Declines in situation awareness (SA) often accompany automation. Some of these effects have been characterized as out-of-the-loop, complacency, and automation bias. Increasing autonomy in multi-robot control might be expected to produce similar declines in operators’ SA. In this paper we review a series of experiments in which automation is introduced in controlling robot teams. Automating path planning at a foraging task improved both target detection and localization which is closely tied to SA. Timing data, however, suggested small declines in SA for robot location and pose. Automation of image acquisition, by contrast, led to poorer localization. Findings are discussed and alternative explanations involving shifts in strategy proposed
One of the problems affecting robot operators\u27 spatial awareness involves their ability to infer ...
We simulated a generic military crew station and examined the workload and performance of robotics o...
This paper proposes a theory of human control of robot teams based on considering how people coordin...
Declines in situation awareness (SA) often accompany automation. Some of these effects have been cha...
Declines in situation awareness (SA) often accompany automation. Some of these effects have been cha...
Abstract—Declines in situation awareness (SA) often accompany automation. Some of these effects have...
We are developing a theory for human control of robot teams based on considering how control difficu...
The authors are developing a theory for human control of robot teams based on considering how contro...
Even as future robots grow in intelligence and autonomy, they may continue to face uncertainty in th...
The present study addresses the interaction between automation and organization of human teams in co...
In highly autonomous robotic systems, human operators are able to attend to their own, separate task...
Future robots may act as team members, capable of independently executing tasks and interacting with...
We are developing a theory for human control of robot teams based on considering how control varies ...
The present study addresses the interaction between automation and organization of human teams in co...
Substantial automation will be needed to allow operators to control the large teams of robots envisi...
One of the problems affecting robot operators\u27 spatial awareness involves their ability to infer ...
We simulated a generic military crew station and examined the workload and performance of robotics o...
This paper proposes a theory of human control of robot teams based on considering how people coordin...
Declines in situation awareness (SA) often accompany automation. Some of these effects have been cha...
Declines in situation awareness (SA) often accompany automation. Some of these effects have been cha...
Abstract—Declines in situation awareness (SA) often accompany automation. Some of these effects have...
We are developing a theory for human control of robot teams based on considering how control difficu...
The authors are developing a theory for human control of robot teams based on considering how contro...
Even as future robots grow in intelligence and autonomy, they may continue to face uncertainty in th...
The present study addresses the interaction between automation and organization of human teams in co...
In highly autonomous robotic systems, human operators are able to attend to their own, separate task...
Future robots may act as team members, capable of independently executing tasks and interacting with...
We are developing a theory for human control of robot teams based on considering how control varies ...
The present study addresses the interaction between automation and organization of human teams in co...
Substantial automation will be needed to allow operators to control the large teams of robots envisi...
One of the problems affecting robot operators\u27 spatial awareness involves their ability to infer ...
We simulated a generic military crew station and examined the workload and performance of robotics o...
This paper proposes a theory of human control of robot teams based on considering how people coordin...