Virtual EM Inc.

Company Information

Company Name
Virtual EM Inc.
Address
3055 Plymouth Rd, Ste 200
Ann Arbor, MI, -
Phone
1 734-734-4558
URL
http://www.virtualem.com
DUNS
118732838
Number of Employees
5
Hubzone Owned:
N
Minority Owned:
N
Woman Owned:
N

Award Totals

PROGRAM/PHASE
AWARD AMOUNT ($)
NUMBER OF AWARDS
SBIR Phase I
$976,974.00
10
SBIR Phase II
$1,749,998.00
2
STTR Phase I
$419,899.00
4
STTR Phase II
$1,099,236.00
2
Chart code to be here

Award List

  1. RFID-Enabled Navigation and Communication Networks for Long-Duration Space Missions

    Amount: $99,989.00

    Virtual EM Inc. proposes a system that employs semi-passive RFID sensors with carbon nanotube inkjet-printed antenna and solar powered mesh-networked beacons. The tags will be powered by printed thin ...

    SBIR Phase I 2010 National Aeronautics and Space Administration
  2. Radio Propagation Prediction Software for Complex Mixed Path Physical Channels

    Amount: $97,513.00

    "The deployment of advance wireless communication systems requires detail knowledge of the propagation environment and its effect on the system's performance. Physics based propagation prediction mod ...

    SBIR Phase I 2002 Defense Advanced Research Projects AgencyDepartment of Defense
  3. Advanced Evaluation and Design Software for Antennas with Radome and FSS Structures

    Amount: $69,829.00

    This proposed work envisions a software suite for modeling antennas with radomes and frequency selective surfaces. Infinite as well as finite arrays will be modeled efficiently. Phase I work will invo ...

    SBIR Phase I 2002 NavyDepartment of Defense
  4. Advanced Evaluation and Design Software for Antennas with Radome and FSS Structures

    Amount: $750,000.00

    This proposed work envisions a software suite complete with a graphical interface for modeling antennas with radomes and frequency selective surfaces deployed on complex platforms. Large finite arrays ...

    SBIR Phase II 2003 NavyDepartment of Defense
  5. Development of Novel Knowledge-Based Space-Time Adaptive Processing (STAP) Techniques Using Support Vector Machines (SVMs)

    Amount: $69,993.00

    Virtual EM Inc. proposes to develop STAP techniques using machine learning algorithms for eventual implementation in critical radar systems. These algorithms require less time to train than neural net ...

    STTR Phase I 2005 NavyDepartment of Defense
  6. A Chemical Sensitive RFID Sensor for Tracking Biological Warfare Agents

    Amount: $99,942.00

    Virtual EM, in collaboration with the Michigan Nanotechnology Institute for Medicine and Biological Sciences (MNIMBS) of the University of Michigan, proposes to develop the first stage in a BWA sensor ...

    STTR Phase I 2007 Air ForceDepartment of Defense
  7. FPGA-Based Adaptive Digital Beamforming for Missile Defense Radars

    Amount: $99,966.00

    An FPGA-based solution is proposed for Adaptive Digital Beamforming for missle defense radars. The FPGA implementation speeds up real-time computations and allows for remote retuning of the algorithm ...

    SBIR Phase I 2007 Missile Defense AgencyDepartment of Defense
  8. Improved High-Rejection Filters and MEMS-Enabled Smart Reconfigurable Antennas

    Amount: $99,972.00

    Proposed work envisions development of high-rejection filters and smart reconfigurable antennas using MEMS switches. Adaptive feature of the proposed antenna provides higher S/N ratio and extends rang ...

    STTR Phase I 2008 National Aeronautics and Space Administration
  9. MEMS-Enabled Smart Reconfigurable Antennas

    Amount: $599,950.00

    A prototype wearable smart reconfigurable antenna for the Suit will be built to be used during NASA's EVA operations on lunar surface. The design is based on the Self-Structuring Antenna (SSA) technol ...

    STTR Phase II 2009 National Aeronautics and Space Administration
  10. SBIR Phase I: A Cell-based Wireless Sensor for Stand-off Detection of Improvised Explosive Devices (IEDs)

    Amount: $99,947.00

    This Small Business Innovation Research Phase I research project involves using olfactory neuron cells integrated with electronic circuits, and interfacing with a wireless hardware based on ZigBee tec ...

    SBIR Phase I 2009 National Science Foundation

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