Fire Location for High and Large-Span Space Buildings based on Binocular Stereo Vision

This paper is concerned to the fire localization problem for large-space buildings. Two kinds of circular fire source arrangement localization methods are proposed on the basis of the dynamic optimization technology. In the Range-Point-Range frame, a dynamic optimization localization is proposed to globally estimate the circle center of the circular arrangement to be determined based on all the point estimates of the fire source. In the Range-Range-Range frame, a dynamic optimization localization method is developed by solving a non-convex optimization problem. In this way, the circle center and the radius are obtained simultaneously. Additionally, the dynamic angle bisector method is evaluated. Finally, a simulation with three simulation scenes is provided to illustrate the effectiveness and availability of the proposed methods.

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Fire Location for High and Large-Span Space Buildings based on Binocular Stereo Vision

Cited by 3 publications

References 16 publications

3D Location of Indoor Fire Ignition with a Multilevel Constraint Based on Monocular Vision

3D Location of Indoor Fire Ignition with a Multilevel Constraint Based on Monocular Vision

Evaluation of Fire Intensity Based on Neural Networks in a Forest-Fire Monitoring System

Fire Source Range Localization Based on the Dynamic Optimization Method for Large-Space Buildings

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