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Information Systems Laboratories, Inc.

Company Information
Address
12900 Brookprinter Pl Ste 800
Poway, CA 92064-6875
United States


http://www.islinc.com

Information

UEI: FAK5JKUKRXJ1

# of Employees: 79


Ownership Information

HUBZone Owned: No

Socially and Economically Disadvantaged: No

Woman Owned: No




Success Stories

  1. SBIR-STTR-Success: Information Systems Laboratories Inc.

    The Air Force is poised to save millions of dollars on the new radar systems it delivers to the warfighter.With support from the Air Force Small Business Innovation Research/Small Business Technology Transfer Program, San Diego-based Information Systems Laboratories Inc. developed a solution to...

Award Charts




Award Listing

  1. Main Beam Jamming Nulling in Phased Array Radars

    Amount: $599,994.00

    The objectives of Phase II are to demonstrate the effectiveness of the mainbeam nulling algorithm (MBNA) developed in Phase I under the practical conditions/restrictions imposed by AEGIS radar systems ...

    SBIRPhase II2003Department of Defense Navy
  2. Forward Looking Collision Avoidance and Sub-Bottom Sensor for Conceptual High Speed Submersibles

    Amount: $374,974.00

    Historically, submarines have encountered difficulty in avoiding collisions with commercial, surface and submarine crafts, particularly when surfacing. Usually the consequences are drastic, as when th ...

    SBIRPhase II2003Department of Defense Defense Advanced Research Projects Agency
  3. Space Based Radar (SBR) Bistatic Space-Time Adaptive Processing (STAP)

    Amount: $99,783.00

    The objective of this effort is to develop interference mitigation algorithms for bistatic space-based radar (SBR) systems. The use of a bistatic SBR for wide-area surveillance offers many potential a ...

    SBIRPhase I2003Department of Defense Air Force
  4. Passive Coherent Location (PCL) for Launch Vehicles

    Amount: $99,865.00

    The objective of the proposed research is to develop innovative algorithms and a flexible, scalable processing architecture to detect and track aircraft (including launch vehicles) by exploiting scatt ...

    SBIRPhase I2003Department of Defense Air Force
  5. Linearly Constrained Minimum-Variance Algorithm for Radar Jammer and Clutter Suppression

    Amount: $69,696.00

    We propose an augmented linearly constrained minimum-variance algorithm for radar jammer and clutter suppression. The basic LCMV algorithm is augmented to extend the simple target detection capabilit ...

    SBIRPhase I2003Department of Defense Missile Defense Agency
  6. Accelerated Lattice Boltzmann-Monte Carlo Method for Simulation of Rarefied Material Dynamics

    Amount: $98,947.00

    The feasibility of a new approach that will accelerate the modeling of problems involving rarefied gas dynamics is established. The proposed hybrid approach solves the Boltzmann equation directly usi ...

    SBIRPhase I2003Department of Defense Defense Advanced Research Projects Agency
  7. Wideband Digital Beamforming and Direction Finding

    Amount: $69,979.00

    Recent advances in digital receiver technology have the potential to revolutionize electronic warfare (EW) receiver design and dramatically increase capability. With wideband digitization come high da ...

    SBIRPhase I2003Department of Defense Navy
  8. Time Sidelobe Reduction for Pulse Compressed Radar Signals

    Amount: $69,977.00

    In pulse compressed radars such as those used for missile defense, time sidelobes associated with pulse compression can obscure objects of interest which are smaller than but close to the tracked targ ...

    SBIRPhase I2003Department of Defense Missile Defense Agency
  9. Small, Low Cost Emitter Geolocation System for use by SOF Personnel

    Amount: $99,989.00

    The geolocater developed under this SBIR will be based on an existing design developed under the DARPA Wolfpack program and adapted for the SOCOM mission. It will be a modular device operating as part ...

    SBIRPhase I2003Department of Defense Special Operations Command
  10. Elimination of Ground Moving Target Returns from the Training Data Set in Adaptive Radars

    Amount: $249,941.00

    "Space time adaptive processing (STAP) plays a very important role in the effectiveness of GMTI radar. STAP offers the potential to detect slow moving ground vehicles that would otherwise be obscured ...

    SBIRPhase II2002Department of Defense Defense Advanced Research Projects Agency
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