The Collier Report of U.S. Government Contracting

Old School Reporting Using Modern Technology

M4 Engineering Inc

  • M4 Engineering Inc

  • View government funding actions
  • Long Beach, CA 908072617
  • Phone: 562-981-7797
  • Estimated Number of Employees: 14
  • Estimated Annual Receipts: $2,870,000
  • Business Start Date: 2003
  • Contact Person: Myles Baker
  • Contact Phone: 562-981-7797
  • Contact Email: myles.baker@m4-engineering.com
  • Business Structure:
  • Other
  • Business Type:
  • For Profit Organization
  • Woman Owned Business
  • Subchapter S Corporation
  • Industries Served: Engineering Services, Research and Development in the Physical, Engineering, and Life Sciences (except Biotechnology)
  • Product Areas: DISPOSAL OF SURPLUS PROPERTY, SALVAGE- PREPARATION AND DISPOSAL OF EXCESS/SURPLUS PROPERTY, REAL ESTATE BROKERAGE SERVICES, SUPPORT- PROFESSIONAL: REAL ESTATE BROKERAGE, SUPPORT- PROFESSIONAL: PROGRAM MANAGEMENT/SUPPORT, PROGRAM MANAGEMENT/SUPPORT SERVICES, ADVERTISING SERVICES, SUPPORT- MANAGEMENT: ADVERTISING, SUPPORT- MANAGEMENT: CONTRACT/PROCUREMENT/ACQUISITION SUPPORT, MGT SVCS/CONTRACT & PROCUREMENT SUP, SUPPORT- MANAGEMENT: PUBLIC RELATIONS, PUBLIC RELATIONS SERVICES, OTHER MANAGEMENT SUPPORT SERVICES, SUPPORT- MANAGEMENT: OTHER

Sampling of Federal Government Funding Actions/Set Asides

In order by amount of set aside monies.

