ARX can provide full Integrated logistics support (ILS) and a support strategy that optimizes functional support, leverages existing resources, and guides the system engineering process to quantify and lower life cycle cost making the unmanned
system easier to support. The goal of ARX ILS is the creation of unmanned systems that last longer and require less support, thereby reducing costs and increasing return on investments throughout
the operational life cycle of the unmanned system.
ARX ILS activities include:
- Reliability engineering, maintainability engineering and maintenance (preventive,
predictive and corrective) planning
- Supply and spare part support
- Test equipment and equipment support
- Training and training support
- Technical data/publications
- Computer resources support
- Packaging, Handling, Storage and Transportation (PHS&T)
- Design interface.
An ARX executed ILS strategy will ensure that the requirements for each of the elements of ILS are properly planned, resourced, and implemented. These actions will enable the system to achieve the operational readiness levels required by the end-
ARX services address a wide range of unique problems. Unmanned Systems are a complex intersection of specialist fields, from mechanical to software. ARX engineer’s skills and experience across a broad range of areas deliver bespoke solutions. ARX
offers services that are tailored to the end-users requirements. ARX have designed new products, created prototypes and delivered custom robots to clients in a range of sectors.
ARX have designed new products, created prototypes and delivered custom robots to clients in a range of sectors.
ARX services include simultaneous engineering, design for testability, product debugging, testing and validation, manufacturing process strategy, process layout, planning and simulation, cost - benefit analysis, equipment specification writing, proof of principle and prototyping, engineering feasibility analysis, system designing, programming, building and integration, production line start-up, review and evaluations of existing robotic production systems, process flow and cycle time, optimization analysis, documentation of procedures and training and support.