Staff Applied AI Engineer

Vantor is forging the new frontier of spatial intelligence, helping decision makers and operators navigate what’s happening now and shape what’s coming next. Vantor is a place for problem solvers, changemakers, and go-getters—where people are working together to help our customers see the world differently, and in doing so, be seen differently. Come be part of a mission, not just a job, where you can: Shape your own future, build the next big thing, and change the world. To be eligible for this position, you must be a U.S. Person, defined as a U.S. citizen, permanent resident, Asylee, or Refugee. Export Control/ITAR: Certain roles may be subject to U.S. export control laws, requiring U.S. person status as defined by 8 U.S.C. 1324b(a)(3). Please review the job details below. We are seeking a hands-on Staff-level Applied AI Engineer to build the next generation of decision intelligence within our mission planning systems. This role focuses on learning from historical mission data, quantifying economic outcomes, and improving planning decisions through optimization and machine learning. You will operate as a roving specialist across our engineering organization, working at the intersection of data, algorithms, and operational systems to unlock measurable business impact. This is not a generic AI role. You will be solving real-world constrained optimization problems with direct revenue implications. The next generation MPS system doesn’t just automate—it needs to both think and act. With AI built in, MPS will function as a digital operator capable of scheduling tasks on specific sensors and autonomously managing and optimizing constellations, while keeping human operators in the loop with auditable controls. Cybersecurity must be engineered in—not bolted on. The system will align to zero trust principles and modern DevSecOps practices to accelerate accreditation and deployment across missions. An open architecture and integrated data layer will enable secure collaboration with allies without sacrificing security. This system must be cloud-native and capable of operating from anywhere. With remote access and seamless integration across terrestrial and space-based networks, operators will compress satellite tasking cycles from days to minutes while maintaining secure operations (potentially) globally.