Multispectral imaging using a single bucket detector

TL;DR

This paper introduces a novel multispectral imaging method using a single bucket detector with multiplexed spectral and spatial modulation, enabling efficient 3D data capture in a compact, cost-effective setup.

Contribution

It proposes a multiplexed single-pixel imaging scheme for multispectral data acquisition, combining spectral and spatial modulation to overcome traditional sensor limitations.

Findings

Captured 64x64x10 multispectral data in 1 minute

Achieved high flexibility across spectrum ranges and resolutions

Demonstrated potential for portable, low-light, and airborne applications

Abstract

Current multispectral imagers suffer from low photon efficiency and limited spectrum range. These limitations are partially due to the technological limitations from array sensors (CCD or CMOS), and also caused by separative measurement of the entries/slices of a spatial-spectral data cube. Besides, they are mostly expensive and bulky. To address above issues, this paper proposes to image the 3D multispectral data with a single bucket detector in a multiplexing way. Under the single pixel imaging scheme, we project spatial-spectral modulated illumination onto the target scene to encode the scene's 3D information into a 1D measurement sequence. Conventional spatial modulation is used to resolve the scene's spatial information. To avoid increasing requisite acquisition time for 2D to 3D extension of the latent data, we conduct spectral modulation in a frequency-division multiplexing manner in the speed gap between slow spatial light modulation and fast detector response. Then the sequential reconstruction falls into a simple Fourier decomposition and standard compressive sensing problem. A proof-of-concept setup is built to capture the multispectral data (64 pixels $\times$ 64 pixels $\times$ 10 wavelength bands) in the visible wavelength range (450nm-650nm) with acquisition time being 1 minute. The imaging scheme is of high flexibility for different spectrum ranges and resolutions. It holds great potentials for various low light and airborne applications, and can be easily manufactured production-volume portable multispectral imagers.