Abstract- In this paper, a spatial-temporal collaborative sequential Monte Carlo architecture for mobile robot localization is designed to well suites intelligent environment for service robotic system. A proposed algorithm, namely Distributed Proportional Allocation-Augmented Particle Filter (DPA-APF), resolves the sensor collaboration problem by the processes of augmented sampling, inter-node resampling, inner-node resampling and particle exchange. These procedures exploit data parallelism and pipelining of resampling operations and improve the scalability of distributed particle filters (PFs). Moreover, modified visual and laser sensor perception models are also addressed to guarantee reliable and accurate robot localization in dynamic s...
Monte-Carlo localization uses particle filtering to estimate the position of the robot. The method i...
This paper describes an on-line algorithm for multi-robot simulta-neous localization and mapping (SL...
[[abstract]]This paper presents a novel method for mobile robot localization based on multi-robot co...
In this paper, a spatial-temporal collaborative sequential Monte Carlo architecture for mobile robot...
This paper presents a statistical algorithm for collaborative mobile robot localization. Our approac...
This work is situated in the context of collaboratively solving the localization problem for unknown...
This paper proposes a self-localization algorithm for mobile robot based on particle filter algorith...
This paper presents an improved algorithm that extends Monte Carlo localization (MCL) to solve the p...
Self-localization is a fundamental problem in mobile robotics. It consists of estimating the positio...
The paper addresses and solves the problem of multirobot collaborative localization in highly symmet...
This thesis has two main contributions. The first contribution is the use of cooperative localizati...
Abstract. We introduce a multi-robot/sensor cooperative object detection and tracking method based o...
The purpose of this work was to gain insight into the world of robot localization and to understand ...
Abstract. We present a novel panoramic view based robot localization approach which utilizes the Mon...
[[abstract]]This paper presents a novel method for mobile robot localization based on multi-robot co...
Monte-Carlo localization uses particle filtering to estimate the position of the robot. The method i...
This paper describes an on-line algorithm for multi-robot simulta-neous localization and mapping (SL...
[[abstract]]This paper presents a novel method for mobile robot localization based on multi-robot co...
In this paper, a spatial-temporal collaborative sequential Monte Carlo architecture for mobile robot...
This paper presents a statistical algorithm for collaborative mobile robot localization. Our approac...
This work is situated in the context of collaboratively solving the localization problem for unknown...
This paper proposes a self-localization algorithm for mobile robot based on particle filter algorith...
This paper presents an improved algorithm that extends Monte Carlo localization (MCL) to solve the p...
Self-localization is a fundamental problem in mobile robotics. It consists of estimating the positio...
The paper addresses and solves the problem of multirobot collaborative localization in highly symmet...
This thesis has two main contributions. The first contribution is the use of cooperative localizati...
Abstract. We introduce a multi-robot/sensor cooperative object detection and tracking method based o...
The purpose of this work was to gain insight into the world of robot localization and to understand ...
Abstract. We present a novel panoramic view based robot localization approach which utilizes the Mon...
[[abstract]]This paper presents a novel method for mobile robot localization based on multi-robot co...
Monte-Carlo localization uses particle filtering to estimate the position of the robot. The method i...
This paper describes an on-line algorithm for multi-robot simulta-neous localization and mapping (SL...
[[abstract]]This paper presents a novel method for mobile robot localization based on multi-robot co...