Heewon Seo scite author profile

A wireless passive sensor network is a network which, by letting RF sources supply energy to sensor nodes, is-at least theoretically-able to live an eternal life without batteries. Due to the technological immaturity, however, a wireless passive sensor network still has many difficulties; energy scarcity, non-simultaneity of energy reception and data transmission and inefficiency in data transmission occurring at sensor nodes. Considering such practical constraints, in this paper, we propose an elementary MAC scheme supporting many sensor nodes to deliver packets to a sink node. Based on a time structure in which a charging interval for charging capacitors by using received and an acting interval for communicating with a sink node are alternately repeated, the proposed MAC scheme delivers packets to a sink node according to slotted ALOHA. In general, a contention-type scheme tends to exhibit relatively low throughput. Thus, we multilaterally evaluate the throughput performance achieved by the proposed MAC scheme using a simulation method. Simulation results show that the network-wide throughput performance can be enhanced by properly setting the length of acting interval.

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Optimal Design of Contending-type MAC Scheme for Wireless Passive Sensor Networks

Choi¹,

Seo²

2016

Journal of the Institute of Electronics and Information Enginee

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A wireless passive sensor network is a network which, by letting separate RF sources supply energy to sensor nodes, is able to live an eternal life without batteries. Against expectations about an eternal life, however, a wireless passive sensor network still has many problems; scarcity of energy, non-simultaneity of energy reception and data transmission and inefficiency in resource allocation. In this paper, we focus on a wireless passive sensor network providing a packet service which is tolerable to packet losses but requires timely delivery of packets. Perceiving the practical constraints, we then consider a contending-type MAC scheme, rooted in framed and slotted ALOHA, for supporting many sensor nodes to deliver packets to a sink node. Next, we investigate the network-wide throughput achieved by the MAC scheme when the packets transmitted by geographically scattered sensor nodes experience path losses hence capture phenomena. Especially, we derive an exact formula of network-wide throughput in a closed form when 2 sensor nodes reside in the network. By controlling design parameters, we finally optimize the contending-type MAC scheme as to attain the maximum network -wide throughput.Keywords : wireless passive sensor network, MAC, framed and slotted ALOHA, capture, throughput

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Analysis of Cognition Completion Time in RFID Networks Supported by Static Naive MAC Scheme

Seo

Park

et al. 2021

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Heewon Seo

Stability of Game-Theoretic Energy-Aware MAC Scheme for Wireless Sensor Networks

Simple Contending-type MAC Scheme for Wireless Passive Sensor Networks : Throughput Analysis and Optimization

Elementary MAC Scheme Based on Slotted ALOHA for Wireless Passive Sensor Networks

Optimal Design of Contending-type MAC Scheme for Wireless Passive Sensor Networks

Analysis of Cognition Completion Time in RFID Networks Supported by Static Naive MAC Scheme

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