A new optimization approach for indoor location based on Differential Evolution

A. Masegosa, A. Bahillo, E. Onieva, P. López-García, A. Perallos
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引用次数: 4

Abstract

The growth of Location Based Services and Location Aware Services in indoor environments has focused the attention of the research community on indoor location systems, especially on those based on WLAN networks and Received Signal Strength (RSS). Despite the advances reached, the development of reliable, accurate and low-cost indoor location systems still remains as an open problem. In this work, we focus on a specific class of location methods where the position of a Mobile Station (MS) is estimated by optimizing a cost function. As far as we know, the optimization models for indoor location proposed so far, only consider the current RSS measurements to estimate the position. In this paper, we propose an optimization approach that uses both current and past measurements to estimate the MS location. To solve the underlying optimization problem we use a Dierential Evolution algorithm. The experimentation done over a simulated and a real scenario shows, on the one hand, that using past and current measurements we obtain more accurate and robust position estimations, and on the other hand, that our proposal is competitive versus other high-performing location methods proposed in the literature.
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基于差分进化的室内定位优化新方法
随着室内环境中基于位置的服务和位置感知服务的发展,室内定位系统,特别是基于无线局域网和接收信号强度(RSS)的室内定位系统受到了研究界的关注。尽管取得了进步,但开发可靠、准确和低成本的室内定位系统仍然是一个悬而未决的问题。在这项工作中,我们专注于一类特定的定位方法,其中移动站(MS)的位置是通过优化成本函数来估计的。据我们所知,目前提出的室内定位优化模型,只考虑当前的RSS测量值来估计位置。在本文中,我们提出了一种优化方法,该方法使用当前和过去的测量来估计MS位置。为了解决潜在的优化问题,我们使用微分进化算法。在模拟和真实场景中进行的实验表明,一方面,使用过去和当前的测量,我们获得了更准确和稳健的位置估计,另一方面,我们的建议与文献中提出的其他高性能定位方法相比具有竞争力。
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