EDO Communications & Countermeasures Systems, Thousand Oaks, California, is being awarded a $17 million contract modification for the production and support of 265 JCREW 2.1 radio-controlled improvised explosive device (RCIED) electronic warfare (CREW) systems to Australia in support of Operation Enduring Freedom. Vehicle mounted CREW systems are one element of the U.S. Defense Department's Joint Counter RCIED Electronic Warfare program. Spiral 2.1 CREW systems are vehicle mounted electronic jammers designed to prevent the initiation of radio-controlled improvised explosive devices. This contract is for the urgent procurement and support of CREW systems, to be used by Australian forces.
Airborne Tactical Advantage Company, Limited Liability Company, Newport News, Virginia, is being awarded a $45 million contract modification for services in support of the commercial air services program, which provides contractor-owned and operated Type III high subsonic and Type IV supersonic aircraft to Navy fleet customers for a wide variety of airborne threat simulation capabilities. This provides for training shipboard and aircraft squadron weapon systems operators and aircrew how to counter potential enemy electronic warfare and electronic attack operations in today's electronic combat environment. The Naval Air Systems Command, Patuxent River, Maryland, is the contracting activity.
Northrop Grumman Systems Corporation, Linthcium Heights, Maryland, and Raytheon Company Integrated Systems, Tewksbury Massachusetts, are being awarded task orders for the Integrated Topside program, which are potentially valued at about $109 million. The companies will design/architect an integrated electronics warfare information operations and line of sight communications multifunction system with 360 degrees of coverage in azimuth for naval surface platforms and subsequently fabricate, integrate, test and demonstrate a single quadrant advanced development model variant of the system to support the technology development phase of a U.S.
EDO Communications & Countermeasures Systems, wholly owned by ITT Force Protection Systems, Thousand Oaks, California, is being awarded a nearly $18 million modification to a previously awarded firm-fixed-price contract to exercise options for the production and support of 260 Counter Radio-Controlled Improvised Explosive Device (RCIED) Electronic Warfare (CREW) 2.1 systems with the Band C Engineering Change Proposal upgrade to meet urgent U.S.
Fiscal year 2015 marks the official kickoff of a U.S. Army program to develop a foliage-penetrating radar that will simultaneously locate still objects and track moving objects from a fast-moving fixed-wing aircraft. The next-generation system is designed specifically for jungle environments such as the Asia-Pacific region, South America and Africa, and by combining multiple capabilities onto one platform, it will allow the service to cut down the number of sensors currently needed.
The U.S. Army’s current tactical network delivers a wide range of capabilities for warfighters, including unprecedented communications on the move. But the complexity can overwhelm commanders who have countless critical tasks to complete and soldiers’ lives in their hands. Future tactical networks will automate many processes and may be smart enough to advise commanders, similar to JARVIS, Iron Man’s computerized assistant.
U.S. Army officials envision a future in which ground and air platforms share data and where soldiers at a remote forward-operating base easily can access information from any sensor in the area, including national satellites or reconnaissance aircraft flying overhead. To achieve this big data vision, the service has initiated three pilot projects designed to provide Google-style access in a tactical environment to the lowest echelon without overwhelming soldiers with unnecessary data.
U.S. Defense Department officials intend to complete a departmentwide spectrum strategy road map this month, which will make more frequencies available to warfighters, provide greater flexibility—especially for international operations—and ultimately allow warfighters to conduct their missions more effectively. At the same time, however, some are suggesting a nationwide strategy to allow for more innovative and effective spectrum management and sharing across government and industry.
The complexities of the U.S. Army’s networks and spectrum allocation processes interfere with the need to reassign units to different tasks, creating major delays and presenting serious challenges. To solve the issue, researchers intend to deliver a wide range of technologies, including automated spectrum planning and allocation tools and smarter radios, that will use spectrum more efficiently, network more effectively and provide commanders the flexibility to reorganize as needed.
