Alan W. Dowd is a Senior Fellow with the American Security Council Foundation, where he writes on the full range of topics relating to national defense, foreign policy and international security. Dowd’s commentaries and essays have appeared in Policy Review, Parameters, Military Officer, The American Legion Magazine, The Journal of Diplomacy and International Relations, The Claremont Review of Books, World Politics Review, The Wall Street Journal Europe, The Jerusalem Post, The Financial Times Deutschland, The Washington Times, The Baltimore Sun, The Washington Examiner, The Detroit News, The Sacramento Bee, The Vancouver Sun, The National Post, The Landing Zone, Current, The World & I, The American Enterprise, Fraser Forum, American Outlook, The American and the online editions of Weekly Standard, National Review and American Interest. Beyond his work in opinion journalism, Dowd has served as an adjunct professor and university lecturer; congressional aide; and administrator, researcher and writer at leading think tanks, including the Hudson Institute, Sagamore Institute and Fraser Institute. An award-winning writer, Dowd has been interviewed by Fox News Channel, Cox News Service, The Washington Times, The National Post, the Australian Broadcasting Corporation and numerous radio programs across North America. In addition, his work has been quoted by and/or reprinted in The Guardian, CBS News, BBC News and the Council on Foreign Relations. Dowd holds degrees from Butler University and Indiana University. Follow him at twitter.com/alanwdowd.

ASCF News

Scott Tilley is a Senior Fellow at the American Security Council Foundation, where he writes the “Technical Power” column, focusing on the societal and national security implications of advanced technology in cybersecurity, space, and foreign relations.

He is an emeritus professor at the Florida Institute of Technology. Previously, he was with the University of California, Riverside, Carnegie Mellon University’s Software Engineering Institute, and IBM. His research and teaching were in the areas of computer science, software & systems engineering, educational technology, the design of communication, and business information systems.

He is president and founder of the Center for Technology & Society, president and co-founder of Big Data Florida, past president of INCOSE Space Coast, and a Space Coast Writers’ Guild Fellow.

He has authored over 150 academic papers and has published 28 books (technical and non-technical), most recently Systems Analysis & Design (Cengage, 2020), SPACE (Anthology Alliance, 2019), and Technical Justice (CTS Press, 2019). He wrote the “Technology Today” column for FLORIDA TODAY from 2010 to 2018.

He is a popular public speaker, having delivered numerous keynote presentations and “Tech Talks” for a general audience. Recent examples include the role of big data in the space program, a four-part series on machine learning, and a four-part series on fake news.

He holds a Ph.D. in computer science from the University of Victoria (1995).

Contact him at stilley@cts.today.

Laser's, Drones and AI - Army Future Optionally Manned Tank 2050

Tank

(Washington DC) Firing lasers, launching drones and targeting enemy vehicles with high-speed, AI-enabled targeting ... are just a few attributes now being explored by the Army for its emerging Optionally Manned Tank program.

The Army is now thinking beyond the Abrams, newly demonstrated Abrams X and RussianT-14 Armata to engineer a new generation of tank-like armored capability to fight in coming decades.

The new “tank” will fight alongside and ultimately replace the Abrams tank, as part of an integrated effort to prepare the service for combat into the 2040s and beyond.

Senior service weapons developers refer to the project as the Optionally Manned Tank, a platform expected to fully emerge in the coming years. Currently, Army weapons developers say the work is primarily conceptual and focused on research, however an initial step forward in terms of configuration and design is expected in just the next few years.

It will likely fire lasers, control drones, move at high speeds, destroy enemy helicopters, penetrate hostile armored formations and perform highly-lethal robotic operations while facing enemy fire. The Army’s new and now underway Optionally Manned Tank, a nascent project intended to propel the Army into a new generation of Combined Arms warfare.

When it comes to the kinds of platforms, technologies and capabilities now being assessed by Army thinkers, the focus is primarily upon capabilities and what particular attributes, parameters and technical characteristics might be needed to achieve “overmatch” in land forward for decades into the future. Lt. Gen Ross Coffman, Deputy Commanding General of Army Futures Command, told Warrior last year that there are technical studies now underway at the Army’s Ground Vehicle Systems Center and with the Army Science Board.

“We are gathering information in the form of studies, maturing technologies and doing deep dives into what will be required from a decisive platform in the future. We are in the exploratory phases and do not want to take anything off the table when it comes to the best thing for our soldiers in the future. We are exploring characteristics and not requirements and looking at broad solutions to known problems,” Coffman told Warrior last year, while directing AFCs Next Generation Combat Vehicle Cross-Functional Team as a Brig. Gen.

