The International Federation of Robotics (IFR) highlights the five key trends driving development in 2025.
Intelligent, humanoid, efficiently innovative, and supportive in the labor market - these are robots in 2025 according to IFR.
(Image: International Federation of Robotics)
The market value of installed industrial robots has reached a historic high of 16.5 billion USD worldwide. Future demand will be driven by technological innovations, new market developments, and the exploration of new business areas. The International Federation of Robotics has identified five important trends that will shape robotics and automation in 2025:
The trend towards increased use of artificial intelligence continues: In robotics, various AI technologies help perform a wide range of tasks more efficiently:
With analytical AI, large amounts of data collected by robot sensors can be processed and analyzed. This helps to respond to unpredictable situations or changing conditions in public spaces or during the production of "high-mix-low-volume tasks". Robots equipped with image processing systems analyze their work steps to recognize patterns and optimize workflows. The goal is, for example, to increase speed and precision.
Robot and chip manufacturers are currently investing in the development of special hardware and software that simulate real-world environments. This so-called physical AI enables robots to train themselves in such virtual environments. Experiences gained in this way replace traditional programming. Such generative AI projects aim to create a "ChatGPT moment" for physical AI. AI-powered simulation technology for robots is likely to become established both in typical industrial environments and in service robotics applications.
2. Humanoid robots
Robots in human form attract great media attention. The vision: robots will become general-purpose tools that can independently load a dishwasher or work on the assembly line. Robotics startups are working on these humanoid all-rounders.
Industrial manufacturers, on the other hand, are concentrating on humanoids that initially accomplish individual single tasks. Most of these pilot projects are running in the automotive industry. This sector has always played a pioneering role in the development of robot applications. This applies to both industrial robotics and logistics and warehousing. From today's perspective, however, it remains to be seen whether humanoid robots will represent an economically viable and scalable business model for broad industrial application, particularly in comparison to already existing solutions.
Nevertheless, there are numerous applications that could benefit from the humanoid form and offer market potential for robotics, for example in logistics and warehousing.
3. Sustainability and energy efficiency
Meeting the United Nations (UN) sustainable development goals and corresponding regulations worldwide will become an important prerequisite for qualifying as a supplier. Robots play a key role for manufacturers in achieving these goals.
Fundamentally, robotics with its precision work reduces material waste and improves the input-to-output ratio in manufacturing processes. These automated systems also ensure consistent quality, which is essential for products with long lifespans and minimal maintenance. In the production of environmentally friendly energy technologies such as solar cells, batteries for electric cars, or recycling facilities, robots are crucial for cost-efficient production. They enable manufacturers to quickly scale their production to meet growing customer demand without compromising on quality or sustainability.
In addition, robot technology is being improved to make machines more energy-efficient: for example, the lightweight design of movable robot components reduces their energy consumption, as do new standby modes that bring the hardware into an energy-saving parking position. In gripper technology, there are advances in the application of bionic solutions to achieve high gripping force with very low energy consumption.
4. New business areas and customer industries
In the manufacturing industry, there is still a lot of potential for automation with robots. Most companies in the manufacturing sector are small and medium-sized enterprises (SMEs). Currently, high initial investments and total operating costs pose a hurdle for SMEs to use industrial robots. Business models like Robot-as-a-Service (RaaS) aim to make it easier for companies to benefit from robotic automation without having to invest a fixed capital sum. RaaS providers specializing in specific industries or applications can quickly deliver sophisticated solutions. Additionally, low-cost robotics offers solutions for potential customers for whom a high-performance robot would be oversized. Many applications have low requirements for precision, load capacity, and lifespan. Low-cost robotics addresses this new "good enough" segment.
Date: 08.12.2025
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Outside of the manufacturing sector, construction, laboratory automation, and warehousing are interesting new customer segments. Across industries, demand is also driven by the expansion of domestic production capacities in strategically important sectors, whose importance has come into political focus due to recent crises. Automation enables manufacturers to relocate production capacities closer to the customer without sacrificing cost efficiency.
5. Robots against the labor shortage
According to the International Labour Organization (ILO), the manufacturing industry worldwide continues to suffer from a labor shortage. One of the main reasons for this is demographic change, which strains labor markets in leading economies such as the United States, Japan, China, the Republic of Korea, and Germany. Although the specific effects vary from country to country, they are a cause for concern throughout the supply chain.
The use of robots significantly reduces the impact of labor shortages in manufacturing. By automating dangerous, dirty, or repetitive tasks, human workers can focus on more interesting and higher-value tasks. Robots take on jobs such as tedious visual quality inspections, hazardous painting tasks, or heavy lifting. Technological innovations like ease of use, collaborative robots, or so-called mobile manipulators help fill gaps in the work process whenever and wherever they are needed.
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