U.S. forces may be over relying on cyber to meet challenges in the Asia-Pacific region at a time when potential adversaries view it as a key to disrupting U.S. operations, according to the top leaders of the U.S. Pacific Command (PACOM). Lt. Gen. Thomas L. Conant, USMC, deputy commander of PACOM, offered that U.S. forces must expect to operate without at least some of their cyber assets in a time of conflict.
Any future U.S. military network architecture must accommodate allies, or it will not work for the vast Asia-Pacific region. Operations from humanitarian aid to military conflict will involve partners, and their effective participation will depend on access to U.S. networks.
That point was driven home by the deputy commander of the U.S. Pacific Command (PACOM). Lt. Gen. Thomas L. Conant, USMC, told the audience at the opening breakfast at TechNet Asia-Pacific 2013 in Honolulu, Hawaii, “We cannot do anything with our networks without the coalition built into our processes.”
The United States must weigh its command and control (C2) capabilities before it embarks on a military plan instead of the other way around, according to the vice commander, U.S. Pacific Air Forces. Lt. Gen. Stanley T. Kresge, USAF, told the opening luncheon audience in TechNet Asia-Pacific 2013 in Honolulu, Hawaii, that vulnerabilities have increased the importance of C2 in planning and execution.
“Oldthink in the U.S. military—which is how we do things today—is, you figure out your military plan, and then you sprinkle your command and control on it,” the general offered. “Instead, you have to understand your limitations in C2 in step one—not what we do today.”
The U.S. Navy’s Next Generation Enterprise Network, freed from the challenge to its contract award, now enters a phase of uncertainty as the government and the winning bidder confront the aftermath of a 108-day delay. This delay has affected both the Navy’s and the contractor’s plans for the transition from the Navy/Marine Corps Intranet.
Current fiscal and world conditions are taking their toll on the ability of the U.S. Army’s signals community to keep soldiers equipped with the latest developments. However, leadership embraces the challenges as impetus to improve, ensuring that troops are prepared as they transition from an operational to a contingency force. Necessity is inspiring creativity to developing solutions, with the government reaching out to industry for more help. As the service branch’s chief information officer/G-6, Lt. Gen. Susan Lawrence, USA, said, “You can’t wring your hands if you’re rolling up your sleeves.”
The delay in implementing the U.S. Navy’s Next Generation Enterprise Network (NGEN) caused by the contract challenge to the Government Accountability Office (GAO) has affected more than just the transition time frame. The network transition will cost more for the Navy because of lost funding opportunities.
The Navy lost the ability to use funds in fiscal year 2013, because the protest was not resolved until a month into fiscal year 2014. So, all the transition costs will have to be borne on funds in fiscal years 2014 and 2015. Fiscal year 2013 funds earmarked for NGEN could not be applied to the transition because of the stop-work order imposed with the challenge.
The U.S. Department of Homeland Security is seeking participants for the Software Assurance Marketplace (SWAMP), which is expected to open to beta users in January. The ultimate goal for the marketplace is to help protect the nation’s critical infrastructure by improving software used for essential functions, such as electrical power, gas and oil, and banking and finance. Potential participants are invited to register at the continuous assurance website.
The U.S. Army’s goal to push the network down to the dismounted soldier is now reality as Rangers units and the 10th Mountain Division begin employing Nett Warrior. But developers are not resting on their laurels. They already are adding advancements to increase capability and improve functionality.
The U.S. Defense Department has spent the last decade developing a family of multiband programmable radios and waveforms designed to move voice, data and video with the goal of connecting small tactical units with larger battlefield networks. Much of this work has focused on supporting warfighters on the ground through vehicle and man-portable radios. But the services now are looking at other ways to connect troops by installing the new radios in aircraft.
U.S. Army researchers are developing a software program that will provide signal corps officers will an improved common operating picture of the network, enhance the ability to manage the plethora of electronic systems popping up on the modern battlefield, advance information sharing capabilities and allow warfighters to make more informed and more timely decisions. In short, the system will assist in planning, building, monitoring and defending the network.
The first step toward an enterprisewide information environment is taking place on desktops belonging to personnel with the National Geospatial-Intelligence Agency (NGA) and the Defense Intelligence Agency (DIA). Deployment has begun for the Intelligence Community Information Technology Enterprise, or ICITE, which aims to provide a common computing environment based on cloud technology (see SIGNAL Magazine articles Managing Change in the Intelligence Community and Intelligence CIOs Teaming for Change from October 2012).
Two ongoing military programs, one getting ready to deploy and another still in the prototype stage, aim to connect troops at the very tactical edge back to larger military data and communications networks. These programs—one service-oriented, the other an agency effort—are part of the Defense Department’s thrust to make warfighters, especially individual soldiers in small units, more connected.
NATO officials are laying the groundwork for a centralized enterprise networking architecture with invitations to bid expected to be released by year’s end. The new approach is expected to offer a number of benefits, including cost savings, improved network reliability, enhanced cybersecurity and greater flexibility for warfighters.
A massive telecommunications infrastructure modernization effort in Afghanistan is designed to contribute to socioeconomic development; provide entry into the global information society; and support national prosperity, sustainability and stability. A key part of that effort is coming to fruition: officials with a telecommunications advisory group in that country expect the completion very soon—possibly this month—of a fiber-optic ring around the nation’s perimeter.
NATO is adopting an enterprise approach to networking so it can take advantage of new defense information system capabilities as well as recent developments gleaned from Southwest Asia operations. This approach would allow different countries participating in alliance operations to network their own command, control and communications systems at the onset of an operation.
However, meeting this goal will require more than desire and a network architecture. NATO’s 28 members must come together to agree on and support a solution that underpins the enterprise approach. And, this must take place against the backdrop of budgetary constraints across the breadth of the alliance’s member nations.
In his June interview with SIGNAL Magazine, Gen. Keith B. Alexander, USA, commander of the U.S. Cyber Command and director of the National Security Agency/Central Security Service, advocated bringing together the signal community, signals intelligence and the cyber community. In that interview, he said, “We need to think of ourselves not as signals, not as intelligence, not as cyber, but instead as a team that puts us all together.”
The U.S. Army Signal Corps is expanding the work its personnel conduct while dealing with technology and operational challenges that both help and hinder its efforts. On the surface, Army signal is facing the common dilemma afflicting many other military specialties—it must do more with fewer resources.
The U.S. Army should subject new technologies to developmental testing before moving them into operational testing at its Network Integration Evaluations (NIEs), according to the Government Accountability Office (GAO). Another recommendation, which is under consideration by the Defense Department, is for the Army to correct issues that arise during an NIE before buying and fielding systems.
The working group that helped solve the coalition interoperability puzzle in Afghanistan is working across the U.S. Defense Department and with other nations to ensure that the lessons learned will be applied to future operations around the globe. Experience in creating the Afghan Mission Network may benefit warfighters worldwide, such as those in the Asia Pacific, and may even be applied to other missions, including homeland security and humanitarian assistance.
Scientists at the U.S. Defense Department’s top research and development agency are seeking the best new ideas to provide a larger-scale mobile network to support an increasing array of bandwidth-hungry mobile computing devices for warfighters.
The Defense Advanced Research Projects Agency (DARPA) has issued a Request for Information (RFI) for new technical approaches that would expand the number and capacity of Mobile Ad Hoc Networks (MANETs) nodes available in the field.