ThermalNeRF: Thermal Radiance Fields
This addresses challenges in thermal imaging for applications like agricultural monitoring and building inspection, though it is incremental as it builds on existing radiance field methods.
The authors tackled 3D thermal scene reconstruction from low-resolution long-wave infrared (LWIR) images by proposing a unified framework using a multispectral radiance field that combines LWIR and RGB data, enabling thermal super-resolution and obstacle removal across spectra.
Thermal imaging has a variety of applications, from agricultural monitoring to building inspection to imaging under poor visibility, such as in low light, fog, and rain. However, reconstructing thermal scenes in 3D presents several challenges due to the comparatively lower resolution and limited features present in long-wave infrared (LWIR) images. To overcome these challenges, we propose a unified framework for scene reconstruction from a set of LWIR and RGB images, using a multispectral radiance field to represent a scene viewed by both visible and infrared cameras, thus leveraging information across both spectra. We calibrate the RGB and infrared cameras with respect to each other, as a preprocessing step using a simple calibration target. We demonstrate our method on real-world sets of RGB and LWIR photographs captured from a handheld thermal camera, showing the effectiveness of our method at scene representation across the visible and infrared spectra. We show that our method is capable of thermal super-resolution, as well as visually removing obstacles to reveal objects that are occluded in either the RGB or thermal channels. Please see https://yvette256.github.io/thermalnerf for video results as well as our code and dataset release.