Unmanned tactical autonomous control and collaboration (UTACC) is a Marine Corps experimental research initiative with the overarching aim of developing a collaborative human-robotic system of systems (SoS). This thesis analyzed the results of the existing UTACC concept development and incorporated them into an emergent human-robotic system development method, Coactive Design. An advantage to using this method is that it includes the human and his or her internal processes when modeling the system. As such, the focus is shifted to supplementing team capacities vice developing autonomy. The two aims of this thesis are (1) to provide a recommendation for incorporating the Coactive Design method into the systems' development life cycle and (2)...
The US Army’s vision of future warfare includes command and control (C2) of multiple manned and unin...
The technologic capabilities of autonomous systems (AS) continue to accelerate, and integrated perfo...
Coactive Design breaks with traditional approaches by focusing on effective management of the interd...
Unmanned tactical autonomous control and collaboration (UTACC) is a Marine Corps research enterprise...
This thesis defines a campaign of experimentation to guide UTACC development from concept to reality...
The Unmanned Tactical Autonomous Control and Collaboration (UTACC) program is a Marine Corps Warfigh...
As the technological capabilities of the world's combat systems grow at a breathtaking pace, the rei...
In order to continue the Unmanned Tactical Autonomous Control and Collaboration (UTACC) program, an ...
The Unmanned Tactical Autonomous Control and Collaboration (UTACC) system seeks to integrate Marines...
The Marine Corps is on the path toward the full-scale adoption of unmanned automated and semi-automa...
NPS NRP Executive SummaryProject Summary: Unmanned systems offer the Department of Defense (DoD) the...
The Marine Corps Warfighting Lab's Unmanned Tactical Autonomous Control and Collaboration (UTACC) pr...
Coactive Design is a new approach to address the increasingly sophisticated roles that people and ro...
This paper describes an approach to autonomous robotic control that enables cooperative, tactically ...
Robotic vehicles under human control are currently being used for exploration and surveillance in va...
The US Army’s vision of future warfare includes command and control (C2) of multiple manned and unin...
The technologic capabilities of autonomous systems (AS) continue to accelerate, and integrated perfo...
Coactive Design breaks with traditional approaches by focusing on effective management of the interd...
Unmanned tactical autonomous control and collaboration (UTACC) is a Marine Corps research enterprise...
This thesis defines a campaign of experimentation to guide UTACC development from concept to reality...
The Unmanned Tactical Autonomous Control and Collaboration (UTACC) program is a Marine Corps Warfigh...
As the technological capabilities of the world's combat systems grow at a breathtaking pace, the rei...
In order to continue the Unmanned Tactical Autonomous Control and Collaboration (UTACC) program, an ...
The Unmanned Tactical Autonomous Control and Collaboration (UTACC) system seeks to integrate Marines...
The Marine Corps is on the path toward the full-scale adoption of unmanned automated and semi-automa...
NPS NRP Executive SummaryProject Summary: Unmanned systems offer the Department of Defense (DoD) the...
The Marine Corps Warfighting Lab's Unmanned Tactical Autonomous Control and Collaboration (UTACC) pr...
Coactive Design is a new approach to address the increasingly sophisticated roles that people and ro...
This paper describes an approach to autonomous robotic control that enables cooperative, tactically ...
Robotic vehicles under human control are currently being used for exploration and surveillance in va...
The US Army’s vision of future warfare includes command and control (C2) of multiple manned and unin...
The technologic capabilities of autonomous systems (AS) continue to accelerate, and integrated perfo...
Coactive Design breaks with traditional approaches by focusing on effective management of the interd...