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80NSSC18C0160

Definitive Contract

Overview

Government Description
IN THIS PHASE II EFFORT WE PROPOSE TO ADVANCE THE DEVELOPMENT OF AUTONOMOUS ALIGNMENT TECHNOLOGY ALLOWING IMPROVED PERFORMANCE AND RELIABILITY FROM COHERENT LIDAR SYSTEMS AND DEMONSTRATE THE TECHNOLOGIES IN A WORKING COHERENT LIDAR SYSTEM. EYE-SAFE COHERENT LIDAR TECHNOLOGY HOLDS GREAT PROMISE OF MEETING NASA'S DEMANDING REMOTE 3D SPACE WINDS GOAL NEAR TERM. HIGHLY AUTONOMOUS, LONG-RANGE COHERENT LIDAR SYSTEMS MAY HOWEVER SUFFER SIGNIFICANT SIGNAL LOSS DUE TO ENVIRONMENT-INDUCED COMPONENT MISALIGNMENT, AS WELL AS VARYING RECEIVER LAG-ANGLE ALIGNMENT ERRORS IN SPACE-BASED PLATFORM APPLICATIONS. ALTHOUGH SUCH SYSTEMS CAN BE ENGINEERED WITH THE REQUIRED ALIGNMENT STABILITY, THE OVERALL SIZE, MASS, AND COST TO PRODUCE COHERENT LIDAR SYSTEMS WILL BENEFIT FROM INCORPORATING TECHNOLOGY INTO THE DESIGN THAT ALLOWS ALIGNMENT TO BE OPTIMIZED AUTOMATICALLY WHILE THE SYSTEM IS IN THE FIELD. AUTONOMOUS SPACE- AND AIR-BORNE LIDAR SYSTEMS WILL ESPECIALLY BENEFIT, WHERE MAINTAINING PEAK PERFORMANCE IS CRITICAL WITHOUT REGULAR HUMAN INTERVENTION. AUTO-ALIGNMENT TECHNOLOGIES WILL RESULT IN LOWER-COST LIDAR SENSORS WITH GREATER AUTONOMY AND LESS-EXOTIC OPTO-MECHANICS, SPURRING STRONG COMMERCIAL POTENTIAL DUE TO THE RAPID INTRODUCTION OF LIDAR SYSTEMS INTO THE COMMERCIAL MARKETPLACE FOR VARIOUS APPLICATIONS. THE TECHNOLOGY AIMED AT MAINTAINING LASER AND LIDAR ALIGNMENT ALSO HAS POTENTIAL TO CORRECT FOR RECEIVER LAG ANGLE IN FAST-SCANNING LONG-RANGE LIDAR SYSTEMS, WHICH WILL FACILITATE FASTER SCAN RATES, LARGER APERTURES, AND GREATER AREA COVERAGE RATE CAPABILITY. BEYOND PHOTONICS HAS A STRONG INTEREST IN SOLVING THESE TECHNOLOGICAL PROBLEMS FOR RELEVANT GROUND-BASED, AIRBORNE, AND SPACE-BASED UNATTENDED LIDAR SYSTEMS. THIS PHASE II EFFORT WILL FURTHER MATURE AUTO-ALIGNMENT DESIGNS EXHIBITING A HIGH LEVEL OF SYNERGY BETWEEN NASA'S AND OTHER COMMERCIAL VENDORS REQUIREMENTS FOR LASER AUTO-ALIGNMENT, TRANSMIT/RECEIVE TRANSCEIVER AUTO-ALIGNMENT, AND RECEIVER LAG ANGLE COMPENSATION.
Awardee
Beyond Photonics
Awarding / Funding Agency
Shared Services Center (NSSC) [NASA]
NAICS
541715 - Research and Development in the Physical, Engineering, and Life Sciences (except Nanotechnology and Biotechnology)
PSC
AR11 - Space R&D Services; Space Flight, Research And Supporting Activities; Basic Research
Place of Performance
Boulder, CO 80301 United States
Pricing
Fixed Price
Set Aside
Small Business Set Aside - Total (SBA)
Extent Competed
Full And Open Competition After Exclusion Of Sources
Est. Average FTE
1
Related Opportunity
None
Analysis Notes
Amendment Since initial award the Potential End Date has been extended from 06/11/20 to 06/28/22 and the Potential Award value has increased 20% from $749,915 to $896,715.
Beyond Photonics was awarded Definitive Contract 80NSSC18C0160 (80NSSC-18-C-0160) worth up to $896,715 by Shared Services Center in June 2018. The contract has a duration of 4 years and was awarded through SBIR Topic Electronic Materials with a Small Business Total set aside with NAICS 541715 and PSC AR11 via direct negotiation acquisition procedures with 500 bids received.

