U.S. Marine Corps soldiers in the Special Operations Command (SOCOM) are adding a new tool to the doghouse: a “robot dog” for hands-on canine medical training. The realistic dog mannequin simulator, used recently for the first time at Camp Lejeune in North Carolina, will help the soldiers improve their canine medical skills, according to a report by Cpl. Bryann Whitley, USMC.
By using laser-generated, hologram-like 3D images flashed into photosensitive resin, researchers at Lawrence Livermore National Lab (LLNL), along with collaborators at UC Berkeley, the University of Rochester and the Massachusetts Institute of Technology (MIT), have discovered they can build complex 3-D parts in a fraction of the time of traditional layer-by-layer printing, according to an LLNL press release.
The novel approach is called “volumetric” 3-D printing, and is described in the journal Science Advances, published online on December 8.
Within five years, the Army would like to start testing remote combat vehicle (RCV) prototypes that are as light and as fast as a Stryker but provide the same level of firepower as an M-1 Abrams tank, according to a service press release.
While the holy grail is the Next Generation Combat Vehicle (NGCV), the Army thinks it can more quickly field a limited number of RCVs, and importantly, the results of that testing could help inform the requirements for the NGCV, which is slated for fielding in 2035.
Special operations forces require a variety of systems—everything from satellites to submarines—to accomplish their mission, and officials are looking outside traditional circles for solutions. By the end of this month, they expect to decide on a path forward for problem solvers who fall outside of the norm and their new methods and ideas touching on biotechnology, machine learning and the Internet of Things.
The U.S. Army is moving closer to putting high-energy laser weapons on individual vehicles to improve its short-range air defense capabilities. The weapons meet the Army’s need for counter-rocket, artillery and mortar fire and protection for unmanned aerial vehicles and unmanned aircraft systems—the latter of which is particularly important, given their abundance. Laser systems offer substantially lower cost per fire than traditional weapons, and their stealth firing characteristics make them valuable countermeasures for intelligence, surveillance and reconnaissance operations.
Defense Information Systems Agency mission partners will soon be able to take advantage of cloud computing and storage at up to 70 percent cost savings. The agency’s milCloud 2.0, a commercial-grade private cloud for defense customers scheduled to achieve initial operational capability next month, spreads out costs among many customers and makes infrastructure upgrades more affordable. MilCloud 2.0 also will offer customers much-needed agility, an important feature for warfighters who must respond dynamically to ever-changing threats.
A prototype microwave defense system known as MAX POWER, which deployed in 2012 to Afghanistan, proved useful in neutralizing the threat of improvised explosive devices. The system houses high-powered vacuum tubes to generate microwaves that detonated roadside bombs before they could harm soldiers.
Originally developed by the Air Force Research Laboratory (AFRL) at Kirtland Air Force Base in New Mexico, MAX POWER has transferred to the Army. In an agreement with the AFRL, the U.S. Army Armament Research, Development and Engineering Center (ARDEC) at New Jersey’s Picatinny Arsenal is looking to see what it can do with MAX POWER’s hardware.
The U.S. Defense Department is implementing one of the world’s largest enterprise resource planning (ERP) systems, and the process could be going better. This is the case for many organizations that decide to adopt the software. After all, ERP software can cause network failures, resulting in significant lost opportunities and resources.
ERP software allows the integration of business management applications and automation of office functions. As a taxpayer and a steward of tax dollars, I have questioned the department’s choices of ERP software and implementation techniques. I have also studied a rarity—an ERP implementation success in a government organization.
For the first time, researchers have successfully developed and tested networked acoustic emission sensors that can detect airframe damage on conceptual composite UH-60 Black Hawk rotorcraft, according to an announcement from the U.S. Army Research Laboratory (ARL). The discovery could lead to onboard features that immediately alert the flight crew to the state of structural damage, such as matrix cracking and delamination as they occur, giving the crew more time to take corrective actions before catastrophic failure.
The Defense Advanced Research Projects Agency (DARPA) has announced a new program designed to better understand and ultimately improve metamaterials. The program could lead to improvements in a number of areas, including imaging, thermal control and frequency conversion.
As cyber attacks and electronic warfare become ever-growing concerns in the battlespace, the need for electromagnetic technologies such as high-power microwave weapons becomes crucial to defend against threats.
For the Air Force, the daily use of a laser as a weapon itself is coming. The youngest of the U.S. military services, founded more than a decade before the laser’s invention, is looking to incorporate the high-energy systems into its warfighting arsenal.
Technology is rapidly expanding, and as a result, we must deal with changes in our organizations as well as in our personal communications. Master Sgt. Brandon T. Cruz, USAF, chief, Standardization and Evaluations, 690th Cyberspace Operations Squadron, Joint-Base Pearl Harbor–Hickam, led a panel at AFCEA Technet Asia-Pacific that looked at the cultural as well as organizational differences that occur in a hiring market where there are more jobs than skilled workers to fill them.
Self study, find a mentor, be confident with your knowledge, network and don’t be intimidated. These were some of the recommendations for women offered by female leaders on the Education and Future Technologies Panel at Technet Asia-Pacific. The panel was moderated by Linda Newton, AFCEA Hawaii Educational Foundation.
You have to stay current, or you become stale, said Cindy Moran, president and managing partner, Pikes Way LLC, who acknowledged that the reason she became an executive was because she was tired of being told what to do and not having input. “It wasn’t about power,” she added.
Russia has advanced the state of the art in electronic warfare capabilities to overcome and even overpower Western electronic systems, both military and commercial. And now the country’s military modernization plan extending to 2025 lays the groundwork for further advancement, according to a recent European think tank report.
Russia is developing a total package of electronic warfare (EW) systems covering a broad frequency range. The systems encompass traditional areas such as surveillance, protection and countermeasures, and they shield Russian use of the electromagnetic spectrum (EMS). These total package systems are designed to be highly mobile and include small units deployable by unmanned aerial vehicles (UAVs).
Bitcoin’s underlying technology, called blockchain, has great potential in the public sector. Blockchain is an open, distributed ledger that can record transactions between two or more parties efficiently and in a verifiable and permanent way. This can include the exchange of money, goods, property, documents or data—anything of value that can be represented digitally. A trusted centralized intermediary such as a bank can enforce terms, and details recorded in the ledger can be used for arbitration.
Data stored “in silos” is not providing a fluid, agile stream of information that the DOD needs to perform everyday missions. While data may successfully be generated, getting the needed information “in the right hands at the right time” is a challenge the DOD is facing.
U.S. military satellite communications is expanding to provide greater coverage of the tactical environment as part of its overall mission to serve the land, sea and air domains. Broadening tactical coverage requires new types of satellites with a larger variety of capabilities, and these spacecraft must be shielded against threats ranging from cyber attack to on-orbit interference.
As U.S. Army leaders assess the future of tactical communications and networking programs, the service is moving forward with several measures to extend improved capabilities to soldiers at the platoon and squad levels.
Service officials spent most of the summer participating in a major review of the Army’s network modernization strategy. Gen. Mark Milley, USA, the Army chief of staff, informed Congress in May that he had directed a “rigorous and painful review” of tactical communication programs out of concerns that systems being developed may not be sufficiently hardened against electronic attacks.
For 40 years, the Star Wars Death Star has been one of science fiction’s most iconic figures. But scientists and laser experts held that its superbeam could never work because of the properties of lasers—theory says that the beams would just pass through one another, not converge and combine their energy.
That’s all about to change. A team of researchers at Lawrence Livermore National Laboratory (LLNL) has added a plasma—a charged mixture of ions and free electrons—to the concept and successfully combined several separate lasers into a superlaser.