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Autonomous and Advanced Technology Will Change the Future Battlefieldby@allan-grain
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Autonomous and Advanced Technology Will Change the Future Battlefield

by Allan GrainAugust 30th, 2024
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The future battlefield will be a highly complex and technologically advanced environment. Traditional human soldiers will be augmented, and in some cases replaced, by [autonomous and semi-autonomous systems] This will include robot dogs, drones, and unmanned ground vehicles. The cyber battlefield is as important as the physical one, with the ability to turn the tide of conflict through digital means.
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The future battlefield will be a highly complex and technologically advanced environment where traditional human soldiers are augmented, and in some cases replaced, by autonomous and semi-autonomous systems that will include robot dogs, drones, and unmanned ground vehicles.


Robot Dogs will serve a variety of roles, from reconnaissance and surveillance to direct engagement with the enemy. Equipped with advanced sensors, cameras, and possibly light weaponry, robot dogs will navigate difficult terrain with ease, moving silently and quickly, often in packs. They will be capable of executing complex maneuvers autonomously or under remote control, providing real-time data back to command centers.


Airborne drones are already in use, but more advanced and capable versions will dominate the skies, performing surveillance, communication relays, and targeted strikes. Swarms of small drones will be used for overwhelming enemy defenses, while larger drones will carry out more substantial attack missions.


Heavily armored and weaponized Unmanned Ground Vehicles (UGVs) will perform tasks that are too dangerous for human soldiers, such as breaching fortifications, clearing mines, or conducting urban warfare in tight spaces.


Working together with this technology will be regular infantry units, but soldiers will be able to use enhanced systems to assist on the battlefield.


One popular idea currently undergoing testing and development is for soldiers to wear exoskeletons that enhance their strength, endurance, and speed. These suits will allow soldiers to carry heavier loads, move faster, and endure the physical stresses of combat for longer periods.


Soldiers will have access to AR displays integrated into their helmets or visors, providing them with real-time battlefield information, such as the location of enemy forces, environmental hazards, and strategic objectives. This technology will enable better decision-making and coordination in the heat of battle.


Already in use for several decades, cyber warfare plays a central role in every war today.


Dedicated cyber warfare units work to disrupt enemy communications, disable autonomous systems, and protect their own technology from hacking attempts. The cyber battlefield is as important as the physical one, with the ability to turn the tide of conflict through digital means.


Armies around the world deploy sophisticated electronic warfare tools to jam enemy communications and interfere with GPS signals and blind sensors. These capabilities are used to create confusion and misdirection on the battlefield.


Artificial Intelligence (AI) and machine learning play a central role in managing the complexities of modern warfare. Command systems use AI to process vast amounts of data, predict enemy movements, and suggest tactical responses. AI-driven logistics ensure that supplies and reinforcements are delivered exactly where and when they are needed.


Commanders today rely on AI to provide insights and recommendations, balancing the speed and precision of machine calculations with human intuition and experience.


Advanced Weapons Systems (AWS) are now commonplace in any modern military, and lasers and microwave weapons are becoming more common as technology develops. These weapons are capable of disabling enemy electronics, vehicles, and drones with pinpoint accuracy.


Hypersonic weapons, traveling at speeds greater than Mach 5, can be used to strike targets with unprecedented speed, reducing the enemy's ability to react or defend themselves. Such missiles will likely be used more often in the future.


Precision-guided munitions will be even more advanced, capable of altering their course mid-flight to avoid defenses or better target moving objectives.


The future battlefield will be highly networked, with every soldier, vehicle, drone, and weapon connected to a central command network. This connectivity will allow for seamless communication, coordination, and data sharing, making armies more responsive and adaptive to changing battlefield conditions.


Information gathered by various systems—robot dogs, drones, satellites—will be instantly shared across the network, providing a comprehensive picture of the battlefield and enabling coordinated attacks from multiple platforms simultaneously.


Militaries will likely begin to rely on automated supply lines with autonomous vehicles and drones responsible for delivering supplies, ammunition, and medical aid, reducing the need for human involvement in dangerous resupply missions.


Already in use today in Ukraine, on-site 3D printing of spare parts, weapons, and maybe one day even food will allow armies to maintain operational capability even in isolated or contested areas.


In this future battlefield, the distinction between human and machine will blur, with robots, AI, and cyber capabilities playing as crucial a role as human soldiers.