Technology

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.

Entrepreneurs developing products for entry into the aerospace and military industry in the next one to three years are focusing on improved battery efficiencies, 3-D metal printed antennas, software for manufacturing improvements and drone delivery applications, among other cutting-edge technologies.

Trying to break into the potentially lucrative market of aerospace, the prospective business men and women presenting their nascent product ideas and discoveries at a pitch meeting hosted by Defense Advanced Research Projects Agency (DARPA) on October 5 are searching for venture capital investments and partnership, positing that their technologies will be, if not groundbreaking, useful and more efficient.

No longer the wave of the future, quantum communications are here today. China recently launched Micius, the world’s first-ever quantum communications satellite capable of securing transmitted data within a high-dimensional quantum encryption.

This development is a “Wow!” There is no known capability to decrypt quantum encryption. This means no one can hack it until quantum technology reaches a point where technology gurus can think of it as another element within the Internet of Things (IoT).

The U.S. Coast Guard needs more unmanned aircraft as eyes in the sky to support key missions such as search and rescue, drug interdiction and maritime patrol. The service will soon deploy these aircraft from its cutters as part of a long-term effort to expand the Coast Guard’s use of airborne robot platforms. Both ships and shore-based installations will be equipped with medium-range unmanned aerial systems to aid manned aircraft and provide real-time, around-the-clock surveillance.

The Office of the Director of National Intelligence’s (ODNI’s) Xpress challenge, designed to spur industry and academia to develop machine-generated analysis systems, has produced its first results. The challenge launched April 6 and ended July 5.

David Isaacson, ODNI program manager, says it included 387 registrants across 42 countries. In the end, it featured 15 submissions, only two of which were nonresponsive. He defines a nonresponsive submission as one that was not computer-generated but instead was written manually by humans, not meeting the challenge’s requirement for machine-generated results.

A new era of computing, sensing, modeling and communicating will begin with the advent of viable quantum technologies. Viable quantum technologies will change everything about computers. Harnessing the characteristics of quantum mechanics is bound to unlock mathematical mysteries and enable profound applications.

Today’s military leaders must prepare now for the quantum future.

Many U.S. government sectors, including defense, intelligence, public safety, cybersecurity and space, have seen a recent shift toward embracing new technologies and methodologies for delivering capabilities in a more responsive, agile manner.

The ecosystem of technologies that is driving this innovation is diverse to say the least. The foundation of this ecosystem is the underlying IT infrastructure. The evolution of hyperconverged infrastructure is maximizing the density of computing power, random-access memory and storage in these modern data centers, making it easier and more cost effective for providers to leverage and deploy applications and solutions.

One of the Army’s biggest needs in the area of tactical command, control and communications is radio waveforms that are difficult to detect and intercept.

Gary Martin, the service’s Program Executive Officer for Command, Control and Communications-Tactical, told the AFCEA TechNet Augusta audience that hard-to-find waveforms top the service’s list, and he invited industry’s ideas on the subject.

Beginning later this year, the U.S. Army will be updating mission command network software and hardware across 400 Army, Army Reserve and Army National Guard units. The goal is to reduce more than a dozen mission command network software and hardware versions to one standard baseline. As a result, system complexity in the command-post environment will be mitigated, allowing for easier network initialization and sustainment.