原文传递
Unmanned Tactical Autonomous Control and Collaboration (UTACC) Human Machine Communication and Situational Awareness Development.
| 题名: | Unmanned Tactical Autonomous Control and Collaboration (UTACC) Human Machine Communication and Situational Awareness Development. |
| 作者: | Fout, J. M.; Ploski, J. M. |
| 关键词: | Situational awareness, Human machine interface, Measures of effectiveness, Information exchange, Teams (personnel), Marine corps, Models, Systems engineering, Military doctrine, Decision making, Robots, Military capabilities, Utacc (unmanned tactical autonomous control and collaboration), Coactive design, Team sa, Sa (situational awareness), Mctl (marine corps task list), Interdependency, Mop (measures of performance), Utacc fireteams, Moe (measures of effectiveness), Ttp (tactics techniques and procedures), Hmi (human machine interface) |
| 摘要: | The Unmanned Tactical Autonomous Control and Collaboration (UTACC) system seeks to integrate Marines and machine in a way that does not add to the cognitive load of warfighters. How do machines communicate with humans and vice versa when they are interdependent teammates, rather than following a framework of human operating the robot? Key to this capability, is the capacity to incorporate observability, predictability and directability into the interface designs. Previous research studied this question from a context of a Marine fireteam that had a robot as one of its members. Choosing the right type of interface to facilitate communications between members of a fireteam (be they human or machine) is essential to their ability to actually function as a team and trust one another. But those communications occur in the immediate proximity of the teammates. What changes when you seek to expand this concept beyond a small unit? Three essential focus areas are included in this thesis. First, what is the essential information required to maintain situational awareness between a UTACC fireteam and higher echelons of military units. In other words, this is the what of information being exchanged. Secondly, what are the interface design principles that will hold true no matter what type of information is being exchanged? Finally, this thesis presents proposed methods to evaluate these principles and the specific information exchange requirements. |
| 报告类型: | 科技报告 |
相关文献
- Trust and Understandability in Autonomous and Unmanned Surface Vehicles.
- Human Factors Evaluation of Conflict Detection Tool for Terminal Area.
- Collaborative Unmanned Systems for Maritime and Port Security Operations.
- Reference Software Architecture to Support Unmanned Aircraft Integration in the National Airspace System.
- Humans Teaching Learning Machines: Apprentice Systems and Shared Control of Military Vehicles
- Exploiting Remotely Piloted Aircraft: Understanding the Impact of Strategy on the Approach to Autonomy.
检索历史
应用推荐
