Bed side patients monitoring system with emergency alert
Binary tree slotted aloha for passive rfid tag anticollision
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BINARY TREE SLOTTED ALOHA FOR PASSIVE RFID TAG ANTICOLLISION
ABSTRACT:
In order to enhance the efficiency of radio frequency identification (RFID) and lower system
computational complexity, this paper proposes three novel tag anticollision protocols for passive
RFID systems. The three proposed protocols are based on a binary tree slotted ALOHA (BTSA)
algorithm. In BTSA, tags are randomly assigned to slots of a frame and if some tags collide in a
slot, the collided tags in the slot will be resolved by binary tree splitting while the other tags in
the subsequent slots will wait. The three protocols utilize a dynamic, an adaptive, and a splitting
method to adjust the frame length to a value close to the number of tags, respectively.
BTSA, the identification efficiency can achieve an optimal value only when the frame length is
close to the number of tags. Therefore, the proposed protocols efficiency is close to the optimal
value. The advantages of the protocols are that, they do not need the estimation of the number of
tags, and their efficiency is not affected by the variance of the number of tags. Computer
simulation results show that splitting BTSA's efficiency can achieve 0.425, and the other two
protocols efficiencies are about 0.40. Also, the results show that the protocols efficiency curves
are nearly horizontal when the number of tags increases from 20 to 4,000.
