Advanced Reasoning Inc
SeaPort Contract Information
Advanced Reasoning Incorporated (ARI) is a small business founded in November
1995, specializing in real-time mathematical computer applications and problem solving.
Since its conception, ARI has primarily supported the Naval community. These
efforts consist of real-time SONAR signal processing software design, development
and integration, as well as SONAR signal processing system engineering efforts.
In addition, ARI has supported the NAVY in the development and maintenance
of the AN/SQQ-89(V)6/10/14/15/AV15 systems including all three components:
AN/SQS-53C, AN/SQQ-28 and AN/SQR-19A/B.
ARI is currently comprised of four individuals, each possessing a Bachelors and/or Masters
degree in a technically related area, specifically Math, Physics, Electrical Engineering or
Computer Science. As a result, although small, ARI has a decent hold on a wide variety of
technical and mathematical areas. In addition, we pride ourselves on our desire to tackle
difficult problems and our ability to quickly grasp concepts. An effort that exemplifies our
expertise is the AN/SQQ-89(V)10 Kingfisher Upgrade ECP. We designed, developed and
implemented shallow water mine detection algorithms for an active SONAR application. In
general, this adequately illustrates the breadth of our capabilities as this effort required a good
understanding of mathematically intensive signal processing algorithms as well as the ability
to implement them within a real-time signal processing computer application.
Currently at ARI, we are interested in pursuing other efforts pertaining to mathematical analysis
or mathematical computer applications. We believe that due to our small corporate structure,
we can offer a rapid product turn-around in a number of mathematically related areas, all at
reduced costs. The following briefly describes our experience and capability within the
AN/SQQ-89. If there is any further information required, please feel free to contact us.
Advanced Reasoning, Incorporated
PO Box 41
Waterford, CT 06385
860 437 0508
e-mail: info at advreason.com
PAST SUPPORT
- Naval Undersea Warfare Center (NUWC), Newport, RI
- Lockheed Martin Corporation (LMC), Syracuse, NY
- Pennsylvania State University, Applied Research Lab (ARL-PSU)
- University of Texas at Austin, Applied Research Lab (ARL-UT)
- British Aerospace Electronics (BAE), Baltimore, MD
- British Aerospace Electronics (BAE), Newport, RI
- Naval Undersea Warfare Center (NUWC), Pax River, MD
- Planning Systems Incorporated (PSI), New London, CT
- Advanced Acoustics Concepts (AAC), Ronkonkama, NY
- Kildare Corporation, New London, CT
- Naval Program Office PMS-411, Washington DC
AN/SQQ-89 Current Efforts
Design/Implement IFCP for AN/SQQ-89A(V)15
Design/Implement SCFS Tactical Simulator (TACSIM) for AN/SQQ-89A(V)15
Transmit Waveform Modifications in support of 53EAST and IUSW21
Design/Implement Audio ECP for AN/SQQ-89(V)6/10/14
Design/Implement LAMPS Normalizer modifications for AN/SQQ-89(V)14/15
Investigate AN/SQQ-89(V)10 Fault 19 problem
AN/SQQ-89 Past Efforts
| AN/SQQ-89(V)6
|
| AN/SQS-53C
|
- Designed/Implemented AACP (at GE) as lead Software Engineer
- Designed/Implemented Kingfisher ECP to AACP
- Designed/Implemented VD Normalizer ECP to AACP
- Designed/Implemented Audio Improvements ECP to AACP
- Implemented Modifications to the MPCP Shape Filter algorithm
- Developed MATLAB scripts for all Signal Processing
- Designed/Implemented XMCP transmit modifications in support of future programs
- Resolved >300 Problems on AACP, TMCP, MPCP and CDCP as LCM agent
|
| AN/SQR-19(A/B)
|
- Designed/Implemented AUCP (at GE) Adaptive Normalizer ECP
- Redesigned AUCP interfaces for 19B (SWNET)
- Designed/Implemented AN/UYS-1 SWNET Interface
- Resolved the STIRA AN/UYS-1 Crash Problem
- Resolved numerous problems on AUCP, DACP and SWNET software
|
| AN/SQQ-28
|
- Lead Systems Engineer on LAMPS Signal Processing related issues
- Lead Software Engineer on LAMPS Signal Processing related issues
|
|
| AN/SQQ-89(V)10
|
| AN/SQS-53C
|
- Lead Systems Engineers in SPCP Development (at AT&T)
- Led integration of SPCP into AN/SQQ-89(V)10 (at NUWC)
- Designed/Implemented Kingfisher ECP to SPCP
- Designed/Implemented VD Normalizer ECP to SPCP
- Implemented Modifications to the MPCP Shape Filter algorithm
- Developed MATLAB scripts for all Signal Processing
- Designed/Implemented XMCP transmit modifications in support of future programs
- Resolved >50 Problems on SPCP, TMCP, MPCP and CDCP as LCM agent
|
| AN/SQQ-28
|
- Led integration of SPCP into AN/SQQ-89(V)10 (at NUWC)
- Led integration of SPOP into AN/SQQ-89(V)10 (at NUWC)
- Resolved >130 Problems on SPCP and SPOP as LCM agent
|
|
| AN/SQQ-89(V)14
|
| AN/SQS-53C
|
- Supported LMC in modifications to SPCP
- Resident Experts in Signal Processing algorithms and implementation
|
| AN/SQQ-28
|
- Supported LMC in modifications to SPCP
- Resident Experts in Signal Processing algorithms and implementation
|
|
| AN/SQQ-89(V)15
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| SPPFS
|
- Led SIM/STIM effort of CORBA Bridge development
- Developed/Implemented SIM/STIM tools in support of CORBA Bridge development
|
| AN/SQQ-28
|
- Supported LMC in modifications to SPCP
- Resident Experts in Signal Processing algorithms and implementation
|
|
| AN/SQQ-89A(V)15
|
| SCFS
|
- Developed IFCP
- Developed/Implemented SIM/STIM tools in support of SCFS development
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