Abstract
Node localization is a fundamental issue in wireless sensor network (WSN), as many applications depend on the precise location of the sensor nodes (SNs). Among all localization algorithms, DV_Hop is a typical range-free localization algorithm characterized by such advantages as simple realization and low energy cost. From detailed analysis of localization error for the basic DV_Hop algorithm, we propose a connectivity weighting DV_Hop localization algorithm using modified artificial bee colony optimization. Firstly, the proposed algorithm calculates the average hop distance (AHD) of anchor nodes in terms of the minimum mean squared distance error between the estimated distances of anchor nodes and the corresponding actual distances from them. After that, a connectivity weighting method, considering the influence from both local network properties of anchor nodes and the distances from anchor nodes to unknown nodes, is designed to obtain the AHD of unknown nodes. In addition, we set up the weighting calculation proportion of anchor nodes at the same time. Finally, a modified artificial bee colony algorithm which enlarges searching space is used to optimize the execution of multilateral localization. The experimental results demonstrate that the connectivity weighting approach has better localization effect, and the AHD of unknown nodes close to true value can be obtained at a relatively large probability. Moreover, the modified artificial bee colony algorithm can reduce the probability of premature convergence, and thus the localization accuracy is further improved.
Highlights
wireless sensor network (WSN), bred by low-power embedded technology, wireless communication technology, microelectromechanical systems, and other related technologies, is a technological revolution on information sensing technology [1]
The influence of connectivity weighting method is firstly analyzed, and we demonstrate the performance of RABC algorithm in terms of accuracy and precision
When the weighting calculation proportion of anchor nodes (ANs) pr is fixed, we will compare the influence of average weighting (AW), hop weighting (HW), error weighting (EW), and our proposed connectivity weighting (CW) method on the localization accuracy
Summary
WSN, bred by low-power embedded technology, wireless communication technology, microelectromechanical systems, and other related technologies, is a technological revolution on information sensing technology [1] It consists of plenty of static and mobile SNs having the capability of sensing, computation, and wireless communication in the self-organizing manner to realize the functions of acquisition, monitoring in the coverage area of network, and owing to the characteristics of low cost, low power consumption, flexible organization, and rapid deployment, it provides great convenience for human production and life. The range-free algorithms are just dependent on connectivity of SNs and network topology, and some typical range-free algorithms are APIT [10], Amorphous [11], Centroid [12], MDS-MAP [13], and DV Hop [14] Because of their simplicity in implementation and low power consumption, more attentions have been attracted. A connectivity weighting DV Hop localization algorithm using modified artificial bee colony optimization is proposed to improve localization accuracy.
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