One idea which already has considerable traction is a plan to ensure the vehicle is engineered with robotic capabilities and a measure of autonomy as may be required for a particular mission. For instance, Coffman explained that part of the rationale in engineering this vehicle rests upon a broad realization that the Army will need to fight “outnumbered” and therefore achieve combat superiority with a smaller number of vehicles. This is part of why unmanned capability is likely to figure prominently, as there may be threat scenarios where manned crews need to stay at safer standoff ranges while making decisions.

The Army is also making rapid progress with unmanned-unmanned teaming, meaning robotic systems will increasingly be able to operate with greater levels of autonomy while still being operated by human decision makers performing command and control. Forward operating robotic vehicles can directly attack mechanized formations of enemy vehicles in close proximity, fire weapons, perform high-risk surveillance missions and deliver ammunition as needed.

Much of the ongoing experimentation and technological exploration is taking place in a virtual environment, service weapons developers explain. Steve Pinter, Program Manager for Warfighter Experimentation at GVSC, said “Upcoming experiments will provide further insights into the development of the OMT based upon refined learning objectives and lessons learned from previous experiments. The experiments will also be conducted against a simulated near-peer adversary in an operational environment to better understand and develop future vehicle requirements.”

“It will be manned or unmanned as required by the commander,” Coffman said.

As part of the OMT developmental process, the Army is closely monitoring the threat environment with a specific mind to great power rival nations.

Tank to Use AI

When confronted with a large group of fast-approaching, unidentified enemy armored vehicles on attack, future Army tanks will need an ability to receive and organize incoming surveillance data, identify an enemy target and take the necessary defensive measures to include maneuver or counterattack. Perhaps a forward-operating drone captures surveillance videos of the approaching attackers, transmits the images directly to a tank engineered with AI-enabled computing able to instantly find moments of tactical relevance in the video, identify the threat and present organized information to human decision-makers in position to counterattack.

These types of anticipated future warfare scenarios are precisely the reason why the Army expects AI to be heavily incorporated into engineering designs for its emerging new Abrams replacement, the Optionally Manned Tank. Prototyping options or design configuration options will be presented to Army decision-makers in 2023, following several years of ongoing design study, virtual assessments, simulation and conceptual exploration into what the Army’s future tank should be.

The success of a mission of this kind naturally hinges upon speed .. the speed of data collection, analysis and transmission to truncate the time necessary to complete the sensor-to-shooter cycle. Maximizing the speed of coordinated, informed attack could clearly be identified as a major objective with the effort. Perhaps a machine, programmed to instantly bounce incoming information off of a vast existing database including a threat library, could for instance instantly identify that approaching armored vehicles are Russian tanks and therefore operate with an immediate understanding of the kinds of weapons, sensors and threats the approaching enemy platform might present. This computer-generated information including the results of nearly instant analysis can inform human decision makers in position to draw upon attributes unique to human decision-making and cognition to determine an optimal response.

“We will use AI to reduce the cognitive burden, but we allow human reason and decision making to assess those items not exactly tangible where there is not a ‘1s and Os’ solution,” former Brig. Gen. Ross Coffman, Director, Next-Generation Combat Vehicle Cross Functional Team, told Warrior in an interview. (Coffman is now Lt. Gen. Coffman and serving as the Deputy Commander, Army Futures Command.

Coffman’s reference to 1s and 0s seems particularly relevant, as it pertains to the reality that there are clearly certain factors less calculable by advanced computer algorithms, and therefore reliant upon human cognition. Coffman further specified certain more subjective cognitive phenomena unique to human decision-making and not calculable by mathematically engineered computer algorithms. Elements of human experience and less calculable variables such as intuition, emotion, intention or anticipation all represent characteristics which cannot be fully replicated, captured or analyzed by machines. Machines are nonetheless much faster when it comes to data aggregation, data analysis and data transmission, yet there are clear limits when it comes to the analysis of less quantifiable phenomena.

“Humans are better at game theory than machines,” Coffman said.

All of these advances in autonomy and AI pertain to longstanding ethical and doctrinal questions increasingly gaining attention at the Pentagon as technology changes quickly. While there is some ongoing discussion about the possible use of AI-capable autonomous weapons destroying targets without human intervention for purely defensive purposes, the existing DoD doctrine that humans must be “in-the-loop” when it comes to the use of lethal force.

“Our enemies shoot on ‘detect.’ We shoot on ‘identify.’ We must get our sensors to the point where we can identify as they detect, particularly with non line-of-sight factors, air-ground coordination, manned-unmanned teaming and shared situational awareness between platforms,” Coffman said.

Given the respective advantages known to both man and machines, many weapons developers and warfare futurists believe the optimal approach is to leverage and combine the best of both machines and humans, merging them together into an ideal, sought after blend. This concept provides the fundamental rationale for the Army’s pursuit of new levels of “manned-unmanned” teaming.

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