The three volumes contain 139 papers presented at the meeting. Subjects covered include types of sensors and sensor applications, satellite, aircraft and ground-based remotesensing systems, imageprocessing, imaging ...
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The three volumes contain 139 papers presented at the meeting. Subjects covered include types of sensors and sensor applications, satellite, aircraft and ground-based remotesensing systems, imageprocessing, imaging techniques, image analysis, patternrecognition systems, natural resource inventories, mineral exploration, topographic mapping, agricultural applications, water resources applications, meteorological applications, oceanographic applications, geological, geophysical and geotechnical engineering applications, and others. Technical and professional papers from this conference are indexed with the conference code no. 00777 in the Ei Engineering Meetings (TM) database produced by Engineering Information, Inc.
This conference proceedings contains 294 papers. Two hundred forty-five papers are indexed separately. Topics covered include: remotesensing, speech recognition;line drawing and contour analysis;nearest neighbor tech...
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This conference proceedings contains 294 papers. Two hundred forty-five papers are indexed separately. Topics covered include: remotesensing, speech recognition;line drawing and contour analysis;nearest neighbor techniques;imageprocessing;hardware concepts and systems;biomedical applications;clustering and learning;robotics;decision and discrimination theories;text processing;texture analysis;patternrecognition;coding and filtering;feature analysis;geometric and statistical methods;and, shape description and analysis.
A current NASA technology research program and a projected plan are described for developing adaptive sensing technology through a coordinated ground-based research effort and a Shuttle flight-experiments program. The...
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A current NASA technology research program and a projected plan are described for developing adaptive sensing technology through a coordinated ground-based research effort and a Shuttle flight-experiments program. The first phase includes a Feature Identification and Location Experiment (FILE). Hardware is completed and the experiment is scheduled for flight on Shuttle (STS2/flight OSTA-1) in 1980. The experiment object is to evaluate a technique for autonomously classifying earth features into four categories: bare land; water; vegetation; and clouds, snow or ice. The FILE experiment is described and the evolution of the technology development plan from feature identification to autonomous pointing, tracking, and navigation functions is outlined.
A map-guided approach to interpretation of remotely sensed imagery is described, with emphasis on applications involving continuous monitoring of predetermined ground sites. Geometric correspondence between a sensed i...
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A map-guided approach to interpretation of remotely sensed imagery is described, with emphasis on applications involving continuous monitoring of predetermined ground sites. Geometric correspondence between a sensed image and a symbolic reference map is established in an initial stage of processing by adjusting parameters of a sensor model so that image features predicted from the map optimally match corresponding features extracted from the sensed image. Information in the map is then used to constrain where to look in an image and what to look for. With such constraints, previously intractable remotesensing tasks can become feasible, even easy, to automate.
This conference proceedings contains 93 papers. All papers are indexed separately. Topics covered include: patternrecognition theory;industrial applications;edge processing;structural patternrecognition and clusteri...
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This conference proceedings contains 93 papers. All papers are indexed separately. Topics covered include: patternrecognition theory;industrial applications;edge processing;structural patternrecognition and clustering;applied imagery patternrecognition;curve and shape description;scene analysis;medical applications;texture and mathematical foundations;two dimensional and three dimensional shape description and matching;scene segmentation and interpretation;image coding and curve approximation;and, remotesensing and time-varying imagery.
A current NASA technology research program and a projected plan are described for developing adaptive sensing technology through a coordinated ground-based research effort and a Shuttle flight-experiments program. The...
详细信息
A current NASA technology research program and a projected plan are described for developing adaptive sensing technology through a coordinated ground-based research effort and a Shuttle flight-experiments program. The first phase includes a Feature Identification and Location Experiment (FILE). Hardware is completed and the experiment is scheduled for flight on Shuttle (STS2/flight OSTA-1) in 1980. The experiment object is to evaluate a technique for autonomously classifying earth features into four categories: bare land;water;vegetation;and clouds, snow or ice. The FILE experiment is described and the evolution of the technology development plan from feature identification to autonomous pointing, tracking, and navigation functions is outlined.
A map-guided approach to interpretation of remotely sensed imagery is described, with emphasis on applications involving continuous monitoring of predetermined ground sites. Geometric correspondence between a sensed i...
详细信息
A map-guided approach to interpretation of remotely sensed imagery is described, with emphasis on applications involving continuous monitoring of predetermined ground sites. Geometric correspondence between a sensed image and a symbolic reference map is established in an initial stage of processing by adjusting parameters of a sensor model so that image features predicted from the map optimally match corresponding features extracted from the sensed image. Information in the map is then used to constrain where to look in an image and what to look for. With such constraints, previously intractable remotesensing tasks can become feasible, even easy, to automate.
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