collision protocol to minimize the total number of slots, to speed up the identification and to increase the system efficiency in RFID systems. We analyse the experimental results and compare the proposed protocol with A4PQT, QT, 8-ary QT protocol and CT in section ‘Simulation and comparison’, and we make conclusions in the final section
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