Zoning-based localization in indoor sensor networks using belief functions theory

Alshamaa, Daniel; Mourad-Chehade, Farah; Honeiné, Paul

doi:10.1109/spawc.2016.7536787

Cited by 14 publications

(11 citation statements)

References 21 publications

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“…An estimation is said to be correct if the algorithm assigns the highest confidence to the zone where the sensor actually resides. Table I shows the performance of the proposed method and compares it to a belief functions centralized approach (BCA) presented in [14], and to a hierarchical centralized approach (HCA) presented in [19]. The BCA uses the BFT to fuse all evidence using one calculator, while the HCA creates a hierarchy of clusters from the original zones using divergence similarity.…”

Section: Mobilitymentioning

confidence: 99%

“…Localization is an essential aspect in WSNs, since the knowledge of the sensor's location is critical to process the information originating from this sensor. To tackle the localization problem in indoor environments, researchers use various types of signals, such as ultra-wideband, WiFi, and Bluetooth [12], [13], [14]. One of the advantages of WiFi signals is that one can use the Access Points (APs) already installed in the building, with no additional hardware.…”

Section: Introductionmentioning

confidence: 99%

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Decentralized Sensor Localization by Decision Fusion of RSSI and Mobility in Indoor Environments

Alshamaa

Mourad-Chehade

Honeiné

2018

2018 26th European Signal Processing Conference (EUSIPCO)

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Localization of sensors has become an essential issue in wireless networks. This paper presents a decentralized approach to localize sensors in indoor environments. The targeted area is partitioned into several sectors, each of which having a local calculator capable of emitting, receiving, and processing data. Each calculator runs a local localization algorithm, by investigating the belief functions theory for decision fusion of radio fingerprints, to estimate the sensors zones. The fusion of all calculators estimates, is combined with a mobility model to yield a final zone decision. The decentralized algorithm is described and evaluated against the state-of-the-art. Experimental results show the effectiveness of the proposed method in terms of localization accuracy, processing time, and robustness.

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Section: Mobilitymentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Decentralized Sensor Localization by Decision Fusion of RSSI and Mobility in Indoor Environments

Alshamaa

Mourad-Chehade

Honeiné

2018

2018 26th European Signal Processing Conference (EUSIPCO)

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“…One advantage of WiFi signals over the others is that one can rely only on the Access Points (APs) present inside the building, with no additional hardware. The localization process consists then in finding the sensor's location according to the WiFi signals collected from APs [11], [12].…”

Section: Introductionmentioning

confidence: 99%

A Hidden Markov Model for Indoor Trajectory Tracking of Elderly People

Alshamaa¹,

Chkeir²,

Mourad-Chehade³

et al. 2019

2019 IEEE Sensors Applications Symposium (SAS)

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Tracking of elderly people is indispensable to assist them as fast as possible. In this paper, we propose a new trajectory tracking technique to localize elderly people in real time in indoor environments. A mobility model is constructed, based on the hidden Markov models, to estimate the trajectory followed by each person. However, mobility models can not be used as standalone tracking techniques due to accumulation of error with time. For that reason, the proposed mobility model is combined with measurements from the network. Here, we use the power of the WiFi signals received from surrounding Access Points installed in the building. The combination between the mobility model and the measurements result in tracking of elderly people. Real experiments are realized to evaluate the performance of the proposed approach.

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“…In our previous work [10], we proposed a basic observation model that works well in case of small number of zones. When the number of zones increases, the basic model fails to achieve a high accuracy due to difficulty in discriminating between overlapping distributions representing the different zones.…”

Section: Introductionmentioning

confidence: 99%

Localization of Sensors in Indoor Wireless Networks: An Observation Model Using WiFi RSS

Alshamaa¹,

Mourad-Chehade²,

Honeiné

2018

2018 9th IFIP International Conference on New Technologies, Mobility and Security (NTMS)

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Indoor localization has become an important issue for wireless sensor networks. This paper presents a zoningbased localization technique that works efficiently in indoor environments. The targeted area is composed of several zones, the objective being to determine the zone of the sensor using an observation model. The observation model is constructed based on fingerprints collected as WiFi signals strengths received from surrounding Access Points. The method creates a belief functions framework that uses all available information to assign evidence to each zone. A hierarchical clustering technique is then applied to create a two-level hierarchy composed of clusters and of original zones in each cluster. At each level of the hierarchy, an Access Point selection approach is proposed to choose the best subset of Access Points in terms of discriminative capacity and redundancy. Real experiments demonstrate the effectiveness of this approach and its competence compared to state-of-the-art methods.

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Zoning-based localization in indoor sensor networks using belief functions theory

Cited by 14 publications

References 21 publications

Decentralized Sensor Localization by Decision Fusion of RSSI and Mobility in Indoor Environments

Decentralized Sensor Localization by Decision Fusion of RSSI and Mobility in Indoor Environments

A Hidden Markov Model for Indoor Trajectory Tracking of Elderly People

Localization of Sensors in Indoor Wireless Networks: An Observation Model Using WiFi RSS

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