Satellite toolkit stk software

Reduce costs and accelerate your schedule by learning about problems that could be before they become problems that are. After launch, you need to detect and diagnose anomalies quickly. The same analytical and visualization platform that supported your mission through planning and design extends to its operational phase. Maintain safe operations and maximize the return from your mission with accurate analytical modeling.

At AGI, we understand these needs and the stakes involved in meeting them. From a single satellite to a large constellation, a simple orbit to a maneuvering trajectory, a basic signal relay to an EOIR sensor — when it comes to space, AGI software has a long history of helping you plan your future.

Use STK Astrogator to design trajectories, including nominal maneuvers and station-keeping strategies. Use ODTK to estimate orbits based on observations.

You can use the updated orbit estimates in STK Astrogator to re-plan station-keeping or other maneuvers. Use your latest orbit solution from ODTK to update mission-planning products like ground-site acquisition times, eclipse predicts, payload access times to the areas of interest on the ground, and communication link margin analysis.

Use STK Components to fill information gaps and generate data products that you can use in other software tools or operational status displays. Love orbital mechanics, attitude determination, aircraft dynamics, communications link quality, or software programming?

Want to join a fun team working on cutting edge projects? Then join AGI! Shrinking timelines and increasingly complex systems require revolutionary approaches to system design and operations.

By adopting a digital mission engineering approach, you can dramatically reduce delivery times at every phase of the life cycle. The engineering or system life cycle involves multiple stages from inception to sustainment. Each component or subsystem connects to multiple systems — forming a larger, complex system of systems.

By providing a persistent mission model that consistently ties back to the core purpose of any development project — the mission — digital mission engineering software helps disparate teams maintain their focus and validate their work with respect to the greater purpose. Multiple phases. Multiple teams.

Multiple tools. With all the moving parts involved in developing, designing, engineering, testing, and operating today's complex aerospace and defense systems, information silos are hard to avoid. But, every one of them is disruptive at the least, and risky at the worst. And, our ecosystem of partners make it easy to create a digital mission engineering software stack that openly exchanges information throughout all phases of the life cycle.

With digital mission engineering software, you can measure the performance of your system against its mission and its operational context from the very first sketch to the final prototype. Cost Estimation Toolkit and Comparables Database Life-cycle cost estimator for science data systems, including spreadsheet and graphical output, what-if tools, etc.

GeoSocial Consumer Application Abstracts the work of interpreting the server interface, constructing workflows, and executing them by serving JavaScript executable code from each server.

IRC Framework for controlling instruments, devices, and sensors. Java Astrodynamics Toolkit Package for space mission design, trajectory optimization, and analysis of onboard systems. Orbit Determination Toolbox Flexible way to do early mission analysis, particularly formation flying and exploration systems.

S4PM Implements a suite of science processing algorithms and scenarios.