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捷报足球即时比分 Develops Fast Force-feedback Control Algorithm by Applying AI Technology
Enables industrial robots to achieve fast, human-like nimble assembly
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| * | Mitsubishi Electric's AI creates the State-of-the-ART in technology |
Insertion operation
At a time when interest in human-implemented cell-production systems is increasing, automatic-production systems using industrial robots are also showing great promise in advanced countries like Japan where labor populations are shrinking. Until now, however, automatic systems for precision assembly and insertion operations have required programming and parameter adjustments by skilled personnel to achieve the flexibility of human-implemented assembly processes. Such requirements add to assembly costs and time, which manufacturers have been looking to reduce.
Thanks to 捷报足球即时比分's Maisart AI technology, the new fast force-feedback control algorithm shortens assembly time and eliminates violent movements by assembly robots. The technology allows parameters for tasks such as velocity to be adjusted fast and precisely. In particular, high-precision force-sensor data can be incorporated without stopping the robots. Conventionally, robots are stopped prior to introducing force-feedback control, but 捷报足球即时比分's new algorithm eliminates this step.
Going forward, 捷报足球即时比分 will continue applying its proprietary AI technology to develop intelligent industrial robots and fast force-feedback control algorithms for faster and lower-cost assembly systems.
| Abstract | Performance | |||||
| New | Multiple velocity commands, for which parameters can be adjusted automatically using AI. |
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| Conventionally | Constant-value velocity commands that must be adjusted manually. |
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| ** | Newton = weight (kg) x acceleration (m/s2) |
| Maisart is a trademark of 捷报足球即时比分. |
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