![]() This can eliminate or minimize key problems: ![]() ![]() Open standards–based architectures simplify platform design by minimizing the need for integration of components, making upgrades easier during the lifetime of a vehicle that may extend 10 to 40 years. Wind River’s deep experience with large-scale systems for space exploration, avionics, industrial automation, electrical grid substations and hybrid cloud deployments provides an ideal foundation for building next-generation software-enabled armored vehicles. This could be through local communications or through a tactical cloud platform. In a software-enabled vehicle, these systems can be enhanced dynamically to provide new capabilities relevant to the current mission, even as that mission is being executed. Otherwise, they all tend to be equipped with essentially similar systems. The main differences among light, medium and heavy armored vehicles are the type and amount of armor and the extent of engineering devoted to resisting damage from hostile fire. Such a vehicle’s capabilities can evolve more easily and affordably over its expected lifetime. Software-enabled means that functions, and in some cases even hardware, can be manipulated, enhanced, created and managed by mechanisms based on software control. Vehicles may have weapons or not, be tracked or wheeled, and be manned or optionally manned. The term software-enabled armored vehicle encompasses a range of vehicle types, from infantry combat vehicles to armored personnel carriers, to battle tanks and mobile command stations.
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