Award Data

The Navy reduced manning requirements drive the need for more sonar automation. Automatically detecting and classifying targets of interest meets the challenge of reduced manning and workloads required for passive anti-submarine warfare (ASW) and torpedo detection, classification and localization (TDCL). Under SBIR Phase I Topic N06-138, the team of 3 Phoenix, Inc and General Dynamics - Advanced I ...

This Small Business Innovation Research (SBIR) Phase II proposal leverages technologies developed under SBIR Topic AF06-273 to develop cost-effective technology for Radio Frequency (RF) signal distribution over fiber onboard submarines. The technology has the ability to reduce RF signal loss over long distances and across a wide frequency range; reduce the number of hull penetrations; support mast ...

Complex systems such as the SPS-74(V) Periscope Detection Radar automatic target recognition system present difficult training challenges for enhancing and maintaining operator proficiency. Technical challenges arise from the nature of software automation. The most difficult recognition cases can usually be trained effectively only with actual sensor data. Keeping the proficiency training curren ...

Sea mines are a cost-effective method for hostile forces to attempt to neutralize assets of the U.S. Navy by limiting mobility and creating delay. Mine detection, classification and localization (DCL) is very challenging in littoral environments due to the high clutter, increased background, and dense multipath. 3 Phoenix, Inc. has developed an innovative approach for automatic target detection an ...

A design for a long-wave IR integrated dewar assembly that includes a lens in place of a window, and the associated, deterministic alignment processes, fixtures and instrumentation will be developed. Including a lens, instead of a window, in a dewar provides additional optical design freedom that makes it possible to reduce the length and weight of a sensor optical system. Size and weight are cr ...

Damage sustained on board a US Naval vessel is a serious situation. Rapid situational assessment of a damaged compartment by a rugged, hand-deployed, situational sensor would be advantageous in coordinating a response, mitigating additional damage to the ship and crew, and preserving the ship’s mission. Such a device must be able to withstand shock, heat, flooding, and other hazardous environmen ...

The US Navy seeks the development of a miniature transponder locator unit, capable of sustaining high shock loads that can be placed in both lightweight and heavyweight exercise torpedoes for rapid torpedo recovery. Currently, a considerable amount of time and resources is expended to visually search for the exercise torpedo after the end of run, and the solicitation aims to develop a system that ...

Adaptive Technologies, Inc. (ATI) and Fortress Technologies have teamed to develop advances in flight deck data and voice communications for use by the Aviation Data Management and Control System (ADMACS) program. This unique challenge of providing operational, noise-free, voice-enabled data management in a flight deck environment, with wireless network integration to the existing ADMACS shipboard ...

A low-cost fiber-based octave-spanning frequency comb system operating in the mid-IR region is proposed, which is based on femtosecond-Tm-fiber-laser-pumped supercontinuum generation in a mid-IR-transmitting dispersion-engineered fiber. An all-fiber femtosecond mode-locked Tm-doped fiber laser at 2 micron will be used as a seed source for mid-IR supercontinuum generation. A femtosecond soliton fib ...

High energy laser can provide a tremendous benefit to the army for area protection against rockets, artillery, and mortars (RAM). There is concern about high energy laser systems potentially causing collateral eye damage due to scattering off of target surfaces. We propose to develop innovative high efficient high power 2.1 micron fiber laser that is scalable to power levels of greater than 10kW. ...