2222996
Project Grant
Overview
Grant Description
SBIR Phase I: Autonomous Warning Triangle System (AWTS) for Emergency Stopping - The broader impact of this Small Business Innovation Research (SBIR) Phase I project is to ensure the secure transfer of goods and/or passengers in commercial motor vehicles (CMVs) and prevent the likelihood of secondary incidents when a CMV has made an emergency stop on a highway.
All CMVs need to comply with traffic safety regulations and deploy emergency warning devices (e.g., safety triangles) during an emergency stop. Without the presence of a human driver, an automated CMV should also be able to automate emergency warning device placement. Proper placement of these warning devices can be life-saving for drivers of non-automated vehicles on a highway.
The proposed project will increase the safety of external drivers by preventing any secondary incidents associated with the lane/shoulder blockage due to a CMV malfunction and protect drivers of non-automated and/or semi-automated vehicles by assisting in the deployment of emergency warning triangles on highways. This project aims to remove barriers to higher-order automated technology adoption due to lack of standardization.
The project will result in the design, research, and development of an affordable, after-market, reliable, and safe Autonomous Warning Triangle System (AWTS) to ensure the safety of the automated and semi-automated CMVs during an emergency stop without requiring human assistance. AWTS consists of three low-cost autonomous triangle reflector devices which are planned to optimally fit in a charging dock/enclosure where they will be safely stored during stand-by mode.
When activated by the emergency signal transmitted from the CMV, the autonomous triangles are designed to move successively to their pre-determined destinations on the highway. The research and development activity during this Phase I project includes, but is not limited to: reviewing safety codes and regulations, investigating different highway scenarios and associated challenges, and performing computer simulations; developing proof-of-concept hardware that can demonstrate the proposed system's technical feasibility and its integration to automated CMVs; determining the optimal placement and assembly of the autonomous reflective triangles by collaborating with auto manufacturers; investigating the potential cyber-security risks to develop secure communications between CMV and AWTS; and identifying the operational challenges and the design targets while considering the cost of deployment, lifecycle costs, functional use, and interoperability.
This award reflects NSF's statutory mission and has been deemed worthy of support through evaluation using the Foundation's intellectual merit and broader impacts review criteria.
All CMVs need to comply with traffic safety regulations and deploy emergency warning devices (e.g., safety triangles) during an emergency stop. Without the presence of a human driver, an automated CMV should also be able to automate emergency warning device placement. Proper placement of these warning devices can be life-saving for drivers of non-automated vehicles on a highway.
The proposed project will increase the safety of external drivers by preventing any secondary incidents associated with the lane/shoulder blockage due to a CMV malfunction and protect drivers of non-automated and/or semi-automated vehicles by assisting in the deployment of emergency warning triangles on highways. This project aims to remove barriers to higher-order automated technology adoption due to lack of standardization.
The project will result in the design, research, and development of an affordable, after-market, reliable, and safe Autonomous Warning Triangle System (AWTS) to ensure the safety of the automated and semi-automated CMVs during an emergency stop without requiring human assistance. AWTS consists of three low-cost autonomous triangle reflector devices which are planned to optimally fit in a charging dock/enclosure where they will be safely stored during stand-by mode.
When activated by the emergency signal transmitted from the CMV, the autonomous triangles are designed to move successively to their pre-determined destinations on the highway. The research and development activity during this Phase I project includes, but is not limited to: reviewing safety codes and regulations, investigating different highway scenarios and associated challenges, and performing computer simulations; developing proof-of-concept hardware that can demonstrate the proposed system's technical feasibility and its integration to automated CMVs; determining the optimal placement and assembly of the autonomous reflective triangles by collaborating with auto manufacturers; investigating the potential cyber-security risks to develop secure communications between CMV and AWTS; and identifying the operational challenges and the design targets while considering the cost of deployment, lifecycle costs, functional use, and interoperability.
This award reflects NSF's statutory mission and has been deemed worthy of support through evaluation using the Foundation's intellectual merit and broader impacts review criteria.
