The evolution of military armored vehicles has seen remarkable advancements since inception. From their roots in World War I to specialized tanks in World War II, these vehicles have continuously adapted to balance armor, speed, and firepower. Now, cutting-edge technology is ushering in a new era of versatility and efficiency.
Continued advancements in processing speed, artificial intelligence, and cloud computing are empowering autonomous and semi-autonomous vehicles. The U.S. Army’s Autonomous Multi-Domain Launcher (AML), a modified High Mobility Artillery Rocket System (HIMARS), is leading the charge with remote control and autonomous navigation capabilities.
Software-enabled armored vehicles encompass a diverse range, from combat vehicles to command stations. These vehicles leverage software mechanisms for enhanced adaptability and evolution over their lifespan. Utilizing methodologies like DevSecOps and simulation software, manufacturers can streamline development and testing while reducing costs.
Open standards simplify platform design and promote interoperability, ensuring uniformity in control systems and enhancing accessibility to vital functions. The future holds promises of autonomous military vehicles executing missions without onboard crews, reducing risks to personnel.
DevSecOps principles ensure security from design to operation, with rigorous testing and seamless integration of updates. Simulation technologies accelerate development cycles, enabling teams to validate components and identify vulnerabilities before deployment.
Electric and hybrid-electric military vehicles represent the next frontier, promising efficiency and reduced environmental impact. Collaboration between industry leaders and military planners is driving innovation in this space.
As technology advances and partnerships flourish, the future of ground warfare is fast approaching. Software-enabled armored vehicles are set to revolutionize military operations, offering unparalleled adaptability and efficiency in the battlefield.
