Saved in:
Bibliographic Details
Main Authors: Shofman, Iliya, Neto, Mario Ghio, Ganesh, Theaswanth, He, Kenya, Armstrong, Aidan, Narkevich, Ksenya
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2506.17480
Tags: Add Tag
No Tags, Be the first to tag this record!
_version_ 1866908415131910144
author Shofman, Iliya
Neto, Mario Ghio
Ganesh, Theaswanth
He, Kenya
Armstrong, Aidan
Narkevich, Ksenya
author_facet Shofman, Iliya
Neto, Mario Ghio
Ganesh, Theaswanth
He, Kenya
Armstrong, Aidan
Narkevich, Ksenya
contents Crop residue is an important metric used for agricultural land-use monitoring and climate science research. Estimating crop residue coverage is essential to sustainable agricultural practices. The University of Toronto Aerospace Team is developing FINCH EYE, the optical payload for the upcoming FINCH 3U CubeSat, to measure crop residue cover. We conceived of a novel ultra-compact push-broom architecture with a volume phase-holographic grism dispersive element to keep the design compact and simplify the mechanical assembly. The FINCH EYE will image hyperspectral data from 900nm to 1700nm at 10nm spectral resolution, with a spatial resolution of 100m, and a SNR of 100. In this paper, we will describe the optical design of FINCH EYE, which consists of a commercial objective lens, an InGaAs camera, and a custom lens-grism-lens spectrograph. We will also describe the optomechanical housing, emphasizing design features that facilitate proper alignment during assembly.
format Preprint
id arxiv_https___arxiv_org_abs_2506_17480
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle FINCH EYE: The Optical and Optomechanical Design of a GRISM-based SWIR Hyperspectral Imaging Payload for a 3U CubeSat
Shofman, Iliya
Neto, Mario Ghio
Ganesh, Theaswanth
He, Kenya
Armstrong, Aidan
Narkevich, Ksenya
Optics
Geophysics
Crop residue is an important metric used for agricultural land-use monitoring and climate science research. Estimating crop residue coverage is essential to sustainable agricultural practices. The University of Toronto Aerospace Team is developing FINCH EYE, the optical payload for the upcoming FINCH 3U CubeSat, to measure crop residue cover. We conceived of a novel ultra-compact push-broom architecture with a volume phase-holographic grism dispersive element to keep the design compact and simplify the mechanical assembly. The FINCH EYE will image hyperspectral data from 900nm to 1700nm at 10nm spectral resolution, with a spatial resolution of 100m, and a SNR of 100. In this paper, we will describe the optical design of FINCH EYE, which consists of a commercial objective lens, an InGaAs camera, and a custom lens-grism-lens spectrograph. We will also describe the optomechanical housing, emphasizing design features that facilitate proper alignment during assembly.
title FINCH EYE: The Optical and Optomechanical Design of a GRISM-based SWIR Hyperspectral Imaging Payload for a 3U CubeSat
topic Optics
Geophysics
url https://arxiv.org/abs/2506.17480