Advanced Scientific Concepts, Inc.
CAGE Code: 0E8H9
NCAGE Code: 0E8H9
Status: Discontinued
Type: Manufacturer
Dun & Bradstreet (DUNS): 362223463
Summary
Advanced Scientific Concepts, Inc. is a Discontinued Manufacturer with the Cage Code 0E8H9 and is tracked by Dun & Bradstreet under DUNS Number 362223463..
Address
135 E Ortega St
Santa Barbara CA 93101-1723
United States
Points of Contact
No Points of Contact...
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Frequently Asked Questions (FAQ) for CAGE 0E8H9
- What is CAGE Code 0E8H9?
- 0E8H9 is the unique identifier used by NATO Organizations to reference the physical entity known as Advanced Scientific Concepts, Inc. located at 135 E Ortega St, Santa Barbara CA 93101-1723, United States.
- Who is CAGE Code 0E8H9?
- 0E8H9 refers to Advanced Scientific Concepts, Inc. located at 135 E Ortega St, Santa Barbara CA 93101-1723, United States.
- Where is CAGE Code 0E8H9 Located?
- CAGE Code 0E8H9 is located in Santa Barbara, CA, USA.
Contracting History for CAGE 0E8H9 Most Recent 25 Records
- N0003017C0006
- Sbir Phase Ii Topic 143-129 Sensor System For Precise, Automated Position-Keeping For Ocean Going Vessels
- 23 Aug 2018
- Sbir Phase Ii Topic 143-129 Sensor System For Precise, Automated Position-Keeping For Ocean Going Vessels
- Strategic Systems Programs
- Department Of Defense (Dod)
- $962,142.00
- Department Of Defense (Dod)
- NNX14CP71C
- Igf::Ot::Igf Advanced Scientific Concepts, Inc. (Asc) Is A Small Business That Has Developed 3D Flash Lidar Systems For Space And Terrestrial Applications. 3D Flash Lidar Is Ideal For Determining Real-Time Spacecraft Trajectory, Speed And Orientation To The Planet's Surface, As Well As Evaluating Potential Landing Sites. Asc's Flash Lidar Has Been Used For Autonomous Berthing With The International Space Station (Iss) And Is Currently Under Development For The Osirisrex Asteroid Rendezvous Mission. Flash Lidar Is Also Being Evaluated By Jpl And Nasa For Entry Decent And Landing (Edl) For Alhat And Mars. Through The Investigations At Jpl And Nasa Langley A Number Of Improvements To The Technology Have Been Identified As Beneficial To Landing Application. Improved Range Resolution, Spatial Resolution, Increased Sensitivity And Greater Dynamic Range Would Increase The Functionality For Successful Landing Operations. Asc Has Developed The Core Technology For Flash Lidar With Its 3D-Fpa And Is Developing Higher Resolution Arrays To Address These Concerns. Asc Currently Has On Hand High Sensitivity 32X32 Arrays (Shuttle Run For The 320X320) That Have Not Been Tested With Detectors. Initial Evaluation Suggests That They Have Increased Sensitivity By 50X, Spatial Resolution By 2.5X, And Range Resolution By 3X.
- 24 Jul 2018
- Igf::Ot::Igf Advanced Scientific Concepts, Inc. (Asc) Is A Small Business That Has Developed 3D Flash Lidar Systems For Space And Terrestrial Applications. 3D Flash Lidar Is Ideal For Determining Real-Time Spacecraft Trajectory, Speed And Orientation To The Planet's Surface, As Well As Evaluating Potential Landing Sites. Asc's Flash Lidar Has Been Used For Autonomous Berthing With The International Space Station (Iss) And Is Currently Under Development For The Osirisrex Asteroid Rendezvous Mission. Flash Lidar Is Also Being Evaluated By Jpl And Nasa For Entry Decent And Landing (Edl) For Alhat And Mars. Through The Investigations At Jpl And Nasa Langley A Number Of Improvements To The Technology Have Been Identified As Beneficial To Landing Application. Improved Range Resolution, Spatial Resolution, Increased Sensitivity And Greater Dynamic Range Would Increase The Functionality For Successful Landing Operations. Asc Has Developed The Core Technology For Flash Lidar With Its 3D-Fpa And Is Developing Higher Resolution Arrays To Address These Concerns. Asc Currently Has On Hand High Sensitivity 32X32 Arrays (Shuttle Run For The 320X320) That Have Not Been Tested With Detectors. Initial Evaluation Suggests That They Have Increased Sensitivity By 50X, Spatial Resolution By 2.5X, And Range Resolution By 3X.
