Abstract
Swarm robotics is an approach to collective robotics with which it is easily possible to complete the tasks that are difficult to do with single robot. The wireless multiple access network contributes significantly in wireless mobile swarm robotics for communication and networking, especially in disaster scenarios. Since the unpredictable impacts may fail the sensing robots or nodes, causing the loss of valuable data, a coding scheme called the Growth codes is designed to increase data persistence. In the wireless multiple access network, a key requirement of data collection in disaster scenarios is to maintain a high data intermediate recovery rate. In the later period of the Growth codes, the large amount of redundant data in the network affects the efficiency of data collection. In this paper, we design and analyze techniques to reduce the number of redundant data, and propose a sectional configured data collection strategy based on the Growth codes, called the SCGC protocol. Setting cache nodes around the sink to filter the redundant codewords, the sink can collect data faster, ensuring a high data intermediate recovery rate. We also design an information update strategy and some constraints to control node overhead. Through the simulations, we show that the proportion of redundant codewords can be reduced by 10-15%, while the negative impact of these valid codewords is not considered in the Growth codes. We also show that the SCGC protocol can improve the data recovery efficiency without affecting the stability of the network or shortening the network lifetime.
Highlights
The wireless sensor network (WSN) is used on a large scale to monitor real-time environmental status that requires minimum human intervention [1]
Swarm mobile robotics is an approach to collective mobile robotics with which it is possible to complete the tasks that are difficult to do with single robot
For the purpose of ensuring data persistence and high collection efficiency without excessive manipulation of the wireless multiple access network, we propose a sectional configured data collection strategy based on the Growth codes, called the SCGC protocol
Summary
The wireless sensor network (WSN) is used on a large scale to monitor real-time environmental status that requires minimum human intervention [1]. The totally random strategy in the Growth codes protocol results in a large number of redundant codewords in the network in the later period of data collection. These redundant codewords only contain symbols that had already recovered in the sink. A sectional configured network model will be proposed; in Chapter IV, the data collection strategy based on the proposed network model called the SCGC protocol will be presented as well as its general algorithm framework; in Chapter V, for the information exchanged between the cache nodes and the sink, mathematical analysis will be used to build constraints to balance the information update overhead with its validity, an information update strategy of SCGC is designed; in Chapter VI, the simulation results of various different network scenarios will be presented to analyze the performance of the SCGC protocol; In Chapter VII, a brief summary is given
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