Add to ORKGSince the end of the Apollo missions to the lunar surface in December 1972, humanity has exclusively conducted scientific studies on distant planetary surfaces using teleprogrammed robots. Operations and science return for all of these missions are constrained by two issues related to the great distances between terrestrial scientists and their exploration targets: high communication latencies and limited data bandwidth. Despite the proven successes of in-situ science being conducted using teleprogrammed robotic assets such as Spirit, Opportunity, and Curiosity rovers on the surface of Mars, future planetary field research may substantially overcome latency and bandwidth constraints by employing a variety of alternative strategies that ...
Since 2010, the European Space Agency (ESA) and the National Aeronautics and Space Administration (N...
During Summer 2013, the Intelligent Robotics Group at NASA Ames Research Center conducted a series o...
During the past 50 years, we have learned to explore and work in space. Much of what we know about t...
Since the end of the Apollo missions to the lunar surface in December 1972, humanity has exclusively...
The most compelling questions about the possibility of life on other planetary bodies will likely be...
We summarize a proposed experiment to use the International Space Station to formally examine the ap...
The role of telerobotics in space exploration as placing human cognition on other worlds is limited ...
Low-latency teleoperations (LLT) is envisioned to be an element of human exploration missions in a n...
In planning for future exploration missions, architecture and study teams have made numerous assumpt...
Modern telerobotic technologies offer astronaut scientists real-time presence on planetary surfaces ...
Missions to Earth-Moon libration points can advance capabilities for human exploration and provide u...
This paper describes the role of telepresence in performing exploration of Mars. As part of an effor...
Communications and networking experts from the NASA Glenn Research Center designed and implemented a...
Through fly-by, orbiter, rover, and even crewed missions, National Aeronautics and Space Administrat...
NASA is developing new technologies to enable planetary exploration. NASA's Space Launch System is a...
Since 2010, the European Space Agency (ESA) and the National Aeronautics and Space Administration (N...
During Summer 2013, the Intelligent Robotics Group at NASA Ames Research Center conducted a series o...
During the past 50 years, we have learned to explore and work in space. Much of what we know about t...
Since the end of the Apollo missions to the lunar surface in December 1972, humanity has exclusively...
The most compelling questions about the possibility of life on other planetary bodies will likely be...
We summarize a proposed experiment to use the International Space Station to formally examine the ap...
The role of telerobotics in space exploration as placing human cognition on other worlds is limited ...
Low-latency teleoperations (LLT) is envisioned to be an element of human exploration missions in a n...
In planning for future exploration missions, architecture and study teams have made numerous assumpt...
Modern telerobotic technologies offer astronaut scientists real-time presence on planetary surfaces ...
Missions to Earth-Moon libration points can advance capabilities for human exploration and provide u...
This paper describes the role of telepresence in performing exploration of Mars. As part of an effor...
Communications and networking experts from the NASA Glenn Research Center designed and implemented a...
Through fly-by, orbiter, rover, and even crewed missions, National Aeronautics and Space Administrat...
NASA is developing new technologies to enable planetary exploration. NASA's Space Launch System is a...
Since 2010, the European Space Agency (ESA) and the National Aeronautics and Space Administration (N...
During Summer 2013, the Intelligent Robotics Group at NASA Ames Research Center conducted a series o...
During the past 50 years, we have learned to explore and work in space. Much of what we know about t...