| Last Name | Name | Awards | Contact | |
|---|---|---|---|---|
| Weaver | Dr. Robert Weaver | 3 | Message | |
| Carey | Mr. Joseph M. Carey | 6 | Message | |
| Baker | Kenneth Baker | 1 | Message |
Phase 2 SBIR
The Phase 1 SBIR project addressed a significant vulnerability of the SeaLancet RT-1944/U Communication System: its susceptibility to jamming. This vulnerability can affect the ability of the Navy to provide Mine Countermeasures because the SeaLancet is being used as part of the Mine Countermeasures Mission Package in the Littoral Combat Ship (L...
Phase 1 SBIR
In this Phase I SBIR, we will perform system-level engineering to evaluate integrating Harris Corporation's RT-1944/U with Fidelity Comtech's commercial off-the-shelf phased array, the Phocus Array System. The RT-1944/U is a proven design, as is the Phocus Array System. We will do system engineering to show the anti-jam performance that can be a...
Phase 2 SBIR
This Small Business Innovation Research (SBIR) Phase II project will demonstrate the ability of an adaptive antenna system ? a radio with an antenna that changes its radiation pattern to provide coverage where it is needed ? to automatically optimize coverage. Harsh RF environments, for example those with shifting reflective surfaces such as shi...
Phase 1 SBIR
This Small Business Innovation Research (SBIR) Phase I project will demonstrate the feasibility of building networks that can adaptively adjust their cell coverage (the geographic footprint of the radio signal) to optimize performance. These adjustments may be in response to changing environmental conditions, interference, changing traffic patte...
Phase 2 SBIR
In this SBIR Phase II proposal, we will deliver a prototype of a Software Defined Radio sensor that is capable of detecting and identifying a variety of modulation types. This sensor will provide improved situational awareness regarding transmissions in the area. The proposed sensor is unique in that it includes a phased array antenna and has e...
Phase 1 SBIR
In this SBIR Phase I Fidelity Comtech will develop an architecture and high level design for monitoring the RF spectrum directly using a network of low cost Software Defined Radios (SDRs) with phased array antennas. By monitoring the spectrum directly, we will be able to detect threats and interference issues that are otherwise not apparent usi...
Phase 2 SBIR
The Air Force has recognized that the future of networking relies on wireless technology that offers the capabilities of rapid deployment, mobile operations and increased productivity. In particular, in most environments faced by the warfighter, the only reasonable method of communications is wireless. With the increasing deployment of IEEE 80...
Phase 2 SBIR
This Small Business Innovation Research (SBIR) Phase II project will culminate in the demonstration of the smallest, most economical phased array system yet developed for addressing the problem of how to traverse the "last mile" between a broadband network and the home. During the course of the project, the state of the art in phased array ante...
Phase 1 SBIR
Commercial wireless local area networks provide the Air Force the opportunity to lower network infrastructure costs, while allowing the user increased mobility and flexibility. The key factor limiting deployments of these IEEE 802.11 standard based networks is security. In this Phase I project Fidelity Comtech is proposing an innovative physic...
Phase 1 SBIR
This Small Business Innovation Research (SBIR) Phase II project will culminate in the demonstration of the smallest, most economical phased array system yet developed for addressing the problem of how to traverse the "last mile" between a broadband network and the home. During the course of the project, the state of the art in phased array ante...
