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The U.S. military and representatives from other government agencies are taking part in a war game this week to explore the Capstone Concept for Joint Operations (CCJO).

The U.S. Air Force literally is restructuring its command and control on the fly to modernize its gear and adapt to new mission sets. This thrust entails replacing heavily used legacy equipment and building a new information architecture to serve the demands of dynamic modern warfare.

An innovative communication capability born from an urgent operational need is generating a cascading effect on many sectors of the U.S. Air Force. This technology provides beyond-line-of-sight secret Internet protocol router network, text messaging and telephone access eight times faster than the legacy capability it replaces. It is changing the way the service’s 116th Computer Systems Squadron does business—including direct interaction with the aircraft.

The U.S. Air Forces Northern Distributed Mission Operations program hit a new milestone recently, with the successful completion of the first-ever individualized warfighter training event. In the past, the program, which supports homeland defense missions, could only accommodate large-scale team training efforts. With the new training capability, learning opportunities are open to more people, and with the improved infrastructure, daily events are a practical option.

A new missile soon will allow different U.S. aircraft to attack a wider range of targets while providing improved targeting and range performance over current air-to-ground missiles. The missile can operate on a variety of aircraft with little or no modification because its software automatically interfaces with the platform’s targeting system. By moving to one standardized missile, the U.S. military also aims to reduce its maintenance and supply costs while enhancing operational flexibility.

A Massachusetts Institute of Technology researcher is developing a way to take simple descriptions of behavior patterns and assemble them to uncover complex dynamics. Once achieved, this capability would enable data to drive the learning mechanism with as little external intervention as possible. Although only in the basic research phase, this methodology could one day enable warfighters and analysts to take seemingly unrelated information and reveal underlying behavior—a valuable commodity in fighting the Global War on Terrorism.

A revolutionary new technology may allow future warfighters to command their equipment to physically change itself to meet new operational needs or to form spare parts or tools. Researchers are developing techniques to order materials to self-assemble or alter their shape, perform a function and then disassemble themselves. These capabilities offer the possibility for morphing aircraft and ground vehicles, uniforms that can alter themselves to be comfortable in any climate, and “soft” robots that flow like mercury through small openings to enter caves and bunker complexes.

Warfighters one day may have electronics literally painted onto their uniforms thanks to a new technology for printing circuitry. The process involves spraying a film composed of carbon nanotubes onto a surface to form thin, flexible circuits. This capability potentially can be applied to cloth, plastics or other soft materials, opening the possibility for communications devices built into clothing or solar panels sprayed onto the tops of tents.

A three-year science and technology project is aiming to transform abstract quantum theories into actual quantum products. A goal of the effort is to create the world’s first silicon spin-based quantum bit, which would be a major advancement in the development of quantum computing. Additionally, the work includes its own theoretical piece that addresses the design of a quantum error correction circuit. Applications include enhancing the basic understanding of spin device physics for potential spin-based microelectronics and determining the feasibility of certain aspects of silicon quantum bits for future research and use.

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