Add to ORKGThis article considers the optimal estimation of the state of a dynamic observable using a mobile sensor. The main goal is to compute a sensor trajectory that minimizes the estimation error over a given time horizon taking into account uncertainties in the observable dynamics and sensing, and respecting the constraints of the workspace. The main contribution is a methodology for handling arbitrary dynamics, noise models, and environment constraints in a global optimization framework. It is based on sequential Monte Carlo methods and sampling-based motion planning. Three variance reduction techniques–utility sampling, shuffling, and pruning–based on importance sampling, are proposed to speed up convergence. The developed framework is applied...
This paper presents a novel distributed estimation algorithm based on the concept of moving horizon ...
This brief introduces a class of problems and models for the prediction of the scalar field of inter...
A successful cyber-physical system, a complex interweaving of hardware and software in direct intera...
This article considers the optimal estimation of the state of a dynamic observable using a mobile se...
Many practical applications, such as search and rescue operations and environmental monitoring, invo...
Uncertainty in motion planning is often caused by three main sources: motion error, sensing error, a...
Abstract — We consider the problem of optimizing the trajec-tory of a mobile sensor with perfect loc...
This paper presents a real-time motion planning approach for autonomous vehicles with complex dynami...
International audienceThis paper addresses the problem of optimizing the navigation of an intelligen...
Path planning for an autonomous vehicle in a dynamic environment is a challenging problem particular...
A methodology is presented in this work for intelligent motion planning in an uncertain environment ...
© 2020 Georg Thieme Verlag. All rights reserved. This paper addresses the issue of monitoring spatia...
In the real world, a robotic system must operate in the presence of motion and sensing uncertainty. ...
Abstract. Sampling in the space of controls or actions is a well-established method for ensuring fea...
Abstract—Utilizing the capabilities of configurable sensing systems requires addressing difficult in...
This paper presents a novel distributed estimation algorithm based on the concept of moving horizon ...
This brief introduces a class of problems and models for the prediction of the scalar field of inter...
A successful cyber-physical system, a complex interweaving of hardware and software in direct intera...
This article considers the optimal estimation of the state of a dynamic observable using a mobile se...
Many practical applications, such as search and rescue operations and environmental monitoring, invo...
Uncertainty in motion planning is often caused by three main sources: motion error, sensing error, a...
Abstract — We consider the problem of optimizing the trajec-tory of a mobile sensor with perfect loc...
This paper presents a real-time motion planning approach for autonomous vehicles with complex dynami...
International audienceThis paper addresses the problem of optimizing the navigation of an intelligen...
Path planning for an autonomous vehicle in a dynamic environment is a challenging problem particular...
A methodology is presented in this work for intelligent motion planning in an uncertain environment ...
© 2020 Georg Thieme Verlag. All rights reserved. This paper addresses the issue of monitoring spatia...
In the real world, a robotic system must operate in the presence of motion and sensing uncertainty. ...
Abstract. Sampling in the space of controls or actions is a well-established method for ensuring fea...
Abstract—Utilizing the capabilities of configurable sensing systems requires addressing difficult in...
This paper presents a novel distributed estimation algorithm based on the concept of moving horizon ...
This brief introduces a class of problems and models for the prediction of the scalar field of inter...
A successful cyber-physical system, a complex interweaving of hardware and software in direct intera...