Awardee
Funding Goals
THE GOAL OF THIS FUNDING OPPORTUNITY, "NSF SMALL BUSINESS INNOVATION RESEARCH (SBIR)/ SMALL BUSINESS TECHNOLOGY TRANSFER (STTR) PROGRAMS PHASE I", IS IDENTIFIED IN THE LINK: HTTPS://WWW.NSF.GOV/PUBLICATIONS/PUB_SUMM.JSP?ODS_KEY=NSF22551
Grant Program (CFDA)
Awarding Agency
Place of Performance
Orlando,
Florida
32826-2931
United States
Geographic Scope
Single Zip Code
Related Opportunity
22-551
Analysis Notes
Amendment Since initial award the End Date has been extended from 11/30/23 to 04/30/24.
Connected Wise was awarded
Project Grant 2222996
worth $274,553
from in June 2023 with work to be completed primarily in Orlando Florida United States.
The grant
has a duration of 10 months and
was awarded through assistance program 47.084 NSF Technology, Innovation, and Partnerships.
SBIR Details
Research Type
SBIR Phase I
Title
SBIR Phase I:Autonomous Warning Triangle System (aWTS) for Emergency Stopping
Abstract
The broader impact of this Small Business Innovation Research (SBIR) Phase I project is to ensure the secure transfer of goods and/or passengers in commercial motor vehicles (CMVs) and prevent the likelihood of secondary incidents when a commercial motor vehicles (CMV) has made an emergency stop on a highway. All CMVs need to comply with traffic safety regulations and deploy emergency warning devices (e.g., safety triangles) during an emergency stop. Without the presence of a human driver, an automated CMV should also be able to automate emergency warning device placement. Proper placement of these warning devices can be life-saving for drivers of non-automated vehicles on a highway. The proposed project will increase the safety of external drivers by preventing any secondary incidents associated with the lane/shoulder blockage due to a CMV malfunction and protect drivers of non-automated and/or semi-automated vehicles by assisting in the deployment of emergency warning triangles on highways. This project aims to remove barriers to higher-order automated technology adoption due to lack of standardization._x000D_ _x000D_ The project will result in the design, research, and development of an affordable, after-market, reliable, and safe autonomous Warning Triangle System (aWTS) to ensure the safety of the automated and semi-automated commercial motor vehicles (CMVs) during an emergency stop without requiring human assistance. aWTS consists of three low-cost autonomous triangle reflector devices which are planned to optimally fit in a charging dock/enclosure where they will be safely stored during stand-by mode. When activated by the emergency signal transmitted from the CMV, the autonomous triangles are designed to move successively to their pre-determined destinations on the highway. The research and development activity during this Phase I project includes, but is not limited to: reviewing safety codes and regulations, investigating different highway scenarios and associated challenges, and performing computer simulations; developing proof-of-concept hardware that can demonstrate the proposed system’s technical feasibility and its integration to automated CMVs; determining the optimal placement and assembly of the autonomous reflective triangles by collaborating with auto manufacturers; investigating the potential cyber-security risks to develop secure communications between CMV and aWTS; and identifying the operational challenges and the design targets while considering the cost of deployment, lifecycle costs, functional use, and interoperability._x000D_ _x000D_ This award reflects NSF's statutory mission and has been deemed worthy of support through evaluation using the Foundation's intellectual merit and broader impacts review criteria.
Topic Code
MO
Solicitation Number
NSF 22-551
Status
(Complete)
Last Modified 3/21/24
Period of Performance
6/1/23
Start Date
4/30/24
End Date
Funding Split
$274.6K
Federal Obligation
$0.0
Non-Federal Obligation
$274.6K
Total Obligated
Activity Timeline
Transaction History
Modifications to 2222996
Additional Detail
Award ID FAIN
2222996
SAI Number
None
Award ID URI
SAI EXEMPT
Awardee Classifications
Small Business
Awarding Office
491503 TRANSLATIONAL IMPACTS
Funding Office
491503 TRANSLATIONAL IMPACTS
Awardee UEI
SHLNPQYZGD15
Awardee CAGE
84YG7
Performance District
FL-10
Senators
Marco Rubio
Rick Scott
Rick Scott
Budget Funding
| Federal Account | Budget Subfunction | Object Class | Total | Percentage |
|---|---|---|---|---|
| Research and Related Activities, National Science Foundation (049-0100) | General science and basic research | Grants, subsidies, and contributions (41.0) | $274,553 | 100% |
Modified: 3/21/24