Session

Weekday Session 8: Recent Launches

Location

Utah State University, Logan, UT

Abstract

Napa-2 is a 6U Earth observation satellite flying the Simera Sense MultiScape 100CIS: a 7-band multi-spectral line-scan imager. Together with an on-ground calibration and processing chain from Pinkmatter Solutions, the Napa-2 system can deliver high-quality multi-spectral line scan images at an impressive ground sampling distance of 5m. After its launch and deployment in July 2021, hundreds of line scan images have been taken and valuable (and critical) data was obtained from the spacecraft platform related to attitude and control and timing. Imperative to the success of obtaining high-quality images, was the implementation of the newly developed ISISPACE Attitude Determination and Control System (ADCS). Line scan images were acquired under different conditions, such as simple flyovers, target pointing, and while executing forward-motion compensation maneuvers. The latter included imaging while the ground speed was reduced up to 50 times! In addition, time-delayed integration was applied in various levels to find the optimal signal-to-noise ratio. With the demand for hyper-spectral imaging from CubeSats, ISISPACE believes that the operational experience gained with multi-spectral imaging in combination with the attitude and orbital control system is vital to be able to educate future customers on the optical performance they can expect.

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Aug 10th, 2:15 PM

Multi-Spectral Imaging from LEO: High-Resolution Images and Data from the NAPA-2 Turn-Key Mission

Utah State University, Logan, UT

Napa-2 is a 6U Earth observation satellite flying the Simera Sense MultiScape 100CIS: a 7-band multi-spectral line-scan imager. Together with an on-ground calibration and processing chain from Pinkmatter Solutions, the Napa-2 system can deliver high-quality multi-spectral line scan images at an impressive ground sampling distance of 5m. After its launch and deployment in July 2021, hundreds of line scan images have been taken and valuable (and critical) data was obtained from the spacecraft platform related to attitude and control and timing. Imperative to the success of obtaining high-quality images, was the implementation of the newly developed ISISPACE Attitude Determination and Control System (ADCS). Line scan images were acquired under different conditions, such as simple flyovers, target pointing, and while executing forward-motion compensation maneuvers. The latter included imaging while the ground speed was reduced up to 50 times! In addition, time-delayed integration was applied in various levels to find the optimal signal-to-noise ratio. With the demand for hyper-spectral imaging from CubeSats, ISISPACE believes that the operational experience gained with multi-spectral imaging in combination with the attitude and orbital control system is vital to be able to educate future customers on the optical performance they can expect.