b'Simcenter | Engineer InnovationTest for simulation Test with simulation Simulation for test Use test data to correlate and driveUse real-time simulation models toUse simulation models to dene, simulation models for validatingimprove realism of subsystemsimprove and augment testing in a functional performance in a singletesting single environmentenvironmentModel-based system testing Optimizing complex systems by combining physical prototypes Improve accuracy and ensureEnable earlier prototype validation andProvide better system insight and consistency throughout thereduce integration risks facilitate product performance and simulation models throughout the development cycle.development process engineeringtesting in conventional or real-time, andsuited for MBST, providing capabilitieson-the-fly. This approach can be used for experimentally optimizing subsystemfor data collection, visualization, post- validating and updating model behavior in the context of a virtualprocessing, reporting and modeling. Itparameters, calculating model-based system integration. These applicationsleverages Simcenter SCADASvirtual channels or sensors and require modeling approaches andhardware to acquire multiphysics dataperforming health checks on physical testing procedures that fulfill severalfrom an extensive range of sensors. Itssensor instrumentation.new requirements when compared tonovel Sketch Viewer provides direct pure simulation, or testing for isolatedmodel-driven access to SimcenterSimcenter model-based system testing design engineering tasks. Amesim software models and data, andsolutions provide consistency in the tools seamlessly integrates 1D modeling withand methods used all along the Simulation for testing uses simulationSimcenter SCADAS measurements.development cycle, creating a more agile models to define, validate andSimcenter Testlab Neo Processmechatronic system development complement testing procedures and testDesigner provides powerfulprocess and enabling you to test early data. Virtual sensing is an emergingpostprocessing capabilities for test andphysical prototypes of mechatronic field for testing simulation models whensimulation models. Along with Simcentersystems in simulated, near real-life they are fused with a limited set ofAmesim models, Process Designer offersoperating conditions.experimental data to estimate systemengineers the ability to embed one or variables that are difficult or costly tomultiple Functional Mockup (FMU)Within Simcenter Testlab 2019.1, measure directly (for example,models created by any tool supportingSiemens introduces novel functionalities inaccessible location, inaccurate directthe Functional Mockup Interface (FMI)that bring the concept of model-based measurements, or no existing sensor).2.0 standard. Process Designer then runstesting to life, providing full-system Virtual sensing enriches thethese simulation models as part of anperformance validation based on measurement dataset, thus providinganalysis process, using measurementcombined physical and virtual testing better insight for engineers who aredata for input and providing validationduring any stage of development. ntesting the system. Accurate models are required as a starting point (often obtained through test-based-updating approaches). State estimators are then used to fuse test and simulation data and ensure optimal data quality. Simcenter software from Siemens Digital Industries Software provides a unique environment for performance engineering of mechatronic systems. Simcenter model-based system testing integrates system simulation and testing tools, while extending its capabilities to include model-based, real-time testing. Siemens next-generation software suite, Simcenter Testlab Neo software, is well 9'