
Digitally Design, Test & Operate
LSAS represents a portfolio of tools trusted globally by the aerospace and defense industry for 30+ years, We combine these tools and our expertise to provide cutting edge digital design, test, and validation solutions to the world's most demanding engineering organizations. Tools trusted by thousands of systems engineers to design and validate critical systems across all domains.... land, sea, air and space
Global Adoption
700+ Buying Organizations
Trusted Heritage
30+ Years Supporting the Aerospace Industry
Accuracy
Mission Critical System Design & Operation
Digital Mission Engineering (DME)
Enabling engineers, operators, and analysts to connect modeling and simulation efforts across all phases of the engineering product life cycle. Model operational environments and the interrelationships of assets with accurate, dynamic, physics-based simulations to validate system designs with respect to the missions outcome.



Model-based approach to combine platform level dynamics with subsystem designs and properties to quickly analyze simulated performance against mission and design requirements
A properly connected mission model shortens project timelines and allows contributions from subject matter experts, designers, and decision makers seamlessly as your designs mature

System of Systems Simulation
Designing today's complex systems requires coordinated collaboration between disparate design teams across various engineering disciplines. Complete understanding of system performance under simulated mission conditions requires design elements ranging from individual component levels through full system of systems simulations
Understand design impacts from chip to mission. Incorporate analysis, models and results throughout the entire engineering lifecycle & mature these models as design mature and advance.



As an Ansys Elite Channel Partner, combined with decades of experience support the Digital Mission Engineering (DME) product line, LSAS is second to none in supporting customers with mission and systems engineering efforts using these leading tools.

STK
Systems Tool Kit (STK) provides an environment for analyzing and visualizing complex systems in the context of your mission. Interact with data from platforms across the aerospace, defense, communications and other industries. Simulate your intended missions and communicate the results with reports, graphs, and stunning 3D animations.

ODTK
Orbit Determination Tool Kit (ODTK) processes tracking data and generates orbit ephemeris with realistic covariance. With ODTK you can process a wide variety of traditional and non-traditional measurements using a state-of-the-art optimal sequential filter and matched smoother to generate orbits and realistic covariance.

RFCM
RF Channel Modeler (RFCM) offers a streamlined workflow for RF systems engineers to model, simulate and analyze communications systems and advanced synthetic radar systems. Incorporating high-resolution terrain, buildings, and other geospatial data, engineers realistically evaluate their system designs and analyze high frequency signal propagation effects to anticipate real world performance.

MODELCENTER
ModelCenter empowers engineers to create and automate multi-tool workflows, optimize product designs, and enable Model-Based Systems Engineering (MBSE) by connecting requirements to engineering. Automated trade study tools connect engineering designs to systems level simulations, allowing engineers to make informed decisions while considering disparate design impacts across all affected systems.

THERMAL DESKTOP
Thermal Desktop from comprehensive two-phase flow to advanced finite element analysis, Ansys Thermal Desktop is a critical tool for any thermal or fluids engineer. Integrated directly with STK for on-orbit thermal considerations across internal spacecraft components based on conceptual or anticipated spacecraft mission trajectories.

DCL
DME Component Libraries (DCL) is a collection of low-level development libraries well-suited for custom desktop applications and web-first architectures. These Java and .NET libraries provide foundational capabilities modeled after STK's design and analysis workflows, purpose-built to address scalability and performance for large enterprise deployments, web-services, or other OEM efforts.