Rising prices of raw materials and electricity, inflation, economic uncertainty caused by the pandemic, as well as many other factors, have contributed to the deterioration of the market situation for many companies. For this reason, businesses are striving to invest in modern technologies that significantly facilitate order fulfillment, increase work efficiency, and improve the quality of produced goods. Learn how production robotization is expected to develop and which technologies will enhance it in the coming years.
Artificial Intelligence in the Development of Robotics
Artificial intelligence is gradually becoming an everyday reality. You encounter it, for example, when calling the hotlines of various institutions. It provides excellent support across different industries. AI contributes to the development of technology, robotics, and automation. Artificial intelligence in industry will also find its place. Robots will be equipped with advanced algorithms that allow them to adapt to changing working conditions and execute even more complex commands. AI in robotics combines advanced algorithms, machine learning, and modern solutions that enable robots to learn. This allows the use of technologically innovative devices not only in industry, transport, and manufacturing but also in other areas of life. AI in robotics offers not only great potential but also a broad perspective for the future. Robots will be able to recognize images and speech and collaborate with humans even more effectively.
Cobots – the Development of Collaborative Robots
Collaborative robots, or cobots, are designed to work safely and efficiently alongside humans in the same workspace. They are used in factories, industrial plants, and various technological processes that require high precision and repeatability in tasks. The devices are very simple in construction – they have an arm that performs work and a set of highly accurate sensors. For example, a welding cobot can detect danger through its sensors – in such a case, it will stop working and enter a sleep mode. This presents a significant opportunity, especially for small and medium-sized enterprises that need technical support but do not have the budget or requirements to invest in fully robotic workstations or production lines. The design of these machines allows for easy reprogramming or tool replacement. Cobots are also compact, versatile, and mobile, taking up little space, while still offering high precision and repeatability. A collaborative robot helps save time and reduces the need for employees to perform often dangerous tasks.
Modular Design of Industrial Machines
Modularization is the design of different parts of machines in a way that allows them to be easily and conveniently replaced or upgraded. Individual modules provide greater flexibility – components can be adapted to the current needs of the company or the specific order being executed. Modularization reduces maintenance and upgrade costs, as replacing a single component is cheaper than purchasing an entirely new device. This makes robotization more accessible to smaller enterprises. Such machine modernization is considered already at the project design stage, ensuring that the base device meets requirements and individual components can be ordered as needed.
Designing modular machines, robots, or using AI is not the whole picture. Industry specialists are increasingly testing AMR carts and autonomous transport vehicles, which find applications in logistics, warehousing, and production. Properly tailored software allows tasks to be carried out efficiently across various sectors. Automation of processes is also increasingly used in agriculture and construction. Robots are appearing in public spaces as well – in the food service industry, where they deliver meals to tables, or in shopping malls, where they serve as promotional robots. It’s worth keeping an eye on emerging trends in robotics!