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $740,870.00
- National Aeronautics And Space Administration (Nasa)
- N0003017C0006
- Base
- 19 Sep 2019
- Base
- Strategic Systems Programs
- Department Of Defense (Dod)
- $1,276,242.00
- Department Of Defense (Dod)
- N0003017C0006
- Base
- 30 Apr 2019
- Base
- Strategic Systems Programs
- Department Of Defense (Dod)
- $1,276,242.00
- Department Of Defense (Dod)
- NNX14CP71C
- Igf::Ot::Igf Advanced Scientific Concepts, Inc. (Asc) Is A Small Business That Has Developed 3D Flash Lidar Systems For Space And Terrestrial Applications. 3D Flash Lidar Is Ideal For Determining Real-Time Spacecraft Trajectory, Speed And Orientation To The Planet's Surface, As Well As Evaluating Potential Landing Sites. Asc's Flash Lidar Has Been Used For Autonomous Berthing With The International Space Station (Iss) And Is Currently Under Development For The Osirisrex Asteroid Rendezvous Mission. Flash Lidar Is Also Being Evaluated By Jpl And Nasa For Entry Decent And Landing (Edl) For Alhat And Mars. Through The Investigations At Jpl And Nasa Langley A Number Of Improvements To The Technology Have Been Identified As Beneficial To Landing Application. Improved Range Resolution, Spatial Resolution, Increased Sensitivity And Greater Dynamic Range Would Increase The Functionality For Successful Landing Operations. Asc Has Developed The Core Technology For Flash Lidar With Its 3D-Fpa And Is Developing Higher Resolution Arrays To Address These Concerns. Asc Currently Has On Hand High Sensitivity 32X32 Arrays (Shuttle Run For The 320X320) That Have Not Been Tested With Detectors. Initial Evaluation Suggests That They Have Increased Sensitivity By 50X, Spatial Resolution By 2.5X, And Range Resolution By 3X.
- 4 Jun 2018
- Igf::Ot::Igf Advanced Scientific Concepts, Inc. (Asc) Is A Small Business That Has Developed 3D Flash Lidar Systems For Space And Terrestrial Applications. 3D Flash Lidar Is Ideal For Determining Real-Time Spacecraft Trajectory, Speed And Orientation To The Planet's Surface, As Well As Evaluating Potential Landing Sites. Asc's Flash Lidar Has Been Used For Autonomous Berthing With The International Space Station (Iss) And Is Currently Under Development For The Osirisrex Asteroid Rendezvous Mission. Flash Lidar Is Also Being Evaluated By Jpl And Nasa For Entry Decent And Landing (Edl) For Alhat And Mars. Through The Investigations At Jpl And Nasa Langley A Number Of Improvements To The Technology Have Been Identified As Beneficial To Landing Application. Improved Range Resolution, Spatial Resolution, Increased Sensitivity And Greater Dynamic Range Would Increase The Functionality For Successful Landing Operations. Asc Has Developed The Core Technology For Flash Lidar With Its 3D-Fpa And Is Developing Higher Resolution Arrays To Address These Concerns. Asc Currently Has On Hand High Sensitivity 32X32 Arrays (Shuttle Run For The 320X320) That Have Not Been Tested With Detectors. Initial Evaluation Suggests That They Have Increased Sensitivity By 50X, Spatial Resolution By 2.5X, And Range Resolution By 3X.
