Autonomous vehicles enable the development of smart warehouses and smart factories with an increased visibility, flexibility and efficiency. Thus, effective and affordable localisation methods for indoor vehicles are attracting interest to implement real-time applications. This paper presents an Extended Kalman Smoother design to both localise a mobile agent and reconstruct its entire trajectory through a sensor-fusion employing the UHF-RFID passive technology. Extensive simulations are carried out by considering the smoother optimal-window length and the effect of missing measurements from reference tags. Monte Carlo simulations are conducted for different vehicle trajectories and for different linear and angular velocities to evaluate the...
Autonomous vehicle or self-driving vehicle prototypes are being developed rapidly and are soon expec...
Abstract-In this paper, we propose an improved localization system for an indoor mobile robot using ...
This paper presents a localization method exploiting a mobile robot equipped with an Ultra High Freq...
Autonomous vehicles enable the development of smart warehouses and smart factories with an increased...
This paper presents a Global Localization system for an indoor autonomous vehicle equipped with odom...
Autonomous systems are becoming more and more affordable and effective in dynamic industrial environ...
An indoor global localization problem for a mobile robot based on Radio Frequency IDentification (RF...
A Global Localization System combining odometry data with RFID (Radio Frequency IDentification) read...
This paper proposes a global indoor localization system based on the radio frequency identification ...
This paper presents a state-of-the-art analysis on the current methods for robot localization based ...
Indoor localisation is currently regarded as one of the most useful services offered to human beings...
This paper presents a novel sensor-fusion method for indoor vehicle tracking. The phase of the signa...
Abstract – SLAM(Simultaneous localization and mapping) and AI(Artificial intelligence) have been act...
Abstract: Recently, with the development of service robots and with the new concept of ubiquitous wo...
Autonomous vehicle or self-driving vehicle prototypes are being developed rapidly and are soon expec...
Abstract-In this paper, we propose an improved localization system for an indoor mobile robot using ...
This paper presents a localization method exploiting a mobile robot equipped with an Ultra High Freq...
Autonomous vehicles enable the development of smart warehouses and smart factories with an increased...
This paper presents a Global Localization system for an indoor autonomous vehicle equipped with odom...
Autonomous systems are becoming more and more affordable and effective in dynamic industrial environ...
An indoor global localization problem for a mobile robot based on Radio Frequency IDentification (RF...
A Global Localization System combining odometry data with RFID (Radio Frequency IDentification) read...
This paper proposes a global indoor localization system based on the radio frequency identification ...
This paper presents a state-of-the-art analysis on the current methods for robot localization based ...
Indoor localisation is currently regarded as one of the most useful services offered to human beings...
This paper presents a novel sensor-fusion method for indoor vehicle tracking. The phase of the signa...
Abstract – SLAM(Simultaneous localization and mapping) and AI(Artificial intelligence) have been act...
Abstract: Recently, with the development of service robots and with the new concept of ubiquitous wo...
Autonomous vehicle or self-driving vehicle prototypes are being developed rapidly and are soon expec...
Abstract-In this paper, we propose an improved localization system for an indoor mobile robot using ...
This paper presents a localization method exploiting a mobile robot equipped with an Ultra High Freq...