This paper presents a multisine approach for trajectory optimization based on information gain, with distance and orientation sensing to known beacons. It addresses the problem of active sensing, i.e. the selection of a robot motion or sequence of motions, which make the robot arrive in its desired goal configuration (position and orientation) with maximum accuracy, given the available sensor information. The optimal trajectory is parameterized as a linear combination of sinusoidal functions. An appropriate optimality criterion is selected which takes into account various requirements (such as maximum accuracy and minimum time). Several constraints can be formulated, e.g. with respect to collision avoidance. The optimal trajectory is then d...
University of Minnesota Ph.D. dissertation. June 2012. Major: Electrical Engineering. Advisor: Sterg...
A mobile robot employed for data collection is faced with the problem of travelling from an initial ...
This paper considers the problem of multi robot localization. The analysis is focused on the problem...
This paper presents amultisine approach for trajectory optimization based on information gain, with ...
This paper focuses on active sensing of nonholonomic wheeled mobile robots (WMRs). Active sensing so...
This work presents a comparison of decision making criteria and optimization methods for active sens...
This work presents a comparison of decision making criteria and optimization methods for active sens...
The known algorithms for planning the trajectory of movement of mobile robots in an unknown environm...
The problem of finding a path for the motion of a small mobile robot from a starting point to a fixe...
Thanks to the wide availability of low-cost and high-performance sensing devices, obtaining a large ...
Directional sensors, such as vision, infrared, ultrasound, and active acoustic sensors, are characte...
This paper considers the problem of gathering information about features of interest in adversarial ...
International audienceThis paper addresses the problem of planning the motions of a circular mobile ...
(Young-Jong Jung․Gon-Woo Kim) Abstract- We define the mobile robot navigation problem as an optimiza...
Path planning for an autonomous vehicle in a dynamic environment is a challenging problem particular...
University of Minnesota Ph.D. dissertation. June 2012. Major: Electrical Engineering. Advisor: Sterg...
A mobile robot employed for data collection is faced with the problem of travelling from an initial ...
This paper considers the problem of multi robot localization. The analysis is focused on the problem...
This paper presents amultisine approach for trajectory optimization based on information gain, with ...
This paper focuses on active sensing of nonholonomic wheeled mobile robots (WMRs). Active sensing so...
This work presents a comparison of decision making criteria and optimization methods for active sens...
This work presents a comparison of decision making criteria and optimization methods for active sens...
The known algorithms for planning the trajectory of movement of mobile robots in an unknown environm...
The problem of finding a path for the motion of a small mobile robot from a starting point to a fixe...
Thanks to the wide availability of low-cost and high-performance sensing devices, obtaining a large ...
Directional sensors, such as vision, infrared, ultrasound, and active acoustic sensors, are characte...
This paper considers the problem of gathering information about features of interest in adversarial ...
International audienceThis paper addresses the problem of planning the motions of a circular mobile ...
(Young-Jong Jung․Gon-Woo Kim) Abstract- We define the mobile robot navigation problem as an optimiza...
Path planning for an autonomous vehicle in a dynamic environment is a challenging problem particular...
University of Minnesota Ph.D. dissertation. June 2012. Major: Electrical Engineering. Advisor: Sterg...
A mobile robot employed for data collection is faced with the problem of travelling from an initial ...
This paper considers the problem of multi robot localization. The analysis is focused on the problem...