NIST Technical NoteU.S. Department of Commerce, National Institute of Standards and Technology, 1989 |
From inside the book
Results 1-5 of 8
Page 7
... window of interest . The Job Assignment module writes parameters supplied by the operator into the world model global memory where they can be read by the Execution module at any level . The operator also specifies the mode of operation ...
... window of interest . The Job Assignment module writes parameters supplied by the operator into the world model global memory where they can be read by the Execution module at any level . The operator also specifies the mode of operation ...
Page 9
... window . The length of the time interval is supplied by the world model and depends upon factors such as timing and accuracy requirements . In addition , the window usually covers a shorter interval at lower levels of the control ...
... window . The length of the time interval is supplied by the world model and depends upon factors such as timing and accuracy requirements . In addition , the window usually covers a shorter interval at lower levels of the control ...
Page 10
... window for the centroid value of a moving object are two examples . The results of the sensory processing integration and detection processes are sent to the world model where they are used to update confidence factors and global memory ...
... window for the centroid value of a moving object are two examples . The results of the sensory processing integration and detection processes are sent to the world model where they are used to update confidence factors and global memory ...
Page 18
... window is defined in the world model . The pixels are summed over this window . Lastly , the results of the spatio - temporal information are evaluated by comparing the re- sults to a threshold parameter stored in the world model ...
... window is defined in the world model . The pixels are summed over this window . Lastly , the results of the spatio - temporal information are evaluated by comparing the re- sults to a threshold parameter stored in the world model ...
Page 19
... window n Σf ( x , y , t ) t - m size of temporal integration 2 0 algorithm name predicted edge mask 2 -1 C - 1 intensity pixel intensity pixel intensity pixel Figure 10. Sensory Processing for a Sobel Edge Detection Algorithm . Each ...
... window n Σf ( x , y , t ) t - m size of temporal integration 2 0 algorithm name predicted edge mask 2 -1 C - 1 intensity pixel intensity pixel intensity pixel Figure 10. Sensory Processing for a Sobel Edge Detection Algorithm . Each ...
Other editions - View all
Common terms and phrases
algorithm command algorithm parameters Appendix Architecture Artificial Intelligence averaging binary blurred camera class of algorithms command number Execution Comparator Module Computer Computer Vision Corner Detection described edge detection Engineering enhancement Execution command number Execution module Figure frequency functions Gaithersburg global data system GONZA77 grey level hierarchy High-Pass Filtering histogram IEEE Image Processing input Institute of Standards intensity Job Assignment module Level 1 Job Level 1 Sensory Level 1 Task low-pass Low-Pass Filtering manipulator mask measure methods module receives neighborhood NIST number Execution status object optical flow output performed pixels Planner module Precision requirements Priority preprocessing technique priority level assigned queue Robotics ROSEN82 segmentation selected algorithm sensory processing module sensory processing system SP WM TD spatial integrator specified Standards and Technology step edge surface patch Tactile Task Decomposition interface task decomposition module Telerobot texture threshold value tion update Visual Perception world model global World Modeling Interface
Popular passages
Page 23 - An Operator Which Locates Edges in Digitized Pictures," Journal of the ACM, Vol. 18, No. 1, January 1971, pp. 113-125.