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C- Nonlinear Control Systems: Nonlinear control systems deal with nonlinear models of robots where the interaction of robots with the environment is more complex. D- Machine learning control techniques: Machine learning control techniques are used to improve the performance of robots based on their interactions with the environment. E- Artificial Intelligence control techniques or AI Control: The use of artificial intelligence control techniques aims to enable.
Medicine This includes: Surgical robots that help surgeons perform delicate Phone Number Data and non-invasive procedures accurately and non-invasively. Rehabilitation robots designed to assist individuals with physical therapy and regaining movement after injuries or surgeries. 2- Industry This includes: Assembly and manufacturing robots that are used in assembly lines to carry out assembly tasks with precision and high speed. Welding and metal cutting robots that perform welding and cutting work in industries such as the automotive and metallurgical industries. 3- Service robots This includes Robots that are used in tasks such as cleaning, room service, and reception service in hotels and resorts.
Delivery robots that are used to deliver packages and goods in various environments. 4- Manufacturing and construction robots This includes: Industrial robots that are used in manufacturing to handle tasks such as assembly, welding, and moving materials. Construction robots that help with tasks such as building walls, 3D printing structures, and inspecting construction sites. 5- Exploration and search robots This includes: A) Space exploration robots, such as roaming robots and spacecraft that explore planets and celestial bodies, collect data, and conduct experiments in difficult environments that do not allow the presence of humans. b) Seabed exploration robots such as remote control vehicles (ROVs) and autonomous vehicles (AUVs).
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發表於 2024-2-29 14:53:30