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $740,870.00
- National Aeronautics And Space Administration (Nasa)
- N0003017C0006
- Base
- 11 Apr 2018
- Base
- Strategic Systems Programs
- Department Of Defense (Dod)
- $666,637.00
- Department Of Defense (Dod)
- N0003017C0006
- Base
- 24 May 2018
- Base
- Strategic Systems Programs
- Department Of Defense (Dod)
- $722,555.00
- Department Of Defense (Dod)
- N0003017C0006
- Base
- 31 Oct 2018
- Base
- Strategic Systems Programs
- Department Of Defense (Dod)
- $962,142.00
- Department Of Defense (Dod)
- NNX14CP71C
- Igf::Ot::Igf Advanced Scientific Concepts, Inc. (Asc) Is A Small Business That Has Developed 3D Flash Lidar Systems For Space And Terrestrial Applications. 3D Flash Lidar Is Ideal For Determining Real-Time Spacecraft Trajectory, Speed And Orientation To The Planet's Surface, As Well As Evaluating Potential Landing Sites. Asc's Flash Lidar Has Been Used For Autonomous Berthing With The International Space Station (Iss) And Is Currently Under Development For The Osirisrex Asteroid Rendezvous Mission. Flash Lidar Is Also Being Evaluated By Jpl And Nasa For Entry Decent And Landing (Edl) For Alhat And Mars. Through The Investigations At Jpl And Nasa Langley A Number Of Improvements To The Technology Have Been Identified As Beneficial To Landing Application. Improved Range Resolution, Spatial Resolution, Increased Sensitivity And Greater Dynamic Range Would Increase The Functionality For Successful Landing Operations. Asc Has Developed The Core Technology For Flash Lidar With Its 3D-Fpa And Is Developing Higher Resolution Arrays To Address These Concerns. Asc Currently Has On Hand High Sensitivity 32X32 Arrays (Shuttle Run For The 320X320) That Have Not Been Tested With Detectors. Initial Evaluation Suggests That They Have Increased Sensitivity By 50X, Spatial Resolution By 2.5X, And Range Resolution By 3X.
- 20 May 2019
- Igf::Ot::Igf Advanced Scientific Concepts, Inc. (Asc) Is A Small Business That Has Developed 3D Flash Lidar Systems For Space And Terrestrial Applications. 3D Flash Lidar Is Ideal For Determining Real-Time Spacecraft Trajectory, Speed And Orientation To The Planet's Surface, As Well As Evaluating Potential Landing Sites. Asc's Flash Lidar Has Been Used For Autonomous Berthing With The International Space Station (Iss) And Is Currently Under Development For The Osirisrex Asteroid Rendezvous Mission. Flash Lidar Is Also Being Evaluated By Jpl And Nasa For Entry Decent And Landing (Edl) For Alhat And Mars. Through The Investigations At Jpl And Nasa Langley A Number Of Improvements To The Technology Have Been Identified As Beneficial To Landing Application. Improved Range Resolution, Spatial Resolution, Increased Sensitivity And Greater Dynamic Range Would Increase The Functionality For Successful Landing Operations. Asc Has Developed The Core Technology For Flash Lidar With Its 3D-Fpa And Is Developing Higher Resolution Arrays To Address These Concerns. Asc Currently Has On Hand High Sensitivity 32X32 Arrays (Shuttle Run For The 320X320) That Have Not Been Tested With Detectors. Initial Evaluation Suggests That They Have Increased Sensitivity By 50X, Spatial Resolution By 2.5X, And Range Resolution By 3X.
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $740,869.50
- National Aeronautics And Space Administration (Nasa)
- N0001413C0088
- Research And Development In The Physical, Engineering, And Life Sciences (Except Biotechnology)
- 30 Jul 2018
- Research And Development In The Physical, Engineering, And Life Sciences (Except Biotechnology)
- Office Of Naval Research
- Department Of Defense (Dod)
- $1,700,854.00
- Department Of Defense (Dod)