Award
Portfolio Data
A Smart Spectral Polarimetric Imager for Autonomous Plant Health Monitoring
Award Year: 2021
UEI: WDXTJ9AHNZ68
HUBZone Owned: No
Woman Owned: No
Socially and Economically Disadvantaged: Yes
Congressional District: 2
Tagged as:
STTR
Phase I
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
-
2021
Solicitation Year -
2021
Award Year -
May 12, 2021
Award Start Date -
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: () -