Inference and Learning for Active Sensing‚ Experimental Design and Control
In this paper we argue that maximum expected utility is a suitable framework for modeling a broad range of decision problems arising in pattern recognition and related fields. Examples include, among others, gaze planning and other active vision problems, active learning, sensor and actuator placeme...
| Main Authors: | , , , |
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| Other Authors: | |
| Format: | Book |
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2009
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| _version_ | 1826297519249817600 |
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| author | Kueck, H Hoffman, M Doucet, A Freitas, N |
| author2 | Araujo, H |
| author_facet | Araujo, H Kueck, H Hoffman, M Doucet, A Freitas, N |
| author_sort | Kueck, H |
| collection | OXFORD |
| description | In this paper we argue that maximum expected utility is a suitable framework for modeling a broad range of decision problems arising in pattern recognition and related fields. Examples include, among others, gaze planning and other active vision problems, active learning, sensor and actuator placement and coordination, intelligent human-computer interfaces, and optimal control. Following this remark, we present a common inference and learning framework for attacking these problems. We demonstrate this approach on three examples: (i) active sensing with nonlinear, non-Gaussian, continuous models, (ii) optimal experimental design to discriminate among competing scientific models, and (iii) nonlinear optimal control. |
| first_indexed | 2024-03-07T04:32:52Z |
| format | Book |
| id | oxford-uuid:ceec1682-7b99-4ab9-a96c-fc60e2d820ca |
| institution | University of Oxford |
| last_indexed | 2024-03-07T04:32:52Z |
| publishDate | 2009 |
| record_format | dspace |
| spelling | oxford-uuid:ceec1682-7b99-4ab9-a96c-fc60e2d820ca2022-03-27T07:38:52ZInference and Learning for Active Sensing‚ Experimental Design and ControlBookhttp://purl.org/coar/resource_type/c_2f33uuid:ceec1682-7b99-4ab9-a96c-fc60e2d820caDepartment of Computer Science2009Kueck, HHoffman, MDoucet, AFreitas, NAraujo, HMendonca, APinho, ATorres, MIn this paper we argue that maximum expected utility is a suitable framework for modeling a broad range of decision problems arising in pattern recognition and related fields. Examples include, among others, gaze planning and other active vision problems, active learning, sensor and actuator placement and coordination, intelligent human-computer interfaces, and optimal control. Following this remark, we present a common inference and learning framework for attacking these problems. We demonstrate this approach on three examples: (i) active sensing with nonlinear, non-Gaussian, continuous models, (ii) optimal experimental design to discriminate among competing scientific models, and (iii) nonlinear optimal control. |
| spellingShingle | Kueck, H Hoffman, M Doucet, A Freitas, N Inference and Learning for Active Sensing‚ Experimental Design and Control |
| title | Inference and Learning for Active Sensing‚ Experimental Design and Control |
| title_full | Inference and Learning for Active Sensing‚ Experimental Design and Control |
| title_fullStr | Inference and Learning for Active Sensing‚ Experimental Design and Control |
| title_full_unstemmed | Inference and Learning for Active Sensing‚ Experimental Design and Control |
| title_short | Inference and Learning for Active Sensing‚ Experimental Design and Control |
| title_sort | inference and learning for active sensing experimental design and control |
| work_keys_str_mv | AT kueckh inferenceandlearningforactivesensingexperimentaldesignandcontrol AT hoffmanm inferenceandlearningforactivesensingexperimentaldesignandcontrol AT douceta inferenceandlearningforactivesensingexperimentaldesignandcontrol AT freitasn inferenceandlearningforactivesensingexperimentaldesignandcontrol |