Views: 2 Author: Site Editor Publish Time: 2022-11-11 Origin: Site
Ten key words for robot technology development in 2023
A research institute has conducted an in-depth study of the insights of 8,949 startups and large companies around the world on the development of robotics, and made predictions on the development trend of robotics in 2023. Industry experts point out that people need to understand and follow trends in robotics that have the potential to transform businesses.
1. Autonomous Mobile Robot (AMR)
In manufacturing, workers often work in hazardous environments such as toxic chemicals, confined Spaces or heavy machinery. Autonomous mobile robots use sensors, artificial intelligence and computer vision technology to see and understand their surroundings and navigate autonomously. For example, autonomous mobile robots (AMR) in warehouses use scanners to monitor inventory levels and automate material handling, and prevent inventory depletion. To speed things up, autonomous mobile robots can also transport components and parts over long distances within the factory.
2. Intelligent robots
Thanks to the combination of artificial intelligence and robotics, intelligent robots can use real-time information to optimize their work. Large data sets and real-time data are also used to train robots to be more accurate and effective. As a result, they can sense their surroundings better, distinguish objects faster, and navigate independently.
With advanced sensors and algorithms compared to traditional industrial robots, co-robots work alongside workers and must ensure the safety of those around them. In order to automate production activities such as welding parts and drilling, they are operated primarily with the end of the Manipulator Tool (EOAT). The robots can help employees move dangerous materials, such as metal, polymers and other materials.
Robot development and maintenance is a costly and time-consuming process. Due to these constraints, many businesses (especially small businesses) are unable to integrate robotics into their operations and need to use robot-as-a-service.
5. Robot network security
Due to the increasing demand for integration and connectivity in the Internet of Things, robots have become a major target of cyber-attacks. In addition, due to their widespread use in the defense, manufacturing, healthcare and aerospace industries, robots must be protected from illegal access and intrusion. Adopting robotic network security solutions protects endpoints and connection stacks to prevent data breaches and asset outages.
Thanks to developments in edge computing, high-performance computing and networking technologies, start-ups are now able to build drones with a greater range of action and capability. They use drones to deliver cargo, collect aviation data, inspect infrastructure, and a wide variety of businesses. Drones used in agriculture can spray pesticides and plant seeds in specific locations, while monitoring the growth of crops and tracking the movement of livestock. The adaptability of drones has accelerated integration in the last mile of transport, such as food and medical supplies.
7. Internet of Things
If robotics focuses on manufacturing, interaction and autonomous behavior, the Internet of Things provides perception, monitoring and tracking capabilities. The robot's performance is driven by an edge computing platform, which enables a feedback-driven workflow by collecting and sending data. Thanks to recent advances in the Internet of Things at the edge, robot makers are now able to move computing closer to the data source. This allows the robot to use almost real-time data and maximize productivity.
8. Humanoid robots
In the post-pandemic era, humanoid robots are increasingly being used for jobs such as contactless cleaning and patient care. In addition, they are used in power plant inspections, maintenance and post-disaster recovery operations to save workers from dangerous environments. In addition to greeting guests at the reception desk, humanoid robots will also look after the sick and elderly. Like other robots, they automate their jobs to cut costs and boost production.
9. Autonomous guided vehicles
In warehouses, distribution centers and production facilities, materials are usually transported by automated guided vehicles. Their movement is controlled by software and a sensor-based navigation system that follows a predetermined path.
10. Auxiliary robots
More and more people will benefit from the independence and higher quality of life provided by assistive robots. Using sensors and intelligent algorithms to sense, process and communicate with humans, assistive robots allow people to live independently and safely in their own homes.