Ansys Digital Mission Engineering

Ansys Orbit Determination Tool Kit (ODTK) stands as the industry gold standard for orbit determination, empowering commercial satellite operators, space agencies and defense organizations. As space becomes more crowded and space-based services more essential to our daily lives, tools like ODTK aren't just software - they are enablers of the space economy. #Space #ODTK #DigitalMissionEngineering

Join us for a webinar showcasing a powerful integration between Ansys HFSS finite array design and the Ansys STK mission modeling environment. We’ll walk you through a streamlined workflow that transforms antenna design into dynamic interference mitigation capabilities. Whether designing for aerospace, telecommunications, or defense applications, you’ll discover practical approaches for maintaining signal integrity while automatically avoiding interference. #DigitalMissionEngineering #STK #hfss

With 2025 R1, the Phased Array Antenna model has the ability to select a sub-set of targets based on minimum range, maximum closing velocity, or user defined priorities. ?It provides behavior rules for the phased array antenna to select targets for beam forming. ?Customers can easily select different methods that the phased array antenna can use to select targets to form a beam toward. ?It benefits users who no longer need to write scripts to decide which objects get selected for beam targeting. ?It benefits customers using antenna arrays in scenarios which have more targets than available beams and in situations where the phased array antenna must switch targets based on a specific rule.

See how Honeywell is transforming aerospace innovation through digital engineering with Ansys solutions! Solving tomorrow's engineering challenges today. #DigitalEngineering

The trajectory and mission design process in cislunar space can benefit from multibody dynamical systems approaches. Indeed, many current and upcoming missions leverage these strategies. This two-part on-demand webinar will explore such concepts and will begin with a motivating discussion focused on the first Earth-Moon libration point mission, ARTEMIS (the follow-up to THEMIS), followed by the introduction of a rapid prototyping tool intended to facilitate design strategies quickly, the Cislunar Orbit Designer (CODE). What you will learn: -Multibody dynamical systems approaches -The first Earth-Moon libration point mission -The Cislunar Orbit Designer (CODE): a rapid prototyping tool to quickly facilitate design strategies

Satellite imagery offers large-scale, consistent, and frequent observations of the Earth’s surface. Invaluable for decision-making in government and commercial applications, organizations are challenged with analyzing exponentially increasing amounts of data with a limited number of experts. AI offers a solution to handle this large volume of data but the AI algorithms require training data to identify desired objects in complex SAR (Synthetic Aperture Radar) scenes. Register for a complimentary data set of a specific ground-based object detection scenario - and begin to explore how well-structured synthetic data enables organizations to demonstrate the effectiveness of their AI/ML detection algorithms. #SAR #AIML #RFChannelModeler #DigitalMissionEngineering

The Game Changers: AI & Space Track at Space Symposium highlights the latest innovations in applying artificial intelligence to space exploration and operations. Shashank Narayan, CTO for Ansys Government Initiatives, joins other leaders in their field to explore how AI is transforming satellite technology, autonomous spacecraft, mission planning, data analysis, and space debris management. The track will highlight collaborative efforts between space agencies and tech companies to leverage AI for deep space missions, planetary exploration, and improving Earth observation systems, offering attendees insights into the future of AI-driven space endeavors. #SPACE #digitalmissionengineering #SpaceSymposium2025

Project Loch Ness is an Ansys initiative designed to empower the AI/ML community with a game-changing resource: a complimentary, comprehensive training and validation dataset for a specific ground-based AI/ML target decision scenario. Ansys RF Channel Modeler high-fidelity wireless channel modeling software is used to fill the data lake, and the goal is to provide the community with pure synthetic data for training and validation. #AIML #SAR #RFChannelModeler #DigitalMissionEngineering

Before an eVTOL is built, an organization needs to lay out its mission planning and concept selection to ensure the initial design meets regulations and objectives. Safety, of course, underpins this process. Engineers cannot simply take a chance on the design; they need to know that this highly complex product is validated for use, and that every variable has been considered. Read more from Prem Andrade here! #DigitalMissionEngineering

During Part 2 of The Multibody Cislunar Design: A Tour of Concepts on-demand webinar, we’ll review dynamical systems concepts, including fixed point solutions (i.e., libration/Lagrange points) and periodic orbits. The Jacobi integral concepts and motion-bounding surfaces for a given energy level will lead our discussion to the natural flow pathways associated with periodic orbits (invariant manifolds). The discussion concludes with an example of numerically transitioning a lower-fidelity CR3BP halo orbit into an analogous higher-fidelity libration point orbit. What you will learn -Dynamical systems concepts, including fixed point solutions (i.e., libration/Lagrange points) and periodic orbits -Jacobi integral and motion bounding surfaces for a given energy level -Natural flow pathways associated with periodic orbits (invariant manifolds) -Numerically transitioning a lower-fidelity CR3BP halo orbit into an analogous higher-fidelity libration point orbit