Abstract
Wireless sensor networks (WSN) are designed to collect information by means of a large number of energy-limited battery sensor nodes. Therefore, it is important to minimize the energy consumed by each sensor, in order to extend the network life. The goal of this work is to design an intelligent WSN that collects as much information as possible to process it intelligently. To achieve this goal, an agent is sent to each sensor in order to process the information and to cooperate with neighboring sensors while mobile agents (MA) can be used to reduce information shared between source nodes (SN) and send them to the base station (Sink). This work proposes to use communication architecture for wireless sensor networks based on the multi-agent system (MAS) to ensure optimal information collection. The collaboration of these agents generates a simple message that summarizes the important information in order to transmit it by a mobile agent. To reduce the size of the MA, the sensors of the network have been grouped into sectors. For each MA, we have established an optimal itinerary, consuming a minimum amount of energy with data aggregation efficiency in a minimum time. Successive simulations in large-scale wireless sensor networks through the SINALGO (published under a BSD license) simulator show the performance of the proposed method, in terms of energy consumption and package delivery rate.
Highlights
Advances in wireless technologies and technologies in micro manufacturing and microprocessor integration have created a new generation of wireless sensor networks (WSN) for a wide range of applications.A wireless sensor network consists of a set of sensors capable of collecting information from a monitored environment and transmitting it to a base station via the wireless medium
To prove the performance of our proposal Itinerary based on a Wireless Sensor Network (IIWSN) in the WSN, we evaluate it to the Local Closest First algorithm (LCF) and Global Closest First algorithm (GCF) methods, based on two criteria
Since energy consumption is the parameter that defines the life of the WSN, we set the number of source node (SN) from 05 to 50 in steps of 05, and obtain a set of results for each case
Summary
Advances in wireless technologies and technologies in micro manufacturing and microprocessor integration have created a new generation of wireless sensor networks (WSN) for a wide range of applications. A wireless sensor network consists of a set of sensors capable of collecting information from a monitored environment and transmitting it to a base station (sink) via the wireless medium. The constraint of the size of a source node (SN) forces designers to limit the size of its battery and, the amount of energy available. Replacing a battery is rarely possible, either for cost reasons or for environmental constraints. This causes a problem related to energy consumption during operation of the various sensors of the network
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