This paper proposes a method to generate informative trajectories for a mobile sensor that tracks agile targets.The goal is to generate a sensor trajectory that maximizes the tracking performance, captured by a measure of the covariance matrix of the target state estimate. The considered problem is acombination of estimation and control, and is often referred to as informative path planning (IPP). When using nonlinear sensors, the tracking performance depends on the actual measurements, which are naturally unavailable in the planning stage.The planning problem hence becomes a stochastic optimization problem, where the expected tracking performance is used inthe objective function. The main contribution of this work is anapproximation of the...
International audienceThis paper addresses the problem of optimizing the navigation of an intelligen...
Abstract—In the surveillance of multiple targets by mobile sensor agents (MSAs), system performance ...
In this thesis, we introduce three trajectory planning algorithms for nonholonomic mobile sensors us...
This paper proposes a method to generate informative trajectories for a mobile sensor that tracks ag...
This thesis studies a class of sensor management problems called informative path planning (IPP). Se...
Many practical applications, such as search and rescue operations and environmental monitoring, invo...
This paper addresses planning of continuous paths for mobile sensors to reduce uncertainty in some q...
The problem of path planning for mobilesensors with the task of target monitoring is considered. A r...
The research into the tracking methods of unmanned aerial vehicles (UAVs) for agile targets is multi...
This work addresses the problem of scheduling the resources of agile sensors. We advocate an informa...
This paper considers the problem of gathering information about features of interest in adversarial ...
Abstract — We consider the problem of optimizing the trajec-tory of a mobile sensor with perfect loc...
The problem of surveilling moving targets using mobile sensor agents (MSAs) is applicable to a varie...
This paper presents an approach to the problem of actively controlling the congu-ration of a team of...
Abstract—We propose an incremental sampling-based mo-tion planning algorithm that generates maximall...
International audienceThis paper addresses the problem of optimizing the navigation of an intelligen...
Abstract—In the surveillance of multiple targets by mobile sensor agents (MSAs), system performance ...
In this thesis, we introduce three trajectory planning algorithms for nonholonomic mobile sensors us...
This paper proposes a method to generate informative trajectories for a mobile sensor that tracks ag...
This thesis studies a class of sensor management problems called informative path planning (IPP). Se...
Many practical applications, such as search and rescue operations and environmental monitoring, invo...
This paper addresses planning of continuous paths for mobile sensors to reduce uncertainty in some q...
The problem of path planning for mobilesensors with the task of target monitoring is considered. A r...
The research into the tracking methods of unmanned aerial vehicles (UAVs) for agile targets is multi...
This work addresses the problem of scheduling the resources of agile sensors. We advocate an informa...
This paper considers the problem of gathering information about features of interest in adversarial ...
Abstract — We consider the problem of optimizing the trajec-tory of a mobile sensor with perfect loc...
The problem of surveilling moving targets using mobile sensor agents (MSAs) is applicable to a varie...
This paper presents an approach to the problem of actively controlling the congu-ration of a team of...
Abstract—We propose an incremental sampling-based mo-tion planning algorithm that generates maximall...
International audienceThis paper addresses the problem of optimizing the navigation of an intelligen...
Abstract—In the surveillance of multiple targets by mobile sensor agents (MSAs), system performance ...
In this thesis, we introduce three trajectory planning algorithms for nonholonomic mobile sensors us...