About Systecon: Systecon provides industry leaders worldwide with revolutionary software for optimization and decision-making, enabling clients to design, develop, procure, and implement solutions that are cost-effective throughout their product's life cycle. Our analytics platform for predictive analytics, optimization, simulation, and cost analysis makes it possible to optimize and analyze any scenario, from small conceptual studies to the world's largest and most complex and demanding technology programs. Systecon employees have the expertise, knowledge, and experience from hundreds of projects and applications, providing clients with guidance, methodology, training, and support to manage complex systems successfully.
About the Role: At Systecon North America, our team is shaping the future of mission readiness-helping defense and industry leaders make data-driven decisions to optimize sustainment, reduce costs, and maximize operational availability. From supporting the U.S. Army's most advanced predictive logistics strategies to ensuring fleet readiness across air, land, sea, and space, we provide the analytical power behind the world's most complex systems. We thrive on innovation, drawing strength from diverse perspectives to solve tomorrow's challenges today. Our flexible work environment empowers you to drive impact without sacrificing balance. Our customers-warfighters, maintainers, and decision-makers-are at the heart of everything we do, embodied in our mission: "We Optimize What Matters." Sound like a team you want to be a part of? Join us in building the future of predictive logistics. We are seeking an experienced Integrated Logistics Support (ILS) Engineer to support advanced sustainment and lifecycle management programs. The ideal candidate is well-versed in DoD acquisition and sustainment strategies, with deep logistics engineering expertise in advanced system design, development, and long-term sustainment planning. This role requires a self-starter with a strong understanding of logistics planning, system design integration, and life cycle sustainment strategies. The right candidate will be responsible for executing and overseeing logistics engineering efforts that enhance operational readiness and cost-effectiveness.
Responsibilities:
Utilizing logistics engineering tools and methodologies to develop models and documentation that comply with DoD and/or GEIA standards.
Conducting product support analyses using electronic models to inform sustainment planning.
Performing logistics and sustainment assessments, including:
Level of Repair Analysis (LORA) - optimizing maintenance and repair strategies to balance cost and availability.
Maintenance Task Analysis (MTA) - evaluating required maintenance procedures to enhance system reliability and maintainability.
Spares Analysis - determining optimal spare parts provisioning to ensure readiness.
Support Equipment Recommendation Data (SERD) - identifying and recommending support equipment for sustainment.
Provisioning - establishing and managing initial provisioning requirements for system sustainment.
Collaborating cross-functionally with reliability, maintainability, and logistics teams to enhance design supportability and system availability.
Applying Reliability, Maintainability, and Product Safety principles to improve sustainment strategies and lifecycle cost-effectiveness.
Qualifications:
Demonstrated hands-on experience with logistics engineering tools and processes to develop sustainment models and documentation.
Strong proficiency in performing at least one or all of the following: LORA, MTA, Spares Analysis, SERD, and Provisioning.
Ability to synthesize complex data into actionable sustainment insights, ensuring high levels of system supportability and availability.
Experience working within DoD acquisition and sustainment programs, with a deep understanding of logistics planning and life cycle management.
Agile thinker with the ability to integrate sustainment considerations into system design while engaging with multiple related disciplines.
Working knowledge of Reliability, Maintainability, and Product Safety to ensure sustainment optimization.