In recent years, the robotics industry has developed rapidly, and robots have been widely used in various fields, especially in industrial environments. It's not hard to see its tremendous potential.
At the same time, it is crucial to understand that the rapid development of the robotics industry is inseparable from advanced scientific research and technical support.
Below, we will take a look at the cutting-edge technologies of the top ten robots for your reference.
Software robot – Flexible robotic technology
iCub children's robot developed by the Italian Institute of Technology
Biomyoelectric control technology uses human upper limb surface electromyographic signals to control robotic arms and has wide applications in remote control, medical rehabilitation and other fields.
Robots can have skin – Sensitive tactile technology
Haptic robot “Gentle Bot” picks up tomatoes
Sensitive tactile technology refers to the use of new tactile sensors based on electricity and fine particle tactile technology, which can make robots more sensitive to the shape, texture and hardness of objects. Ultimately, this technology allows robots to perform a range of complex tasks, such as medical and exploration.
“Active” communication – Intelligent conversational interaction technology
Sophia robot that once threatened to destroy humans
Robots developed with conversational intelligent interaction technology can understand user questions and provide accurate answers. Additionally, they can actively guide the conclusion of the conversation when information is missing.
Apple's next-generation conversational interaction technology aims to eliminate Siri's “question and answer” model and allow her to proactively initiate conversations.
Robots have psychological activities – And motion recognition technology
Pepper's emotional recognition developed by the Japanese company SBRH
Emotion recognition technology can effectively recognize human emotions and even psychological activities. As a result, robots can acquire human-like observation, understanding and response capabilities. These capabilities can be used in robot-assisted medical rehabilitation, criminal investigation and identification.
Recognizing and interpreting human facial expressions is a derivative technology that accompanies facial recognition.
Manipulating Machines with Ideas – Brain- c Computer Interface Technology
Writing with ideas with the help of focausedu
Brain-computer interface technology refers to the collection, identification and transformation of electrical activity and characteristic signals of the nervous system. Instructions issued by the human brain can be transmitted directly to the designated machine terminal. This technology can be used to aid in disability rehabilitation, disaster rescue, and entertainment experiences.
Robots Lead the Way – Autonomous Driving Technology
“Alfaba” intelligent driving bus system
The application of autonomous driving technology can provide humans with automated and intelligent cargo and transportation vehicles. Furthermore, this technology extends to road condition testing, military defense and security, and other fields.
Recreating Virtual Scenes – Virtual Reality Robot Technology
Clinical Case of mVR Virtual Reality Surgical Planning System for Spine
Virtual reality robot technology can allow the operator to remotely control the robot through virtual means. This technology has application value in areas such as maintenance inspection, entertainment experience, on-site rescue, military reconnaissance and more.
Interconnection between Robots – Robot Cloud service technology
Smart robots at the German Robot Show
Robot cloud service technology refers to the robot itself as an execution terminal that performs storage and calculation through the cloud. This technology instantly responds to demand, implements functions, and effectively implements data communication and knowledge sharing. It provides users with a new type of robotic service method that is infinitely scalable and can be used on demand.
