Add to ORKGOptimizing energy consumption for robot navigation in fields requires energy-cost maps. However, obtaining such a map is still challenging, especially for large, uneven terrains. Physics-based energy models work for uniform, flat surfaces but do not generalize well to these terrains. Furthermore, slopes make the energy consumption at every location directional and add to the complexity of data collection and energy prediction. In this paper, we address these challenges in a data-driven manner. We consider a function which takes terrain geometry and robot motion direction as input and outputs expected energy consumption. The function is represented as a ResNet-based neural network whose parameters are learned from field-collected data. The p...
Mobile robots are often utilized in remote and hostile outdoor environments with uncertainties and u...
Mobile robots usually need to minimize energy when they are traversing uneven terrains. To reach a l...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/106934/1/rob21507.pd
Driving energy consumption plays a major rolein the navigation of mobile robots in challenging envir...
2014-2015 > Academic research: refereed > Refereed conference paperAccepted ManuscriptPublishe
Driving energy consumption plays a major rolein the navigation of mobile robots in challenging envir...
For robotic applications, energy is a key resource that can both enable and limit the tasks that a r...
For robotic applications, energy is a key resource that can both enable and limit the tasks that a r...
2014-2015 > Academic research: refereed > Publication in refereed journalVersion of RecordPublishe
2015-2016 > Academic research: refereed > Refereed conference paperAccepted ManuscriptPublishe
Motions of mobile robots need to be optimized to minimize their energy consumption to ensure long pe...
Motions of mobile robots need to be optimized to minimize their energy consumption to ensure long pe...
In this work we teach a robot where to drive from measured, real world data. In Chapter 1 we measure...
Energy consumption represents one of the most basic constraints for mobile robot autonomy. We propos...
We explore the problem of energy-efficient, time-constrained path planning of a solar pow-ered robot...
Mobile robots are often utilized in remote and hostile outdoor environments with uncertainties and u...
Mobile robots usually need to minimize energy when they are traversing uneven terrains. To reach a l...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/106934/1/rob21507.pd
Driving energy consumption plays a major rolein the navigation of mobile robots in challenging envir...
2014-2015 > Academic research: refereed > Refereed conference paperAccepted ManuscriptPublishe
Driving energy consumption plays a major rolein the navigation of mobile robots in challenging envir...
For robotic applications, energy is a key resource that can both enable and limit the tasks that a r...
For robotic applications, energy is a key resource that can both enable and limit the tasks that a r...
2014-2015 > Academic research: refereed > Publication in refereed journalVersion of RecordPublishe
2015-2016 > Academic research: refereed > Refereed conference paperAccepted ManuscriptPublishe
Motions of mobile robots need to be optimized to minimize their energy consumption to ensure long pe...
Motions of mobile robots need to be optimized to minimize their energy consumption to ensure long pe...
In this work we teach a robot where to drive from measured, real world data. In Chapter 1 we measure...
Energy consumption represents one of the most basic constraints for mobile robot autonomy. We propos...
We explore the problem of energy-efficient, time-constrained path planning of a solar pow-ered robot...
Mobile robots are often utilized in remote and hostile outdoor environments with uncertainties and u...
Mobile robots usually need to minimize energy when they are traversing uneven terrains. To reach a l...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/106934/1/rob21507.pd