Boston Micromachines to develop free-space communication device for military

Nov. 27, 2007
Watertown, MA--Boston Micromachines, a provider of MEMS-based deformable mirror products for adaptive optics systems, has been selected by the United States Army for a Phase II Small Business Technology Transfer Program (STTR) award through the Department of Defense.

Watertown, MA--Boston Micromachines, a provider of MEMS-based deformable mirror products for adaptive optics systems, has been selected by the United States Army for a Phase II Small Business Technology Transfer Program (STTR) award through the Department of Defense. The STTR award of approximately $750,000 will allow Boston Micromachines and its research partner Boston University to advance the development of its Secure Communicating Optical Ultra-small Transponder (SCOUT).

This goal of the new device is to help save lives on the battlefield through secure optical communication using an active mirror enabling the rapid identification of friendly soldiers, vehicles, or aircraft. The initial concepts for SCOUT were developed under a Phase I STTR award and success in that effort lead to the competitive selection of Phase II funding. The technical objective of the Phase II two year project will be to develop a compact, portable, low power, light weight, and low cost modulated retro- reflecting device for free-space covert communication and remote sensor interrogation, and demonstrate its functionality.

"We are pleased that the United States Army has chosen to expand its investment in our high-performance deformable micromirror technology," said Paul Bierden, president and CEO of Boston Micromachines. "This grant will further our aim to help address an ever growing concern for our military forces."

Sponsored Recommendations

How to Tune Servo Systems: Force Control

Oct. 23, 2024
Tuning the servo system to meet or exceed the performance specification can be a troubling task, join our webinar to learn to optimize performance.

Laser Machining: Dynamic Error Reduction via Galvo Compensation

Oct. 23, 2024
A common misconception is that high throughput implies higher speeds, but the real factor that impacts throughput is higher accelerations. Read more here!

Boost Productivity and Process Quality in High-Performance Laser Processing

Oct. 23, 2024
Read a discussion about developments in high-dynamic laser processing that improve process throughput and part quality.

Precision Automation Technologies that Minimize Laser Cut Hypotube Manufacturing Risk

Oct. 23, 2024
In this webinar, you will discover the precision automation technologies essential for manufacturing high-quality laser-cut hypotubes. Learn key processes, techniques, and best...

Voice your opinion!

To join the conversation, and become an exclusive member of Laser Focus World, create an account today!