SBIR-STTR Award

Onboard Data Infrastructure for Spacecraft (ODIS)
Award last edited on: 3/27/2023

Sponsored Program
SBIR
Awarding Agency
NASA : GRC
Total Award Amount
$124,975
Award Phase
1
Solicitation Topic Code
H9.07
Principal Investigator
J David Marks

Company Information

Advanced Space LLC

2100 Central Avenue Suite 102
Boulder, CO 80301
   (720) 545-9191
   info@advanced-space.com
   www.advanced-space.com
Location: Multiple
Congr. District: 02
County: Boulder

Phase I

Contract Number: 80NSSC19C0388
Start Date: 8/19/2019    Completed: 2/18/2020
Phase I year
2019
Phase I Amount
$124,975
Traditionally, limitations in spacecraft computing capabilities have limited the amount of collected data that is stored onboard a spacecraft. The lack of sufficient onboard resources have also resulted in custom data storage architectures that vary by mission in the absence of a standard data access framework. Onboard computing capabilities have improved significantly through targeted investments in technologies in recent years and will continue to grow in the future. Additionally, ground-based processing, which inherits time-lag, communication availability, and limited bandwidth issues, will be incapable of meeting the increasing demands for operational and scientific data processing objectives. As flight software systems mature to take advantage of increased onboard computing resources, a standardized infrastructure will be needed to store and access data onboard. Advanced Space proposes to demonstrate the feasibility of ODIS, the Onboard Data Infrastructure for Spacecraft. ODIS utilizes standard SQL interfaces and open-source relational databases that operate within a standardized framework for data storage and retrieval. Additionally, Advanced Space proposes to design and implement a Database Memory Manager (DMM) that will allow increased data storage onboard a spacecraft. ODIS will be demonstrated within NASA’s Core Flight System (cFS) software architecture. With the ability to utilize standard industry-accepted interfaces such as SQL to facilitate onboard processing of operational and scientific data, ODIS can dramatically increase the scientific yield of future missions. Technologies that use machine learning and spacecraft autonomy will especially benefit from ODIS as data is essential to machine learning implementations. Investing in this capability now and demonstrating in compliance with cFS FSW architecture will accelerate development of autonomous and flexible software and avert a future with differing, incompatible, and low performing architectures. Potential NASA Applications (Limit 1500 characters, approximately 150 words) The application for this technology is any future space missions that require onboard data processing to improve autonomy, science yield, and overall mission performance. NASA adoption of ODIS for all onboard data storage and retrieval operations will establish a standardized approach to mission data handling, enabling inter-spacecraft data exchanges and many advanced spacecraft operations that are required or highly beneficial for deep space applications. Potential Non-NASA Applications (Limit 1500 characters, approximately 150 words) The existence of a standardized, open-source framework for data storage onboard spacecraft will enable sophisticated flight software on any spacecraft mission. Onboard databases can support commercial missions by increasing the amount of instrument data return and enabling onboard autonomy. ODIS would allow for collaborative spacecraft and networking of space assets across organizations.

Phase II

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Start Date: 00/00/00    Completed: 00/00/00
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