![]() ![]() ![]() In the same unified platform, users can then generate dynamic motion of the mechanism and automatically identifying contacts, joints, springs, and dampers.Īltair Activate ® is then used for multi-disciplinary system simulation to design the sensors and controls of the automated The video below shows the process of creating the geometry, applying motion, creating a 1D system model, and rendering the final design.Īutomated pinball table created with Altair Inspire and Altair Activate, including geometry creation, motion, and 1D system modeling, and rendering with Inspire Studio.Īltair Inspire TM is used to create free-form smooth geometry using PolyNURBS and study the assembly configuration. ![]() Sounds complicated, but if we take these principals back to the pinball table, we find that creating a fully automated system is less daunting than it appears.Īltair provides a highly integrated software platform that guides a designer from geometry creation and multi-body system simulation to controls, and even further to create photorealistic product renderings. Equally important is the ability to combine these 1D system models with 3D physics simulation to get a holistic picture of the system in operation. Performance optimization, controller implementation, and testing. Math and system design software enables users to execute concept studies, control design, multi-domain system Linked M-CAD, E-CAD, and PLC challenges can be addressed through system simulation, co-simulating the high fidelity representation of the machine. This is where optimization comes in, allowing designers to optimize for weight, fatigue, noise, and kinematics. The challenge of developing a mechatronic system, however, is won only when a manufacturable result can be derived. This allows you to eliminate vibrations and improve the machine dynamics. Therefore, details like contacts and the selection of the modeling approach are important to get right. The goal is to make the simulation match the physical The foundation of a mechatronic system simulation is to create an accurate simulation of the system’s structures and mechanisms. To keep it real, this often goes beyond what CAD kinematics can do. Development strategies addressing machine builder’s industry challenges set simulation at the core of their innovation strategy. Necessary to deliver outstanding customer experiences. Mechatronic systems require full-system simulation to drive the mechanical, electrical, and control requirements The combination of mechanical structures and mechanisms with sensors, actuators, and computing power has changed product performance expectations. Need powerful tools to understand and optimize how these systems operate. Smart machines can be automated to execute complex tasks, improving product quality, and shortening time to market. Initial pinball table model created in Altair InspireĪchieving greater operational efficiency and overcoming human error are central tenants of mechatronic system development. What if a smart machine could be automated to play the perfect pinball game? And how would you go about designing such a system? ![]() Reacting a fraction of a second too late, the ball falls fruitlessly past the flippers. But most of us succumb to human error at some point. The elusive high score in pinball is a test of reflexes, determination, and focus. ![]()
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