Abstract
Wireless sensor networks (WSNs) are the main infrastructure for machine to machine (M2M) and Internet of thing (IoT). Since various sophisticated M2M/IoT services have their own quality-of-service (QoS) requirements, reliable data transmission in WSNs is becoming more important. However, WSNs have strict constraints on resources due to the crowded wireless frequency, which results in high collision probability. Therefore a more efficient data delivering scheme that minimizes both the transmission delay and energy consumption is required. This paper proposes energy efficient and reliable data transmission ARQ scheme, called energy efficient and reliable ACK (E $$^2$$ R-ACK), to minimize transmission delay and energy consumption at the same time. The proposed scheme has three aspects of advantages compared to the legacy ARQ schemes such as ACK, NACK and implicit-ACK (I-ACK). It consumes smaller energy than ACK, has smaller transmission delay than NACK, and prevents the duplicated retransmission problem of I-ACK. In addition, resource considered reliability (RCR) is suggested to quantify the improvement of the proposed scheme, and mathematical analysis of the transmission delay and energy consumption are also presented. The simulation results show that the E $$^2$$ R-ACK scheme achieves high RCR by significantly reducing transmission delay and energy consumption.
Highlights
Wireless sensor networks (WSNs) are regarded as the main infrastructure for machine to machine (M2M) and Internet of things (IoT)
This paper proposes a reliable data transfer automatic repeat request (ARQ) scheme, which is called Energy Efficient and Reliable ACK (E2R-ACK), to realize delay reduction and improved energy efficiency
Since the purpose of the proposed scheme is improving the reliability of WSNs, the delay performance and energy consumption of the proposed scheme are compared against the other legacy schemes, i.e., ACK, NACK and implicit ACK (I-ACK) [3]
Summary
Wireless sensor networks (WSNs) are regarded as the main infrastructure for machine to machine (M2M) and Internet of things (IoT). It transforms the communication world more ubiquitous, including mission critical areas such as military, energy, electricity and dangerous industries. Frequency interference in WSNs causes wireless collisions, which in turn result in packet errors or packet drop problems, and decline of the reliability. Since the purpose of the proposed scheme is improving the reliability of WSNs, the delay performance and energy consumption of the proposed scheme are compared against the other legacy schemes, i.e., ACK, NACK and implicit ACK (I-ACK) [3]. 5 evaluates the performance of the proposed scheme, and Sect. The remainder of this paper is organized as follows: Sect. 2 reviews the related works regarding assurance of WSNs reliability; Sect. 3 explains the proposed E2R-ACK scheme; Sect. 4 presents the mathematical analysis; Sect. 5 evaluates the performance of the proposed scheme, and Sect. 6 concludes this paper
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