NA24OARX021G0028
Project Grant
Overview
Grant Description
Purpose: We propose to develop a new fluorescence-enhanced, AUV mounted, high resolution 3D laser imaging system for coral reef ecosystem management and research.
Advantages of this system will include: enhanced automated discrimination of bottom cover type (e.g., live standing coral, dead standing coral, coral rubble, algae); detection and counting of coral recruits; direct determination and mensuration of 3D reef structure; autonomously repeatable survey tracks for long term recovery, resiliency and growth studies.
Several studies have demonstrated that fluorescence imaging of reefs can provide enhanced automated discrimination between dead and live coral and algae cover, and potentially also of other seafloor organisms based on distinctive fluorescence properties.
The combination of the fluorescence spectral signal with shape and structure information from the 3D imaging LIDAR data collection and the use of machine learning will provide a powerful multidimensional tool for bottom cover classification.
The system will build upon our existing AUV compatible single-channel 3D laser imager.
Since classification is done to the pixel level, area coverage can be assessed with many more data points than can be achieved by conventional diver-based survey techniques, and with more automated classification than existing color video analysis approaches.
Making repeated surveys at user-selected time intervals will enhance the ability to monitor changes in reef community and physical structure.
Per NOAAS Coral Reef Conservation Program, the annual economic value of coral reef for the US is over $3.4 billion and over 500 million people depend on coral reefs for food, income, and coastal protection.
Because of the large threat to coral reefs from pollution, global warming, overfishing, and disease, it is imperative that larger coral reef areas be periodically monitored for early detection of decay and thus to take mitigation measures, if possible, to prevent the decline of the reef.
The lack of a sensor that is capable of large area survey specifically targeting coral reef ecosystem management and research provides a huge opportunity for this product.
During Phase II and after, this sensor will be enhanced to provide an easy to use and cost-effective solution to our NOAA partners, scientific community, and industrial partners.
Thereby, due to the immediate necessity of a survey tool that can determine changing conditions in a coral reef, Beamsea estimates sales revenue of $5 million from this sensor and derived subcomponents during the first 10 years.
Additional derived applications to be evaluated are survey of hydrocarbon and pollution impacted areas, and fisheries habitat surveys.
Advantages of this system will include: enhanced automated discrimination of bottom cover type (e.g., live standing coral, dead standing coral, coral rubble, algae); detection and counting of coral recruits; direct determination and mensuration of 3D reef structure; autonomously repeatable survey tracks for long term recovery, resiliency and growth studies.
Several studies have demonstrated that fluorescence imaging of reefs can provide enhanced automated discrimination between dead and live coral and algae cover, and potentially also of other seafloor organisms based on distinctive fluorescence properties.
The combination of the fluorescence spectral signal with shape and structure information from the 3D imaging LIDAR data collection and the use of machine learning will provide a powerful multidimensional tool for bottom cover classification.
The system will build upon our existing AUV compatible single-channel 3D laser imager.
Since classification is done to the pixel level, area coverage can be assessed with many more data points than can be achieved by conventional diver-based survey techniques, and with more automated classification than existing color video analysis approaches.
Making repeated surveys at user-selected time intervals will enhance the ability to monitor changes in reef community and physical structure.
Per NOAAS Coral Reef Conservation Program, the annual economic value of coral reef for the US is over $3.4 billion and over 500 million people depend on coral reefs for food, income, and coastal protection.
Because of the large threat to coral reefs from pollution, global warming, overfishing, and disease, it is imperative that larger coral reef areas be periodically monitored for early detection of decay and thus to take mitigation measures, if possible, to prevent the decline of the reef.
The lack of a sensor that is capable of large area survey specifically targeting coral reef ecosystem management and research provides a huge opportunity for this product.
During Phase II and after, this sensor will be enhanced to provide an easy to use and cost-effective solution to our NOAA partners, scientific community, and industrial partners.
Thereby, due to the immediate necessity of a survey tool that can determine changing conditions in a coral reef, Beamsea estimates sales revenue of $5 million from this sensor and derived subcomponents during the first 10 years.
Additional derived applications to be evaluated are survey of hydrocarbon and pollution impacted areas, and fisheries habitat surveys.
Awardee
Funding Goals
18 CLIMATE ADAPTATION AND MITIGATION 19 WEATHER-READY NATION 20 HEALTHY OCEANS 21 RESILIENT COASTAL COMMUNITIES AND ECONOMIES
Grant Program (CFDA)
Awarding / Funding Agency
Place of Performance
Loxahatchee,
Florida
334704747
United States
Geographic Scope
Single Zip Code
Related Opportunity
Beamsea Associates was awarded
Project Grant NA24OARX021G0028
worth $174,892
from National Oceanic and Atmospheric Administration in August 2024 with work to be completed primarily in Loxahatchee Florida United States.
The grant
has a duration of 5 months and
was awarded through assistance program 11.021 NOAA Small Business Innovation Research (SBIR) Program.
The Project Grant was awarded through grant opportunity NOAA SBIR FY 2024 Phase I.
SBIR Details
Research Type
SBIR Phase I
Title
A Species-level Automated Monitoring Tool for Coral Reef Ecosystem Management
Abstract
We propose to develop a new fluorescence-enhanced, AUV mounted, high resolution 3D laser imaging system for coral reef ecosystem management and research. Advantages of this system will include: enhanced automated discrimination of bottom cover type (e.g., live standing coral, dead standing coral, coral rubble, algae); detection and counting of coral recruits, direct determination and mensuration of 3D reef structure; autonomously repeatable survey tracks for long term recovery, resiliency and growth studies. Several studies have demonstrated that fluorescence imaging of reefs can provide enhanced automated discrimination between dead and live coral and algae cover, and potentially also of other seafloor organisms based on distinctive fluorescence properties. The combination of the fluorescence spectral signal with shape and structure information from the 3D imaging LiDAR data collection and the use of machine learning will provide a powerful multidimensional tool for bottom cover classification. The system will build upon our existing AUV compatible single-channel 3D laser imager. Since classification is done to the pixel level, area coverage can be assessed with many more data points than can be achieved by conventional diver-based survey techniques, and with more automated classification than existing color video analysis approaches. Making repeated surveys at user-selected time intervals will enhance the ability to monitor changes in reef community and physical structure.
Topic Code
9.3
Solicitation Number
NOAA-OAR-TPO-2024-2008184
Status
(Complete)
Last Modified 5/5/25
Period of Performance
8/1/24
Start Date
1/31/25
End Date
Funding Split
$174.9K
Federal Obligation
$0.0
Non-Federal Obligation
$174.9K
Total Obligated
Activity Timeline
Transaction History
Modifications to NA24OARX021G0028
Additional Detail
Award ID FAIN
NA24OARX021G0028
SAI Number
NA24OARX021G0028-003
Award ID URI
None
Awardee Classifications
Small Business
Awarding Office
1305N2 DEPT OF COMMERCE NOAA
Funding Office
1333BR OFC OF PROG.PLANNING&INTEGRATION
Awardee UEI
LTJNJDR6ED29
Awardee CAGE
8HJE2
Performance District
FL-20
Senators
Marco Rubio
Rick Scott
Rick Scott
Modified: 5/5/25