SBIR Details

Research Type
Small Business Innovation Research Program (SBIR) Phase II
Title
Autonomous Alignment Advancements for Eye-Safe Coherent Lidar
Related Solicitation
Electronic Materials
Abstract

In this Phase II effort we propose to advance the development of autonomous alignment technology allowing improved performance and reliability from coherent lidar systems and demonstrate the technologies in a working coherent lidar system.  Eye-safe coherent lidar technology holds great promise of meeting NASA's demanding remote 3D space winds goal near term.  Highly autonomous, long-range coherent lidar systems may however suffer significant signal loss due to environment-induced component misalignment, as well as varying receiver lag-angle alignment errors in space-based platform applications.  Although such systems can be engineered with the required alignment stability, the overall size, mass, and cost to produce coherent lidar systems will benefit from incorporating technology into the design that allows alignment to be optimized automatically while the system is in the field.  Autonomous space- and air-borne lidar systems will especially benefit, where maintaining peak performance is critical without regular human intervention.  Auto-alignment technologies will result in lower-cost lidar sensors with greater autonomy and less-exotic opto-mechanics, spurring strong commercial potential due to the rapid introduction of lidar systems into the commercial marketplace for various applications.  The technology aimed at maintaining laser and lidar alignment also has potential to correct for receiver lag angle in fast-scanning long-range lidar systems, which will facilitate faster scan rates, larger apertures, and greater area coverage rate capability.  Beyond Photonics has a strong interest in solving these technological problems for relevant ground-based, airborne, and space-based unattended lidar systems.  This Phase II effort will further mature auto-alignment designs exhibiting a high level of synergy between NASA's and other commercial vendors’ requirements for laser auto-alignment, transmit/receive transceiver auto-alignment, and receiver lag angle compensation.

Research Objective
The goal of phase II is to continue the R&D efforts initiated in Phase I. Funding is based on the results achieved in Phase I and the scientific and technical merit and commercial potential of the project proposed in Phase II.
Topic Code
S1
Agency Tracking Number
175102
Solicitation Number
SBIR_17_P2
Contact
Sammy Henderson

Status
(Complete)

Last Modified 1/25/22
Period of Performance
6/12/18
Start Date
6/28/22
Current End Date
6/28/22
Potential End Date
100% Complete

Obligations
$896.7K
Total Obligated
$896.7K
Current Award
$896.7K
Potential Award
100% Funded

Award Hierarchy

Definitive Contract

80NSSC18C0160

Subcontracts

0

Activity Timeline

Interactive chart of timeline of amendments to 80NSSC18C0160

Transaction History

Modifications to 80NSSC18C0160

People

Suggested agency contacts for 80NSSC18C0160

Competition

Number of Bidders
500
Solicitation Procedures
Negotiated Proposal/Quote
Evaluated Preference
None
Commercial Item Acquisition
Commercial Item
Simplified Procedures for Commercial Items
No

Other Categorizations

Subcontracting Plan
Plan Not Required
Cost Accounting Standards
No (Waiver Approved)
Business Size Determination
Small Business
Awardee UEI
ZG3HJG8D1924
Awardee CAGE
6NMQ6
Agency Detail
Awarding Office
80NSSC NASA SHARED SERVICES CENTER
Funding Office
80NSSC
Created By
andrew.m.franklin@nasa.gov
Last Modified By
justin.b.prince@nasa.gov
Approved By
justin.b.prince@nasa.gov

Legislative

Legislative Mandates
None Applicable
Performance District
CO-02
Senators
Michael Bennet
John Hickenlooper
Representative
Joe Neguse

Budget Funding

Federal Account Budget Subfunction Object Class Total Percentage
Space Technology, National Aeronautics Space Administration (080-0131) Space flight, research, and supporting activities Research and development contracts (25.5) $999,830 67%
Science, National Aeronautics and Space Administration (080-0120) Space flight, research, and supporting activities Research and development contracts (25.5) $500,000 33%
Modified: 1/25/22