TRW Delivers Key THEL Subsystems to Army's Laser Test Facility for Integration.REDONDO BEACH Redondo Beach (rĭdŏn`dō), city (1990 pop. 60,167), Los Angeles co., S Calif., on the Pacific Ocean; inc. 1892. Once a commercial port for Los Angeles, it is a residential and resort city with a protected harbor and an excellent marina. , Calif.--(BUSINESS WIRE)--Oct. 6, 1999-- TRW TRW The Real World (TV reality show) TRW The Right Way TRW Tactical Reconnaissance Wing TRW The Retriever Weekly (University of Maryland, Baltimore, MD) TRW Thompson Ramo Wooldridge Inc (NYSE NYSE See: New York Stock Exchange :TRW), the Army's prime contractor for the Tactical High Energy Laser-Advanced Concept Technology Demonstration (THEL/ACTD) program, has moved one step closer to demonstrating the world's first laser-based air defense system by delivering the THEL/ACTD pointer-tracker subsystem to the Army's High Energy Laser Systems Test Facility (HELSTF HELSTF High Energy Laser Systems Test Facility (White Sands Missile Range, New Mexico) ) at White Sands Missile Range White Sands Missile Range (WSMR), formerly known as the White Sands Proving Grounds, is a rocket range in New Mexico operated by the United States Army. The range covers an area of almost 3,200 mi² (8 287 km²), approximately three times the size of Rhode Island, making it , New Mexico. The pointer-tracker subsystem will be integrated this fall with the command, control, communications and intelligence (C3I C3I Command, Control, Communications & Intelligence (US DoD) C3I Computer Controlled Coil Ignition C3I Command, Control, and Communications Interoperability C3I Command Control Communications and Intelligence ) subsystem and the laser subsystem to form the THEL/ACTD fire unit. The C3I subsystem has been undergoing testing at HELSTF since June 1998. TRW has also begun moving the laser subsystem from the company's Capistrano Test Site in Southern California, where it has been undergoing development and testing, to HELSTF. The company expects that move to be completed by mid-October. "The transition of the key THEL/ACTD subsystems to HELSTF positions us to begin the next major phase of the program -- integration into the first fully operational fire unit," said Tom Romesser, vice president and deputy general manager of TRW's Space & Laser Programs Division and TRW's THEL/ACTD program manager. "The team continues to make significant technical progress toward the goal of demonstrating for the U.S. and Israeli governments the effectiveness of lasers against short-range rocket attacks." THEL/ACTD is a ground-based, short-range air defense system that will use a high-energy chemical laser to protect civilians and military assets against attack by terrorist threats such as Katyusha rockets. TRW leads a team of U.S. and Israeli subcontractors that is developing the THEL/ACTD fire unit for the U.S. Army Space & Missile Defense Command, Huntsville, Ala., and the Israel Ministry of Defense. The first fire unit will be a "transportable" system packaged in several semi-trailer-sized containers. A series of tracking tests conducted at HELSTF last summer demonstrated that the THEL/ACTD C3I subsystem can track live Katyusha rockets accurately. Over the next several months, explained Romesser, the THEL THEL Tactical High Energy Laser team will integrate the pointer-tracker system and demonstrate that the C3I system can "hand off" tracking information about the Katyushas in flight to the pointer-tracker system. This "hand off" includes moving successfully from the C3I subsystem's radar tracking radar tracking an electronic technique used to follow the flight of birds. mode to the pointer-tracker's optical tracking mode. The final integration step will be the laser reactivation reactivation to become active after a period of quiescence or, as in bacterial and viral infections, latency. cross reactivation at HELSTF later this fall. Once the THEL/ACTD fire unit has been fully integrated and functionally tested -- live Katyusha rocket testing will begin. The first shoot-downs of operational rockets are anticipated this winter. TRW has been engaged in laser research and development since 1961. The company produces solid-state lasers for defense and industrial applications, and designs and develops a variety of high-energy chemical lasers for space, ground and airborne applications. These chemical lasers include hydrogen fluoride, deuterium deuterium (d  tēr`ēəm), isotope of hydrogen with mass no. 2. The deuterium nucleus, called a deuteron, contains one proton and one neutron. fluoride and chemical oxygen iodine lasers. Based in Cleveland, Ohio, TRW provides advanced technology products and services for the global automotive, aerospace and information systems markets. The company's 1998 sales totaled nearly $12 billion. TRW news releases are available on the corporate Web site: www.trw.com. |
|
||||||||||||||||
Printer friendly
Cite/link
Email
Feedback
Reader Opinion