Command (TARDEC) embarked on a 5-year Army Technology Objective (ATO) research program that addressed human robot interaction (HRI) and teaming for both unmanned aerial vehicles (UAV) and unmanned ground vehicles (UGV). The program’s objective was to understand HRI issues in order to develop technologies and mitigations that enhance HRI performance in future combat environments. In order to put the five year program in manageable perspective, we summarized five important HRI principles and supporting results that emerged from the research effort. The principles cover the benefits of teaming relations for robotic missions as well as crew multitasking problems associated with future robotic missions and possible solutions. We also discussed t...
Emerging robot systems increasingly exhibit greater levels of autonomy, requiring improvements in in...
Even as future robots grow in intelligence and autonomy, they may continue to face uncertainty in th...
The purpose of this work is to review research in the domain of unmanned vehicle (UV) operations and...
US Army researchers and support contractors are involved in a multi-year effort to understand the im...
Soldier-robot teams will be an important component of future battle spaces, creating a complex but p...
Army Technology Objective (ATO) research program is addressing human robot interaction (HRI) and tea...
This presentation will provide program information, goals and objectives of the Technology for Human...
Extensive US Army programs are being pursued to increase the effectiveness of unmanned vehicles for ...
Our military\u27s current and future forces are operating in a highly distributed, network centric e...
As part of the DARPA Tactical Mobile Robotics (TMR) program, Georgia Tech investigated the human in...
In this paper we briefly describe teaming heuristics as they are applied to human-human teams, and d...
This research investigated the human-machine interaction (HMI) technologies for human-robot teams op...
Advances in robotic technologies and artificial intelligence are allowing robots to emerge fromresea...
The U.S. military integrates unmanned systems within combat operations with greater regularity and s...
The current generation of advanced robots essentially considers the external world, including humans...
Emerging robot systems increasingly exhibit greater levels of autonomy, requiring improvements in in...
Even as future robots grow in intelligence and autonomy, they may continue to face uncertainty in th...
The purpose of this work is to review research in the domain of unmanned vehicle (UV) operations and...
US Army researchers and support contractors are involved in a multi-year effort to understand the im...
Soldier-robot teams will be an important component of future battle spaces, creating a complex but p...
Army Technology Objective (ATO) research program is addressing human robot interaction (HRI) and tea...
This presentation will provide program information, goals and objectives of the Technology for Human...
Extensive US Army programs are being pursued to increase the effectiveness of unmanned vehicles for ...
Our military\u27s current and future forces are operating in a highly distributed, network centric e...
As part of the DARPA Tactical Mobile Robotics (TMR) program, Georgia Tech investigated the human in...
In this paper we briefly describe teaming heuristics as they are applied to human-human teams, and d...
This research investigated the human-machine interaction (HMI) technologies for human-robot teams op...
Advances in robotic technologies and artificial intelligence are allowing robots to emerge fromresea...
The U.S. military integrates unmanned systems within combat operations with greater regularity and s...
The current generation of advanced robots essentially considers the external world, including humans...
Emerging robot systems increasingly exhibit greater levels of autonomy, requiring improvements in in...
Even as future robots grow in intelligence and autonomy, they may continue to face uncertainty in th...
The purpose of this work is to review research in the domain of unmanned vehicle (UV) operations and...