Digitalfish, Inc.
CAGE Code: 66HT1
NCAGE Code: 66HT1
Status: Active
Type: Commercial Supplier
Dun & Bradstreet (DUNS): 965325934
Summary
Digitalfish, Inc. is an Active Commercial Supplier with the Cage Code 66HT1 and is tracked by Dun & Bradstreet under DUNS Number 965325934..
Address
20 N San Mateo Dr Ste 3
San Mateo CA 94401-2883
United States
Points of Contact
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Frequently Asked Questions (FAQ) for CAGE 66HT1
- What is CAGE Code 66HT1?
- 66HT1 is the unique identifier used by NATO Organizations to reference the physical entity known as Digitalfish, Inc. located at 20 N San Mateo Dr Ste 3, San Mateo CA 94401-2883, United States.
- Who is CAGE Code 66HT1?
- 66HT1 refers to Digitalfish, Inc. located at 20 N San Mateo Dr Ste 3, San Mateo CA 94401-2883, United States.
- Where is CAGE Code 66HT1 Located?
- CAGE Code 66HT1 is located in San Mateo, CA, USA.
Contracting History for CAGE 66HT1 Most Recent 25 Records
- NNX17CA28P
- Igf::Ot::Igf We Build Upon Our Prior Work Applying Subdivision Surfaces (Subdivs) To Planetary Terrain Mapping. Subdivs Are An Alternative, Multi-Resolution Method With Many Advantages Over Conventional Digital Elevation Maps (Dem's) And Fixed-Resolution Meshes. The Proposed Research Is Innovative In Presenting A New Setting For Subdivs Demanding Novel Extensions To Subdiv Algorithms, Techniques And Theory As Well As New Methods In Merging Of Terrain Data From Multiple Sources. Our Primary Objectives Are To: (1) Develop A Prototype Mapping System Using Subdivs As A Representation For Terrain Data With Highly Varied Spatial Resolution And 3-D Features; (2) Extend Our Novel Volumetric Merging Method, Integrating Input Data At Varied Confidence Levels From Varied Source Formats (Dem, Point Cloud, Range Data, Etc.) While Supporting Overhanging And Cave-Like Terrain Geometry; (3) Demonstrate Collaborative Use Of Registered Surface Detail With Terrain-Mapped Data Fields Such As Terrain Color, Confidence Estimates, And Science-Data Overlays; And (4) Show, Via High-Quality Dem Extraction, Compatibility With Existing Systems Including Applicability For Autonomous Processing On Small, Weight- And Power-Constrained (Swap) Robots. The Expected Benefits Are: (A) Higher-Fidelity Terrain Visualization With Reduced Processing Error And Lower Infrastructure Requirements; (B) Ability To Visualize 3-D Features, Such As Overhangs, Missed In Dem's; (C) Compact Encoding With Natural Level-Of-Detail Control For Interactive Viewing On Mobile Devices; (D) Greater Algorithmic Efficiency For Non-Visualization Scientific Computation; And (E) Enablement Of New Software-Tool Capabilities For Dynamic Mapping Of Alternative Local-Terrain Datasets, Non-Destructive Experimentation, Collaboration, And Data Traceability. The Innovation Also Promises Capability And Reliability Benefits To Robots By Unifying Terrain Representations And Enabling Minimal Upload Of Only Incremental Terrain Details From The Ground.
- 3 Jun 2018
- Igf::Ot::Igf We Build Upon Our Prior Work Applying Subdivision Surfaces (Subdivs) To Planetary Terrain Mapping. Subdivs Are An Alternative, Multi-Resolution Method With Many Advantages Over Conventional Digital Elevation Maps (Dem's) And Fixed-Resolution Meshes. The Proposed Research Is Innovative In Presenting A New Setting For Subdivs Demanding Novel Extensions To Subdiv Algorithms, Techniques And Theory As Well As New Methods In Merging Of Terrain Data From Multiple Sources. Our Primary Objectives Are To: (1) Develop A Prototype Mapping System Using Subdivs As A Representation For Terrain Data With Highly Varied Spatial Resolution And 3-D Features; (2) Extend Our Novel Volumetric Merging Method, Integrating Input Data At Varied Confidence Levels From Varied Source Formats (Dem, Point Cloud, Range Data, Etc.) While Supporting Overhanging And Cave-Like Terrain Geometry; (3) Demonstrate Collaborative Use Of Registered Surface Detail With Terrain-Mapped Data Fields Such As Terrain Color, Confidence Estimates, And Science-Data Overlays; And (4) Show, Via High-Quality Dem Extraction, Compatibility With Existing Systems Including Applicability For Autonomous Processing On Small, Weight- And Power-Constrained (Swap) Robots. The Expected Benefits Are: (A) Higher-Fidelity Terrain Visualization With Reduced Processing Error And Lower Infrastructure Requirements; (B) Ability To Visualize 3-D Features, Such As Overhangs, Missed In Dem's; (C) Compact Encoding With Natural Level-Of-Detail Control For Interactive Viewing On Mobile Devices; (D) Greater Algorithmic Efficiency For Non-Visualization Scientific Computation; And (E) Enablement Of New Software-Tool Capabilities For Dynamic Mapping Of Alternative Local-Terrain Datasets, Non-Destructive Experimentation, Collaboration, And Data Traceability. The Innovation Also Promises Capability And Reliability Benefits To Robots By Unifying Terrain Representations And Enabling Minimal Upload Of Only Incremental Terrain Details From The Ground.
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $122,243.00
- National Aeronautics And Space Administration (Nasa)