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Digital Mission Engineering

From chip to mission, connect modeling and simulation efforts across all phases of the engineering product life cycle. Model multi-domain operational environments, including land, sea, air and space, with accurate, dynamic, physics-based simulations. Integrate with the Ansys portfolio of multi-physics tools and solvers to achieve unmatched end-to-end modeling and simulation.

Digital Mission Engineering (DME) Solutions

Digital mission engineering products enable 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 assets across multiple domains, including land, sea, air, and space.  Analyze system performance, and integrate with the Ansys portfolio of multi-physics tools and solvers to achieve unmatched end-to-end modeling and simulation.

Digital Mission Engineering

The latest releases of STK and ODTK advance the extraordinary promise of digital mission engineering. The new features included in this release are designed to enable aerospace and defense organizations to digitally transform the entire product life cycle: design, analysis, and operations. 

  • Large Constellation Improvement
    As the commercial space segment continues to grow and the deployment of so-called "mega-constellations" looms, the need for modeling and simulation of space assets is more urgent than ever. With STK 2022 R2, you can include the Satellite Collection object within chained calculations, to better analyze and understand complex routing options for connecting ground-based assets. 
  • RF Interference at Receiver Object
    Designing and analyzing communications systems is complicated by the increasing congestion of the RF spectrum, making simulation of these systems and the RF environment essential. With STK 2022 R2, you can analyze the effects of a crowded RF environment on an individual receiver, making it quicker and easier to characterize interference and develop mitigation strategies. 
  • EOIR Improvements
    STK 2022 R2 improves the modeling capability for EOIR sensor simulations by providing enhanced central body property maps with overlapping texture maps. It enables you to model temperature, emissivity, and reflectance at higher fidelity. Adding the ability to model ground vehicles and ships in EOIR generates sensor-to-target metrics that incorporate these objects.
  • ODTK: 3D Moving Targets, Spice File Attitude, and CentralBody Gravity Estimate
    ODTK 2022 R2 provides an introductory capability to estimate the trajectory of moving vehicles in a non-orbital environment on or near the surface of Earth (or another planetary body). It improves small-body mission planning and operations, and we've added native support of SPICE formatted attitude files for spacecraft attitude.  



2022 R2: Was ist neu in ODTK?

Erfahren Sie mit Dr. James Woodburn, Chief Orbital Scientist bei Ansys, mehr über die neuen ODTK-Funktionen. Dr. Woodburn ist auf Softwareentwicklung spezialisiert, die sich auf Sichtbarkeitsanalyse, Umlaufbahnkonjunktionen, Umlaufbahnausbreitung und Umlaufbahnbestimmung konzentriert. Er wird auf die neuen Funktionalitäten eingehen, die die Funktionen bei der Planung und Ausführung von Weltraummissionen, der Positionierung von Oberflächenfahrzeugen und der Satellitenbereitstellung von einem verfolgten Host-Fahrzeug aus erweitern.


Ansys 2022 R2: Luftfahrtsimulationen mit höherer Wiedergabetreue

Treffen Sie Henry Vu, Lead Application Engineer, und Tom Neely, Senior Principal R&D Engineer, zu einer Diskussion über Luftfahrtsimulationen mit höherer Wiedergabetreue mit STK Aviator und Fluent Aero. 


Ansys 2022 R2: Was ist neu bei der Satelliten-LEOP-Analyse STK und TETK

Kyle Kochel, Application Engineer, spricht über das Test and Evaluation Tool-Kit (TETK) von STK, mit welchem der Start und die frühe Umlaufbahnphase (LEOP) eines Satelliten untersucht werden kann, und wie damit mehrere Bodenstationen analysiert werden können, die den Satelliten verfolgen.  


Ansys 2022 R2: ModelCenter Behavioral Simulation für MBSE

J.J. Vergere, Senior Application Engineer, und Scott Ragon, MBSE Product Manager, sprechen über digitale Transformation und MBSE. Erfahren Sie, wie Sie mit der Behavior Execution Engine (BEE) von ModelCenter Ihr System simulieren und sicherstellen können, dass es die Verhaltensanforderungen erfüllt. 

Digital Mission Engineering Products

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Digital Mission Engineering Applications

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Deliver systems faster and accelerate operational decision-making.Digital mission engineering and operations software tools are packed with air-specific capabilities to shorten development cycles, streamline sustainment efforts, and enhance situational awareness. Connect model-based engineering to our mission analysis platform and achieve unrivaled speed.


Model complex, multidomain systems that incorporate your communications systems. Ensure that all your missions will have the communications they need to succeed. Evaluate configurations for your communications systems to optimize them. Arrange your assets where they give you the most while costing you the least.


Go beyond geometry and model radiometric detection to evaluate EOIR sensor performance. Analyze performance and detection over time. Generate images of the detections to visualize the synthetic scene. With DME solutions, you can model radiometric detection and performance and within the context of your entire mission and all your available assets.


Put all your geospatial data to fast, practical use. The expanding demand for geospatial intelligence meets with rapidly expanding data sets. You can synthesize data, model complex systems, and analyze the results with DME solutions.


DME solutions offer you the ability to model the full system of systems in a realistic operational environment to make critical engineering and mission planning decisions. Import standard data models or design your missile models. Evaluate parabolic and hypersonic trajectories in physics-based, high-fidelity simulations. Extend your models from land to space.


Design and model complex radar systems. Model radar systems with exquisite fidelity and apply them to the system of systems and the things you need them to detect. Evaluate it within the context of its mission.


DME solutions streamline processes and help mitigate risks throughout a system’s life cycle. From a single satellite to a large constellation, a simple orbit to a maneuvering trajectory, a primary signal relay to an EOIR sensor – when it comes to space, our software has a long history of helping you plan your future.


Land, sea, air, space, cyber – dominance in one domain is no longer possible without systems that span them all. Simulate multidoman, multi-aspect systems to streamline development, dismantle silos, and accelerate delivery.


Automate routine, repetitive tasks that maintain your catalog of orbiting space objects in a state of readiness. Deveote your time and expertise to solving problems using the data, rahter than solving problems about the data.


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