A new Internet protocol military encryption system from Norway is being targeted for marketing to Scandinavian and new North Atlantic Treaty Organization nations. Developed for Norway's Ministry of Defense, this system provides end-to-end communications security using an Atlantic alliance algorithm and features a smart card removable cryptographic ignition key, operator password and tamper-proof protection.
Nations seeking to enable information exchange among international coalition partners face several daunting tasks for laying the groundwork for vital interoperability. Many of these efforts involve individual national commitments to build interoperability into their systems and practices, while others require consultation and consensus before proceeding along equipment deployment paths.
A team of Scottish researchers is pursuing the design and development of an advanced sonar system that will enable personnel on board tactical surface and air units to communicate with submarines cruising at operational depths without revealing their positions. The technology addresses a growing demand for systems that can deliver critical data to hard-to-reach units to improve interoperability and unify command network connectivity.
The United Kingdom's armed forces will be calling for communications based on capabilities rather than technologies, if the agency responsible for answering their calls is successful. This is the approach chosen for dealing with interoperability challenges, widespread legacy systems and the rapid introduction of new information technologies.
The French army soon may benefit from a prototype command and control system for helicopters that allows low-flying aircraft to share data in a tactical network. The technology features detailed digital terrain maps that can be viewed in the cockpit or from a groundstation before a mission. Mission-planning information and text messaging also can be transmitted via this airborne system.
A wireless communications system offers government organizations the potential to shield both data transmissions and users' geographic locations. The scalable technology can operate in stand-alone networks or through existing public cellular providers, allowing users to make secure calls from almost any location. An optional central administration capacity allows increased security and administrative capabilities, such as the monitoring and control of every participating mobile telephone or handheld computer.
Germany, France and Italy are experimenting with a new fiber optic guided missile system that will enable surface ships more precisely to track and destroy air and surface targets by using remote imaging sensor technology. With an onboard infrared camera and fiber communications system, the weapon can conduct long-range autonomous strikes, then relay critical information to the launch operator for the rapid processing of point of impact and kill assessment data.
By Alfred G. Brandstein, Henrik Friman and Gary E. Horne
The Swedish armed forces and the U.S. Marine Corps are collaborating to develop a design for the possible command post of the future. The goal is to bridge the gap between operational knowledge and technological solutions.
This month marks the beginning of the future of defense science in the United Kingdom as the Ministry of Defence breaks with long-standing custom and transfers the bulk of its research to the commercial sector. The newly formed corporate vehicle for this transformation will be required to sink or swim in the marketplace to maintain its viability as a font of technology innovation.
The North Atlantic Treaty Organization is strengthening its communications structure with a new standard Internet protocol encryption system that protects data, videoconferencing and some voice communications. The organization and its member nations will begin using the system later this year.