Robot evolution: adaptive collaboration, "+" out of the new era of future intelligence

An adaptive robot is a robot with autonomous learning, autonomous adaptation, and autonomous decision-making capabilities. It has strong environmental awareness and autonomous decision-making ability, and can independently adjust its behavior strategy and implementation plan according to environmental changes and task requirements. The value of adaptive robots is mainly reflected in the following aspects:

1. Improve production efficiency: Adaptive robots can independently adjust production rhythm and execution strategies according to changes in the production process, thereby improving production efficiency and product quality.

2. Reduce production costs: adaptive robots can realize autonomous maintenance and fault diagnosis, reduce manual intervention, and reduce production costs.

3. Improve safety: adaptive robots can perceive environmental information in real time, avoid collisions with people, and improve the safety of the production process.

4. Expand the application field: the adaptive robot has strong environmental adaptability, can perform tasks in various complex environments, and expands the application field of the robot.

5. Promote scientific and technological innovation: The research and application of adaptive robots have promoted technological innovation in related fields and promoted the development of robot technology.

An adaptive robot is a robot that can learn and adapt to changes in the environment autonomously. They are able to adapt to different tasks and environments by perceiving their environment and learning new skills. The value of adaptive robots lies in their ability to increase productivity, reduce labor costs, increase productivity, and perform tasks in place of humans in dangerous or complex environments. In addition, adaptive robots can also provide convenience in daily life, such as adaptive robots in smart homes that can automate household tasks.

Collaborative robot is a robot that works collaboratively with human workers, and its main purpose is to interact and cooperate with humans in a common workspace, improve production efficiency and quality, and reduce human work intensity and improve the working environment.

According to the perspective of process flow, collaborative robots can achieve: assembly, handling, picking screw tightening, loading and unloading, spraying and gluing, quality inspection and measurement, packaging palletizing, grinding and polishing, etc. Segmented by industry, the specific application fields are as follows: 1. Auto 2. Electrical and Electronic Electronics 3. Metalworking 4. Plasticprocessing 5. Foodmedicine 6. Chemicalpharmaceutical 7. Woodstone.

Cobots have a wide range of applications in many fields, and here are a few common use cases:

1. Work on the production line: In the manufacturing industry, the collaborative robots on the production line can complete various assembly, inspection, packaging and other work tasks with human staff to achieve a high degree of automation and intelligence.

2. Logistics warehousing management: collaborative robots can be used for warehouse management to realize rapid sorting, handling and packaging of goods, and improve logistics efficiency and accuracy.

3. Medical care services: Collaborative robots can be used in the field of medical care, such as surgical assistance, patient care, drug distribution, etc., to improve the quality and efficiency of medical care services.

4. Public services: collaborative robots can also be used in public service fields, such as public transportation, tourist attractions, shopping malls, etc., to provide a variety of convenient services and improve work efficiency and service quality.

5. Family services: collaborative robots can also be used in the field of family services, such as domestic assistants, taking care of the elderly and children, family safety monitoring, etc., to improve the convenience and safety of family life.

In short, the application scenarios of collaborative robots are very wide and can be used in various industries and fields to improve production efficiency and service quality, reduce human work intensity and improve the working environment.

"Robot +" refers to the deep integration of intelligent innovation achievements of robots in various economic and social fields, and providing different intelligent services through scenario-based customization, so as to meet the differentiated needs of human beings, improve efficiency and create value.

The four major families of industrial robots refer to ABB, KUKA (KUKA), FANUC (FANUC), YASKAWA (Yaskawa), these four world-renowned industrial robot manufacturers, these companies have their own strengths in different technical fields, such as the core of FANUC is CNC system, ABB's core field is control system, Yaskawa Electric's core area is servo system and motion controller, and the core of KUKA is control system and mechanical body. There are many accounts for the four small families, the more of which are Panasonic, Kawasaki, Nachi, and Stäubli. The four small families of industrial robots refer to Kawasaki, Epson, Omron and Mitsubishi, which are four companies with a certain market share and influence in the field of industrial robots.

"Robot +" represents a new economic form and is a period of strategic opportunity for artificial intelligence robots to popularize in various scenarios of human work and life. For example, in manufacturing, robots can achieve intelligent production and quality control; In the service industry, robots can provide more efficient and convenient services, such as restaurant robots, hotel robots, etc.; In the medical field, robots can help doctors perform surgery, rehabilitation treatment, etc., improving medical efficiency and precision.

"Robotics+" refers to the combination of robotics with other fields to form various innovative applications. This combination can be technical or industrial. In terms of technology, robot++ can refer to the combination of robot technology with big data, cloud computing, artificial intelligence and other technologies to improve the intelligence level and application ability of robots. In the industry, robot++ can refer to the application of robot technology to various industries, such as manufacturing, medical care, education, agriculture, etc., to improve the automation and intelligence level of the industry.

"How +" mainly refers to the realization of robot + through technological innovation and industrial integration. This requires the joint efforts of governments, enterprises, scientific research institutions and other parties to formulate corresponding policies, invest sufficient resources, carry out technology research and development and industrial cooperation, and promote the development of robot ++.