An adaptive-delay transmission strategy of a fixed-interval wireless reporting application: poster abstract

Proceedings of the 16th ACM/IEEE International Conference on Information Processing in Sensor Networks Pub Date : 2017-04-18 DOI:10.1145/3055031.3055055

Pai-Kun Huang, K. Cheng, Huang-Chen Lee

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Abstract

Low-power wireless technology, i.e., IEEE 802.15.4, consumes less energy and is suitable for battery-powered applications; fixed-interval data reporting is a common characteristic of these applications, e.g., a wireless sensor needs to report its temperature or air quality every minute. However, data-receiving failure occurs frequently because the output power of such wireless technology is low, typically 1 mW in 2.4 GHz IEEE 802.15.4; also, crowd wireless traffic on ISM 2.4 GHz usually has serious radio interference. Meanwhile, data sent from a wireless transmitter but is not received by a receiver is not only wasted energy but also causes potential radio interference with other wireless devices. Based on the observation of radio interference, we proposed an adaptive-delay transmission mechanism for increasing the energy efficiency and the packet delivery ratio of the fixed-interval reporting application. The timing of data reporting is adaptively postponed if the recent transmissions fail. By integrating this method, the number of data packet been sent is reduced by up to 42.7% in a high-interference period; therefore, the power consumption of the wireless transmitter is reduced.

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固定间隔无线报告应用的自适应延迟传输策略:海报摘要

低功耗无线技术，即IEEE 802.15.4，消耗更少的能量，适合电池供电的应用;固定间隔数据报告是这些应用的共同特征，例如，无线传感器需要每分钟报告其温度或空气质量。然而，由于这种无线技术的输出功率较低，通常在2.4 GHz IEEE 802.15.4中为1 mW，因此经常发生数据接收故障;此外，在ISM 2.4 GHz的人群无线通信通常有严重的无线电干扰。与此同时，从无线发射器发送但未被接收器接收的数据不仅浪费了能量，而且还会对其他无线设备造成潜在的无线电干扰。在观察无线电干扰的基础上，提出了一种自适应延迟传输机制，以提高固定间隔报告应用的能量效率和分组传输率。如果最近的传输失败，数据报告的时间将被自适应地推迟。结合该方法，在高干扰时段发送的数据包数最多减少42.7%;因此，降低了无线发射机的功耗。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Proceedings of the 16th ACM/IEEE International Conference on Information Processing in Sensor Networks

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