GEOPHEX LTD.

Basic Information

605 Mercury Street
Raleigh, NC, -

http://www.geophex.com

Company Profile

n/a

Additional Details

Field Value
DUNS: 148040447
Hubzone Owned: N
Socially and Economically Disadvantaged: N
Woman Owned: N
Number of Employees: 11


  1. A High Speed Towed Magnetic Array for In-Road Detection of Improvised Explosive Devices Employing Optimized Magnetic Map Differencing

    Amount: $729,603.00

    The goal of this project is to design, build, and test an active electromagnetic induction (EMI) sensor array for detecting and characterizing IEDs. At low frequencies (below a few kHz), an EMI sensor ...

    SBIR Phase II 2008 ArmyDepartment of DefenseDepartment of Defense
  2. A High Speed Towed Magnetic Array for In-Road Detection of Improvised Explosive Devices Employing Optimized Magnetic Map Differencing

    Amount: $2,993,705.00

    The goal of this project is to design, build, and test an active electromagnetic induction (EMI) sensor array for detecting and characterizing IEDs. At low frequencies (below a few kHz), an EMI sensor ...

    SBIR Phase II 2008 ArmyDepartment of DefenseDepartment of Defense
  3. A High Speed Towed Magnetic Array for In-Road Detection of Improvised Explosive Devices Employing Optimized Magnetic Map Differencing

    Amount: $69,775.00

    This proposal describes an active electromagnetic induction (EMI) sensor array that can operate at a sampling rate of 750Hz, corresponding to 1.4 inches (3.5 cm) in distance at a moving speed of 60 mp ...

    SBIR Phase I 2007 ArmyDepartment of DefenseDepartment of Defense
  4. Wireless Power Transmission with Electromagnetic Inductive Coupling

    Amount: $98,913.00

    This project addresses the problem of the wireless transfer of power between a source and nearby mobile platform such as a robotic vehicle. The primary objective of this research will be to design and ...

    SBIR Phase I 2007 Defense Advanced Research Projects AgencyDepartment of DefenseDepartment of Defense
  5. Portable Near Infrared Technology for Detection of Traumatic Brain Injuries in Operational Environments

    Amount: $97,981.00

    Acute head trauma can cause disability and death without prompt diagnosis and treatment. The methods of choice for such diagnosis are x-ray CT or MRI, but these systems are costly and lack portability ...

    SBIR Phase I 2004 Department of DefenseNavyDepartment of Defense
  6. Active Broadband EM Detection and Classification of Buried Naval Mines

    Amount: $444,522.00

    We propose a new active broadband electromagnetic (EM) sensor to detect and classify naval mines buried in the littoral. The sensor will work like an underwater metal detector, but it will operate at ...

    SBIR Phase II 2004 NavyDepartment of DefenseDepartment of Defense
  7. Aircraft Corrosion Inspection by Electromagnetic Induction Spectroscopy

    Amount: $97,981.00

    This SBIR Phase I proposal will investigate a new methodology known as electromagnetic induction spectroscopy (EMIS) as a means of detecting and characterizing hidden corrosion in multi-layered airfra ...

    SBIR Phase I 2004 Air ForceDepartment of DefenseDepartment of Defense
  8. Time-Exposure Acoustics for Imaging Underground Structures

    Amount: $499,016.00

    We propose to further develop a new technique for imaging underground facilities based on the passive monitoring of acoustic emissions from both stationary and moving equipment within such facilities. ...

    STTR Phase II 2003 Air ForceDepartment of DefenseDepartment of Defense
  9. Wideband In-Situ Electromagnetic Sensor for Exploring Planetary Subsurface

    Amount: $0.00

    We propose a new broadband electromagnetic (EM) sensor, called GEM-5 (Figure 1), to measure the electrical conductivity of the first 5-10 m of Martian in-situ geology. The depth of exploration may inc ...

    SBIR Phase I 2002 National Aeronautics and Space Administration
  10. Wideband In-Situ Electromagnetic Sensor for Exploring Planetary Subsurface

    Amount: $599,995.00

    We propose a new broadband electromagnetic (EM) sensor, called GEM-5 (Figure 1), to measure the electrical conductivity of the first 5-10 m of Martian in-situ geology. The depth of exploration may inc ...

    SBIR Phase II 2002 National Aeronautics and Space Administration

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