  • $79,949 - Friday the 7th of September 2012
    Department Of Navy
    NAVAIR WARFARE CTR AIRCRAFT DIV LKE
    TOPIC N12A-T004
  • $50,000 - Saturday the 29th of March 2014
    National Aeronautics And Space Administration
    NASA SHARED SERVICES CENTER
    THE OBJECTIVE FOR THE PHASE II EFFORT WILL BE TO DEVELOP A COMPREHENSIVE, EFFICIENT, AND FLEXIBLE UNCERTAINTY QUANTIFICATION (UQ) FRAMEWORK IMPLEMENTED WITHIN A MATURED USER-FRIENDLY SOFTWARE, WHICH WILL ENABLE THE MODELING OF BOTH INHERENT AND EPISTEMIC UNCERTAINTIES IN SPACECRAFT SYSTEM MODELS, HAVE A GENERAL QUANTIFICATION OF MARGINS AND UNCERTAINTIES (QMU) CAPABILITY FOR SYSTEM CERTIFICATION AND RELIABILITY ASSESSMENT, AND UTILIZE ADVANCED METHODS BASED ON NON-INTRUSIVE POLYNOMIAL CHAOS (NIPC) FOR EFFICIENT AND ACCURATE PROPAGATION OF MIXED (INHERENT+EPISTEMIC) UNCERTAINTIES AS ALSO DEMONSTRATED UNDER THE PHASE I EFFORT. IN THE PROPOSED PROJECT, AN ADAPTIVE UNCERTAINTY QUANTIFICATION METHODOLOGY, WHICH WILL SUCCESSIVELY UTILIZE DIFFERENT NIPC METHODS DEPENDING ON THE SIZE OF THE PROBLEM ALONG WITH THE NON-LINEAR GLOBAL SENSITIVITY INFORMATION, WILL BE IMPLEMENTED TO ADDRESS THE COMPUTATIONAL EXPENSE OF UQ IN COMPLEX SPACECRAFT SYSTEM SIMULATIONS WITH LARGE NUMBER OF UNCERTAIN VARIABLES. THE DEVELOPED UQ FRAMEWORK AND QMU CAPABILITY WILL BE DEMONSTRATED ON A LARGE-SCALE SPACECRAFT SYSTEM MODEL THAT IS OF INTEREST TO NASA. THIS PROPOSED WORK WILL COMPLIMENT M4 ENGINEERING'S EXPERTISE IN DEVELOPING SIMULATION TECHNOLOGIES THAT SOLVE RELEVANT DEMONSTRATION APPLICATIONS. THE RESEARCHERS FROM MS&T (RI) WILL GUIDE THE IMPLEMENTATION OF UQ AND QMU METHODOLOGIES AND CONTRIBUTE TO THE PROPOSED EFFORT WITH THEIR UQ EXPERTISE IN AEROSPACE SIMULATIONS.
  • $474,691 - Wednesday the 5th of October 2011
    Department Of Navy
    NAVAL AIR WARFARE CENTER
    SBIR2 TOPIC N101-015 VIRTUAL VIBRATION OF EXTERNAL STORES
  • $375,000 - Monday the 2nd of July 2012
    Department Of Air Force
    FA9101 AEDC PKP PROCRMNT BR
    SBIR P2 TOPIC AF093-214 STORE UNSTEADY AERODYNAMIC LOADS MEASUREMENT TECHNOLOGY
  • $224,951 - Saturday the 29th of March 2014
    National Aeronautics And Space Administration
    NASA SHARED SERVICES CENTER
    THE OBJECTIVE FOR THE PHASE II EFFORT WILL BE TO DEVELOP A COMPREHENSIVE, EFFICIENT, AND FLEXIBLE UNCERTAINTY QUANTIFICATION (UQ) FRAMEWORK IMPLEMENTED WITHIN A MATURED USER-FRIENDLY SOFTWARE, WHICH WILL ENABLE THE MODELING OF BOTH INHERENT AND EPISTEMIC UNCERTAINTIES IN SPACECRAFT SYSTEM MODELS, HAVE A GENERAL QUANTIFICATION OF MARGINS AND UNCERTAINTIES (QMU) CAPABILITY FOR SYSTEM CERTIFICATION AND RELIABILITY ASSESSMENT, AND UTILIZE ADVANCED METHODS BASED ON NON-INTRUSIVE POLYNOMIAL CHAOS (NIPC) FOR EFFICIENT AND ACCURATE PROPAGATION OF MIXED (INHERENT+EPISTEMIC) UNCERTAINTIES AS ALSO DEMONSTRATED UNDER THE PHASE I EFFORT. IN THE PROPOSED PROJECT, AN ADAPTIVE UNCERTAINTY QUANTIFICATION METHODOLOGY, WHICH WILL SUCCESSIVELY UTILIZE DIFFERENT NIPC METHODS DEPENDING ON THE SIZE OF THE PROBLEM ALONG WITH THE NON-LINEAR GLOBAL SENSITIVITY INFORMATION, WILL BE IMPLEMENTED TO ADDRESS THE COMPUTATIONAL EXPENSE OF UQ IN COMPLEX SPACECRAFT SYSTEM SIMULATIONS WITH LARGE NUMBER OF UNCERTAIN VARIABLES. THE DEVELOPED UQ FRAMEWORK AND QMU CAPABILITY WILL BE DEMONSTRATED ON A LARGE-SCALE SPACECRAFT SYSTEM MODEL THAT IS OF INTEREST TO NASA. THIS PROPOSED WORK WILL COMPLIMENT M4 ENGINEERING'S EXPERTISE IN DEVELOPING SIMULATION TECHNOLOGIES THAT SOLVE RELEVANT DEMONSTRATION APPLICATIONS. THE RESEARCHERS FROM MS&T (RI) WILL GUIDE THE IMPLEMENTATION OF UQ AND QMU METHODOLOGIES AND CONTRIBUTE TO THE PROPOSED EFFORT WITH THEIR UQ EXPERTISE IN AEROSPACE SIMULATIONS.
  • $124,957 - Tuesday the 1st of November 2011
    Department Of Air Force
    FA9101 AEDC PKP PROCRMNT BR
    SBIR PHASE I TOPIC AF112-187, PROPOSAL 2039, WIND TUNNEL BALANCE CORRECTION FOR STRUCTURAL MOTION EFFECTS

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The Collier Report
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