Abstract
The accuracy of multi-nodes localization and identity estimation algorithms directly affected the performance of multi-agent systems like WSN, multi-robot, cellular phone and so on. In this paper, a novel algorithm is introduced in order to achieve high accuracy for multi-nodes localization and identity estimation, this algorithm is named multi-beacon searching algorithm. In this algorithm, the concept of the grid is employed for estimating the location and identity of nodes, in which the environment represented by a grid of reference beacons, for each beacon, light-emitting diode (LED) is used. Whereas, each node in the environment is equipped with four LDR sensors which are used to sense the lighting of LEDs according to a proposed searching algorithm. The localization process achieved based on three proposed algorithms: Firstly, a modified binary search algorithm is utilized to estimate the approximate location of the node by a group of neighbor LEDs. Secondly, the accurate localization algorithm is used to find the accurate location of each node by reducing the number of neighbor LEDs. Finaly, two algorithms are introduced to evaluate the location and identification of each node: the centroid algorithm and the minimum bounded circle algorithm. In the minimum bounded circle algorithm, a new faster algorithm called the maxima boundaries convex hull algorithm for polygon convex hull construction is introduced instead of the Chan's algorithm. Several simulation processes have been implemented for testing the proposed algorithms. The obtained results show that the proposed algorithms have very good performance in estimating the accurate localizations of the nodes.
Highlights
The rapid development of multi-agent systems such as wireless sensor network (WSN), multi-robot systems, and cellular phones has led to the development of the localization algorithms
This paper aims at introducing a multi-node localization and identification system based on an light-emitting diode (LED)-light dependent resistor (LDR) system which is supported by a multi-node searching algorithm
A new multi-beacon searching algorithm for multi-node localization and identification has been introduced. This algorithm depends on searching in two-dimensional LED grid by using LDR sensors placed on nodes
Summary
The rapid development of multi-agent systems such as WSN, multi-robot systems, and cellular phones has led to the development of the localization algorithms. The majority of approaches of indoor localization are employing active tags such as IR-LED for emitting signals, while IR detectors used to receive these signals as IR beacons that contain information about tag only [21] Their approach includes placing beacons that have known locations in the environment which is detected by using scanners fixed on the nodes. This paper aims at introducing a multi-node localization and identification system based on an LED-LDR system which is supported by a multi-node searching algorithm This system achieves node location estimation and node identification with respect to a grid of reference beacons in the indoor environment. A new proposed algorithm to enhance the execution time has replaced Chan’s algorithm
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