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A 2MC-based Framework for Sensor Data Loss Decrease in Wireless Sensor Network Failures
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 Title & Authors
A 2MC-based Framework for Sensor Data Loss Decrease in Wireless Sensor Network Failures
Shin, DongHyun; Kim, Changhwa;
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Wireless sensor networks have been used in many applications such as marine environment, army installation, etc. The sensor data is very important, because all these applications depend on sensor data. The possibility of communication failures becomes high since the surrounding environment of a wireless sense network has an sensitive effect on its communications. In particular, communication failures in underwater communications occur more frequently because of a narrow bandwidth, slow transmission speed, noises from the surrounding environments and so on. In cases of communication failures, the sensor data can be lost in the sensor data delivery process and these kinds of sensor data losses can make critical huge physical damages on human or environments in applications such as fire surveillance systems. For this reason, although a few of studies for storing and compressing sensor data have been proposed, there are lots of difficulties in actual realization of the studies due to none-existence of the framework using network communications. In this paper, we propose a framework for reducing loss of the sensor data and analyze its performance. The our analyzed results in non-framework application show a decreasing data recovery rate, T/t, as t time passes after a network failure, where T is a time period to fill the storage with sensor data after the network failure. Moreover, all the sensor data generated after a network failure are the errors impossible to recover. But, on the other hand, the analyzed results in framework application show 100% data recovery rate with 2~6% data error rate after data recovery.
Framework for Sensor Data Loss Decrease;Sensor Data Loss Decrease;2MC (Maximum/Minimum Compression);CQP (Circular Qeue based on Period);WSN (Wireless Sensor Network);
 Cited by
Sensor Network System for Littoral Sea Cage Culture Monitoring, KIPS Transactions on Computer and Communication Systems, 2016, 5, 9, 247  crossref(new windwow)
A Formal Approach to the Selection by Minimum Error and Pattern Method for Sensor Data Loss Reduction in Unstable Wireless Sensor Network Communications, Sensors, 2017, 17, 5, 1092  crossref(new windwow)
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