Ngoc Son Duong, Thanh Phuc Nguyen, Quoc Tuan Nguyen, Thai Mai Dinh Thi
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Improving indoor positioning system using weighted linear least square and neural network
Indoor positioning has grasped great attention in recent years. Many of those technologies are related to the problem of determining the position of an object in space, such as the robot, people, and so on. In this paper, we combine a range-free method, i.e., fingerprinting, and a range-based method, i.e., multi-lateration, to propose a novel indoor positioning system using the received signal strength indicator (RSSI). First, we apply multi-layer perceptron neural network (MLP-NN) on a time series of RSS readings to coarsely estimate the target location. From the knowledge of the coarse location, we select reliable beacons and apply least square-based multi-lateration to their estimated distance to finely estimate the target position. We also proposed a novel weighted least square method based on uncertainty propagation to improve localisation accuracy. Experiments have shown that our proposed system, which is implemented on Raspberry Pi (RPi), is highly precise and deployable.
期刊介绍:
IJSNet proposes and fosters discussion on and dissemination of issues related to research and applications of distributed and wireless/wired sensor and actuator networks. Sensor networks is an interdisciplinary field including many fields such as wireless networks and communications, protocols, distributed algorithms, signal processing, embedded systems, and information management.
Topics covered include:
-Energy efficiency, energy efficient protocols-
Applications-
Location techniques, routing, medium access control-
Coverage, connectivity, longevity, scheduling, synchronisation-
Network resource management, network protocols, lightweight protocols-
Fault tolerance/diagnostics-
Foundations-
Data storage, query processing, system architectures, operating systems-
In-network processing and aggregation-
Learning of models from data-
Mobility-
Performance analysis-
Sensor tasking and control-
Security, privacy, data integrity-
Modelling of systems/physical environments, simulation tools/environments.