从稀疏恢复的轻输运模型学习房间占用模式

2014 22nd International Conference on Pattern Recognition Pub Date : 2014-08-24 DOI:10.1109/ICPR.2014.347

Quan Wang, Xinchi Zhang, M. Wang, K. Boyer

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引用次数: 4

摘要

在传统的视觉系统中，通常从摄像机捕获的图像或视频或深度传感器捕获的深度图像中推断出高级信息。这些图像，无论是灰度、RGB还是深度，都具有人类可读的2D结构，描述了场景的空间分布。在本文中，我们探索了使用分布式颜色传感器来推断高级别信息的可能性，例如房间占用率。与照相机不同，颜色传感器的输出只有几个变量。但是，如果房间内的光是颜色可控的，我们可以使用多个颜色传感器在不同照明条件下的输出来恢复房间内的光传输模型(LTM)。当房间占用率变化时，LTM也随之变化，我们可以使用机器学习来建立从LTM到房间占用率的映射。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Learning Room Occupancy Patterns from Sparsely Recovered Light Transport Models

In traditional vision systems, high level information is usually inferred from images or videos captured by cameras, or depth images captured by depth sensors. These images, whether gray-level, RGB, or depth, have a human-readable 2D structure which describes the spatial distribution of the scene. In this paper, we explore the possibility to use distributed color sensors to infer high level information, such as room occupancy. Unlike a camera, the output of a color sensor has only a few variables. However, if the light in the room is color controllable, we can use the outputs of multiple color sensors under different lighting conditions to recover the light transport model (LTM) in the room. While the room occupancy changes, the LTM also changes accordingly, and we can use machine learning to establish the mapping from LTM to room occupancy.

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2014 22nd International Conference on Pattern Recognition

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