Aerospace platforms and major systems often contain a myriad of interacting subsystems that independently and collectively must satisfy a complex set of performance requirements. USA's System Engineering personnel have world-class experience managing these complex system architectures within a subsystem and across the rest of the platform subsystems to ensure the primary system meets stakeholder requirements.

Our team is skilled at implementing design solutions for large-scale space flight systems (both manned and unmanned), payloads and support systems. This includes electrical and mechanical support equipment and launch processing facilities.

They have also performed systems safety assessments, developed integrated hazard assessments, performed architecture development and trade studies, and assessed anomalies for system impacts to assure integrity of critical and hazardous flight and ground systems.

Our engineers have an in-depth understanding of system analysis methodologies, such as detailed technical risk and failure analysis and use of widely recognized Failure Modes and Effects Analysis (FMEA) protocols. Our capabilities also include analysis of power generation system performance, prediction of electrical loads and power distribution system performance modeling. USA personnel perform analysis of active thermal control system performance, consumables analysis and resource management. They also develop requirements for various types of analysis tools and models for electrical, mechanical and communications systems and also for resource management/consumables analysis.

United Space Alliance's simulation hardware engineering and analysis is an integral and cost-effective component of flight software development and crew/flight controller training. Our engineers are responsible for providing the simulation platform (both hardware and software) required to execute various hardware and environmental models.