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Award

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A Smart Spectral Polarimetric Imager for Autonomous Plant Health Monitoring

Awardee

SPACE LAB TECHNOLOGIES, LLC

5455 SPINE RD STE ME
BOULDER, CO, 80301-3312
USA

Award Year: 2021

UEI: WDXTJ9AHNZ68

HUBZone Owned: No

Woman Owned: No

Socially and Economically Disadvantaged: Yes

Congressional District: 2

Tagged as:

STTR

Phase I

Seal of the Agency: NASA

Awarding Agency

NASA

Total Award Amount: $131,495

Contract Number: 80NSSC21C0123

Agency Tracking Number: 212266

Solicitation Topic Code: T6

Solicitation Number: STTR_21_P1

Abstract

For future long-duration space exploration missions, NASA expressed the need for plant systems that may provide a nutrient dense supplement to crew diet and possibly other life support functions, such as CO2 removal, O2 production, water recovery, and waste recycling.nbsp; Current and future infrastructure for plant growth include chambers with controlled environments.nbsp; To ensure optimal growing conditions in these chambers, the plants will require precise monitoring of health throughout the plant life cycle.nbsp; These monitoring systems will need to operate autonomously with little crew involvement.nbsp; Current plant monitoring instruments include multispectral and hyperspectral sensing that require post-process algorithms to detect physiological phenomena.nbsp; Space Lab Technologies (Space Lab) and the Space Plants Lab at the University of Florida (UF) propose an improved approach for monitoring space plant health using a smart spectral polarimetric imager to monitor morphological features and stresses.nbsp; The Phase I work investigates not only sensing bandlimited reflectance as do current space plant imagers, but also study the polarization flux reflected from the plant surfaces.nbsp; The polarization information conveys electric field direction of the reflected light.nbsp; Spectral polarization studies of plants are an emerging method for plant health monitoring with related published works within the past few years.nbsp; The proposed innovation expands upon this current research, where the biological and physical science for plant spectral polarimetry is still being researched.nbsp; In addition to spectral polarization imaging, real-time image processing using digital signal processing techniques within the on-board FPGA provide autonomous plant health monitoring.nbsp; Combining the use of spectrum, polarization, and real-time image processing in instrumentation enables optimal control for producing healthy plants or crops for space exploration.

Award Schedule

  1. 2021
    Solicitation Year

  2. 2021
    Award Year

  3. May 12, 2021
    Award Start Date

  4. June 19, 2022
    Award End Date

Principal Investigator

Name: Adam Escobar
Phone: (720) 309-8475
Email: adam@spacelabtech.com

Business Contact

Name: Christine Escobar
Phone: (720) 309-8475
Email: chris@spacelabtech.com

Research Institution

Name: University of Florida
Phone: () -