Representatives from the U.S. Army and Air Force, along with 17 NATO nations and three partner nations, will participate in a joint reconnaissance trial at Orland Air Station in Norway May 19-28 to test and evaluate intelligence, surveillance and reconnaissance (ISR) concepts and technologies. The Unified Vision 2014 (UV14) trial will be NATO’s largest-ever ISR trial and will be used as a major stepping stone to provide NATO warfighters with an enhanced set of ISR capabilities.
The network-centric U.S. Navy could find itself without its core information assets during a conflict in the vast Asia-Pacific region. So, the U.S. Pacific Fleet is embarking on an effort to learn how to function without some of its most important technology capabilities.
Admiral Harry B. Harris Jr., USN, commander of the U.S. Pacific Fleet, outlined that scenario on the final day of TechNet Asia-Pacific 2013 in Honolulu, Hawaii. Adm. Harris said the fleet is planning for operation in a disconnected, intermittent, low-bandwidth environment, or DIL.
U.S. Army officials are standardizing the information technology architecture on many current and future ground combat vehicles. The effort is designed to reduce the size, weight and power of electronics; reduce life-cycle costs; and improve interoperability while providing warfighters all of the data and communications capability required on the modern battlefield.
Cooperation and conflict define the new strategy guiding U.S. Pacific Air Forces as the air element of the U.S. Pacific Command adjusts to the strategic pivot to that vast region. The former aspect includes efforts with many regional allies as well as closer activities with the U.S. Navy. Meanwhile, the latter element entails power projection to be able to respond to crises whenever they emerge, including those over water.
U.S. Navy researchers are developing a state-of-the-art encryption device for integration onto KC-130 tankers and unmanned aerial systems. An existing version of the device is being installed onto B-52 bombers, E-4s, which serve as airborne command centers for the U.S. president and other National Command Authority officials, and E-6s, which are command and control centers for nuclear weapons. The encryption system can be integrated into virtually any platform and offers backward-compatible, software-definable algorithms that can be updated during operations without downtime.
Rear Adm. Robert Day Jr., USCG, assistant U.S. Coast Guard commandant for command, control, communications and information technology, sees the Joint Information Environment as an opportunity to resolve some of the most pressing information technology problems in the years to come as he faces a future with more challenges and fewer resources. He says a military-wide common operating environment will establish “enterprisewide mandates that programs cannot ignore.”
The U.S. Army is currently delivering a new and improved Coalition Joint Spectrum Management and Planning Tool (CJSMPT) to divisions scheduled for deployment in Afghanistan. The software automates the spectrum management process, dramatically reducing the amount of time and paperwork associated with spectrum allocation and mission planning in a tactical environment.
For operational security reasons, Army officials cannot reveal exactly which divisions will be receiving the systems or when, but for the next few months, they will be working to get the system out to Afghanistan.
Integrating air land, and sea forces on a monthly basis saves money and creates continuity of operations.
Technology experts at the U.S. Air Force’s 4th Fighter Wing based at Seymour Johnson Air Force Base, North Carolina, are networking joint units up and down the East Coast to provide unique training opportunities for the modern military. Through their efforts, advancements are being made to further the Air-Sea Battle Concept, simultaneously improving coalition interoperability. The events allow for interservice and international training without strain on organizations’ budgets.
Future conflicts likely will be fought in degraded information technology environments, which will require the U.S. Navy to develop and exploit new capabilities to continue to operate in contested cyberspace. Technologies such as a flexible information grid, assured timing services and directed energy weapons must be part of the naval information system arsenal if the sea service is to maintain information dominance through the year 2028.
Melding the disciplines of spectrum combat will enable greater flexibility and more capabilities.
The growth in battlefield electronics has spurred a corresponding growth in electronic warfare. In the same manner that innovative technologies have spawned new capabilities, electronic warfare is becoming more complex as planners look to incorporate new systems into the battlespace.
An upcoming demonstration could lead to a giant leap in common electromagnetic components.
U.S. Army researchers intend to demonstrate in the coming weeks that some components, such as antennas and amplifiers, can perform two functions—communications and electronic warfare. The ultimate goal is to use the same components for multiple purposes while dramatically reducing size, weight, power consumption and costs. The effort could lead to a set of common components for electromagnetic systems across the Army, the other military services and even international partners, which would be a boon for battlefield interoperability.