Machine Intelligence and Robotics: Report of the NASA Study Group : Final Report |
From inside the book
Page 335
... Figures. 3-1 Trend of mission ground operations costs 7 . 3-2 Trend of spacecraft automation 8 3-3 Trend of cost to generate ground commands 8 3-4 Trend of cost per mission operation 8 3-5 Trend of function ( decision ) allocation ...
... Figures. 3-1 Trend of mission ground operations costs 7 . 3-2 Trend of spacecraft automation 8 3-3 Trend of cost to generate ground commands 8 3-4 Trend of cost per mission operation 8 3-5 Trend of function ( decision ) allocation ...
Page 344
... Figure 3-5 . There are many simple or repetitive tasks which existing machine intelligence technology is fully capable of dealing with more reliably and less expensively than if human beings were in the loop . This , in turn , frees ...
... Figure 3-5 . There are many simple or repetitive tasks which existing machine intelligence technology is fully capable of dealing with more reliably and less expensively than if human beings were in the loop . This , in turn , frees ...
Page 345
... Figure 3-2 . Trend of spacecraft automation . As a relative indicator , the level of automation is measured by the different elementary functions the spacecraft can perform in an unpredictable environment between ground commands . A 100 ...
... Figure 3-2 . Trend of spacecraft automation . As a relative indicator , the level of automation is measured by the different elementary functions the spacecraft can perform in an unpredictable environment between ground commands . A 100 ...
Page 347
... Figure 4-2 . Mars surface robot will operate for 2 years and travel about 1000 km performing experiments automatically and send- ing the scientific information back to Earth . Figure 4-1 . Galileo spacecraft navigates between Jupiter ...
... Figure 4-2 . Mars surface robot will operate for 2 years and travel about 1000 km performing experiments automatically and send- ing the scientific information back to Earth . Figure 4-1 . Galileo spacecraft navigates between Jupiter ...
Page 348
... AND THE LUNAR BASE ( 1998 ) . 2 ) HANDLING FUNCTIONS ARE GENERALLY ASSOCIATED WITH MOBILITY UNITS , MANIPULATIVE DEVICES OR TOOLS REQUIRING CONTROL OF ACTUATORS user . Figure 4-4 . Seasat . The oceanographic satellite's. Global Services 12.
... AND THE LUNAR BASE ( 1998 ) . 2 ) HANDLING FUNCTIONS ARE GENERALLY ASSOCIATED WITH MOBILITY UNITS , MANIPULATIVE DEVICES OR TOOLS REQUIRING CONTROL OF ACTUATORS user . Figure 4-4 . Seasat . The oceanographic satellite's. Global Services 12.
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Common terms and phrases
algorithms Allen Newell analysis applications areas Artificial Intelligence automated basic behavior capabilities centers chess complex computer science computer systems concept Conf construction cost DENDRAL devices discussion domain elements engineering environment example existing experience exploration Feigenbaum Figure functions GAME goal hardware heuristic programming heuristic search human hypotheses ill-structured problems inference information processing input intelligence and robotics interaction knowledge learning logic machine intelligence man-machine systems manipulators Marvin Minsky mathematical mechanisms memory ment methods Michie Minsky mission operations MYCIN NASA NASA's Natural Language Newell Papers 3d Intl pattern recognition performance planetary planning problem solving problem space problem statement Proc procedure processor Project Project MAC PSYC psychology representation rover rules sensors sequence Simon simplex method solution solver spacecraft specific Stanford Research Institute Stanford Univ structure Study Group subproblems symbolic task Tech techniques TEIRESIAS teleoperator theory tion