Difference between revisions of "MuJoCo Sim Use Case Notes"
(Created page with "= Notes from user calls == - how robotics simulators have changed processes and improved workflow. - using MuJoCo for advanced simulations and engine design performance, ment...") |
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| − | = Notes from user calls == | + | ==== Notes from user calls ==== |
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- how robotics simulators have changed processes and improved workflow. | - how robotics simulators have changed processes and improved workflow. | ||
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- using MuJoCo for advanced simulations and engine design performance, mentioning issues with communicating these simulations to engineering and maintenance teams. | - using MuJoCo for advanced simulations and engine design performance, mentioning issues with communicating these simulations to engineering and maintenance teams. | ||
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- open source simulation tools, such as creating a comprehensive simulation platform, exploring engine dynamics, and the ease of customization due to its open-source nature. | - open source simulation tools, such as creating a comprehensive simulation platform, exploring engine dynamics, and the ease of customization due to its open-source nature. | ||
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- example use case of MuJoCo providing self-serve exploration for maintenance teams, refining designs, developing predictive maintenance strategies, and reducing development costs. | - example use case of MuJoCo providing self-serve exploration for maintenance teams, refining designs, developing predictive maintenance strategies, and reducing development costs. | ||
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- self-serve simulations work and their user-friendly design for maintenance personnel. | - self-serve simulations work and their user-friendly design for maintenance personnel. | ||
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- customized KUKA robot and a visual inspection system using a cobot for automated documentation of engine parts. | - customized KUKA robot and a visual inspection system using a cobot for automated documentation of engine parts. | ||
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- robotic polishing system | - robotic polishing system | ||
| − | Source transcript at: | + | '''Source transcript at:''' |
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| + | === https://vrtnis.github.io/transcript-viewer/?jsonUrl=https://gist.githubusercontent.com/vrtnis/3a025a21cbe367368b01fe8b97d8d9d9/raw/1f2962a16f7b6439d36f8067c8f1657a72408682/pratt_1-1948273645.json === | ||
| − | + | [[File:Screenshot15-50-46.png|900px]] | |
Latest revision as of 22:53, 22 July 2024
Notes from user calls[edit]
- how robotics simulators have changed processes and improved workflow.
- using MuJoCo for advanced simulations and engine design performance, mentioning issues with communicating these simulations to engineering and maintenance teams.
- open source simulation tools, such as creating a comprehensive simulation platform, exploring engine dynamics, and the ease of customization due to its open-source nature.
- example use case of MuJoCo providing self-serve exploration for maintenance teams, refining designs, developing predictive maintenance strategies, and reducing development costs.
- self-serve simulations work and their user-friendly design for maintenance personnel.
- customized KUKA robot and a visual inspection system using a cobot for automated documentation of engine parts.
- robotic polishing system
Source transcript at:
https://vrtnis.github.io/transcript-viewer/?jsonUrl=https://gist.githubusercontent.com/vrtnis/3a025a21cbe367368b01fe8b97d8d9d9/raw/1f2962a16f7b6439d36f8067c8f1657a72408682/pratt_1-1948273645.json[edit]
