Unlocking Value from Artificial Intelligence in Manufacturing World Economic Forum

10 AI use cases in manufacturing

ai in manufacturing industry

At the same time, unsupervised machine learning concerns itself with identifying patterns from data sets whose outcome isn’t yet known. For instance, engineers can use ML technology to spot unknown anomalies and faulty components in production lines. In the context of AI in manufacturing, the sub-technologies such as machine learning & deep learning, natural language processing, and machine vision play a crucial role in the various processes. AI in business extends its transformative potential to the manufacturing sector, optimizing processes, driving efficiency, and fostering innovation. Back then, artificial intelligence was empowering robotics and automation to tackle mundane, repetitive tasks such as part-handling and sorting.

That’s why predictive maintenance became a vital solution that will help save an enormous amount of money. Complex AI algorithms like neural networks and Machine Learning are generating trustworthy predictions regarding the status of assets and machinery. If something needs to be repaired or replaced, technicians will know beforehand and even will know which methods to use to fix the issue.

Use Cases of AI in Manufacturing

However, manufacturers are still unsure how to incorporate AI into their everyday practices. To guide you in capitalizing on AI capabilities, we’ve provided this video to show you how AI can help you on the shop floor and listed some of the benefits of AI for manufacturing. Imagine a world where machines and humans harmoniously team up on the manufacturing floor. Think of AI algorithms scrutinizing mountains of data to help manufacturers prevent breakdowns before they occur.

This is one of the most important use cases of artificial intelligence in the manufacturing sector. Sometimes detecting the internal malfunctions of equipment becomes difficult to even though experts are not able to monitor the performance of the products and find out their shortcomings. But this task can be easily completed with the help of Artificial Intelligence (AI) and Machine Learning (ML) as AI tools and applications can effectively detect minor bugs in machinery. Therefore, it is clear that artificial intelligence ensures quality checks and control in manufacturing. Smart AI solutions track machine productivity and performance, enhance productivity, detect faults, and eliminate costs of maintenance as well. Metals & heavy machinery comprise the production of different machinery used in construction, infrastructure development, and manufacturing applications.

Out-of-the-Box Applications of AI in Manufacturing

With the addition of artificial intelligence, an industrial robot can monitor its own accuracy and performance, and train itself to get better. Some manufacturing robots are equipped with machine vision that helps the robot achieve precise mobility in complex and random environments. Industrial robots, also referred to as manufacturing robots, automate repetitive tasks, prevent or reduce human error to a negligible rate, and shift human workers’ focus to more productive areas of the operation. