The Army of the Future: the Robotic and Autonomous Systems (RAS) Revolution in the British Army

At the heart of the British Army's transformation is a key challenge: how to maintain operational superiority in a rapidly changing technological world.
Human-Machine Teams: the new operational challenge
La answer is called RAS - Robotics and Autonomous Systemsa strategic vision that aims to revolutionise the entire land force concept by 2035. In a global context marked by hybrid threats, high-intensity conflicts and the spread of low-cost but highly effective technologies, the integration of robotic and autonomous systems is an indispensable element to ensure responsiveness, protection and manoeuvre capability.
The plan envisages three milestones: by 2025, a Light Brigade equipped with tactical RAS will be operational; by 2030, the systems will be fully integrated into medium-heavy brigade-type formations; by 2035, the transformation will be complete, with units at all levels capable of human-machine synergy. In this model, technology does not replace the soldier but amplifies his capabilities, while reducing direct exposure to the dangers of the battlefield. All this will take place through a generational change in military culture, which will have to embrace innovation and adapt quickly to the pace of the digital revolution.

RAS: an integrated technology ecosystem
RAS is not just a collection of robots, but an integrated system comprising hardware, software, algorithms, artificial intelligence, communication networks and, above all, people. Each autonomous platform - whether ground or airborne - must be able to collaborate in real time with other sensors, decision-makers and effectors to optimise operational response. Human Machine Teams (HMTs) evolve in three progressive stages: from enhanced teams, where the machine is a supervised tool, to integrated teams, where humans and RAS act in synergy, to supervised teams, where machines operate with a high degree of autonomy and human control is limited to critical cases.
This balance between technology and the human factor requires a profound cultural change, with soldiers equipped with advanced digital skills and able to trust the support provided by autonomous systems. Concrete examples are not lacking: already today, in logistics operations, reconnaissance or mine neutralisation, machines make it possible to speed up times, reduce errors and protect human lives.
The success of the RAS will also depend on the quality of the data and digital architectures used: artificial intelligence is only effective if it is powered by accurate, accessible and shared information in real time. The British Army therefore plans a major investment in the so-called 'digital backbone' of the force, with resilient networks, interoperability between platforms and strategic use of operational data.
Furthermore, autonomy management will be modular: in some scenarios machines will act under strict human control, in others they will be able to operate with greater freedom, depending on the complexity of the mission and the operational context. Special attention will be paid to training: the soldiers of the future will have to master digital tools, understand the limits of artificial intelligence and develop new forms of leadership to lead human-machine hybrid teams.

Ethics, governance and cultural transformation
But transformation cannot be achieved without a robust ethical and regulatory framework. Indeed, the use of lethal force will always remain a human responsibility. The British Army's RAS strategy is based on transparent governance, clear ethical principles and strong interaction with industry, academia and international allies. Technologies must be reliable, safe and understandable so that the trust between man and machine is well calibrated.
In parallel, defence will equip itself with a resilient digital infrastructure, capable of handling large flows of data in real time and ensuring interoperability between systems. The development logic will be flexible and continuous: research, experimentation and implementation will take place in an integrated manner, reducing acquisition times and rapidly adapting solutions to operational needs. Within this framework, the soldier of the future will be at the centre of a dynamic network, capable of acting in urban environments, congested spaces and complex scenarios thanks to the intelligent support of RAS. The objective is twofold: to maintain military effectiveness and to protect personnel, addressing asymmetric threats, conventional warfare and civil operations with state-of-the-art tools.
The concept of 'Human-Machine Teaming' will thus become a distinctive competence of the British armed forces, as important as shooting or traditional command. The change will not only be technological, but doctrinal, organisational and cultural. It will require a new mentality capable of accepting experimental failure as part of progress and a flexible structure capable of adapting to the rapidly changing operational environment. The British Army will thus not only adapt to the warfare of the future, but actively lead its transformation. With vision, investment and determination, the RAS revolution is set to become an operational reality within the next ten years.
Published by Condoralex
Born Alessandro Generotti, C.le Maj. Parachutist on leave. Military Parachutist Patent no. 192806. 186th RGT Par. Folgore/5th BTG. Par. El Alamein/XIII Cp. Par. Condor.
Founder and administrator of the website BRIGATAFOLGORE.NET. Blogger and computer scientist by profession.