论文信息 - 3D Scene Estimation with Perturbation-Modulated Light and Distributed Sensors

3D Scene Estimation with Perturbation-Modulated Light and Distributed Sensors

In this paper, we present a framework to roughly reconstruct the 3D occupancy scenario of an indoor space using color-controllable light and distributed color sensors. By applying randomly generated perturbation patterns onto the input of the LED fixtures, and measuring the changes of the sensor readings, we are able to recover the light transport model (LTM) of the room. Then a variant of the inverse Radon transform is applied on the LTM to reconstruct the 3D scene. The reconstructed scene by our algorithm can faithfully reveal the occupancy scenario of the indoor space, while preserving the privacy of human subjects. An occupancy-sensitive lighting system can be designed based on this technique.

Kim L. Boyer | Quan Wang | Xinchi Zhang

[1] John T. Wen,et al. Modeling and control of color tunable lighting systems , 2014 .

[2] John T. Wen,et al. Modeling and feedback control of color-tunable LED lighting systems , 2012, 2012 American Control Conference (ACC).

[3] Sarah Eichmann,et al. The Radon Transform And Some Of Its Applications , 2016 .

[4] John T. Wen,et al. Robot Raconteur: A communication architecture and library for robotic and automation systems , 2011, 2011 IEEE International Conference on Automation Science and Engineering.

[5] B. F. Logan,et al. The Fourier reconstruction of a head section , 1974 .

[6] Li Jia,et al. Simulation for pre-visualizing and tuning lighting controller behavior , 2014 .

[7] Steve Marschner,et al. Dual photography , 2005, ACM Trans. Graph..

[8] Li Jia,et al. Using Time-of-Flight Measurements for Privacy-Preserving Tracking in a Smart Room , 2014, IEEE Transactions on Industrial Informatics.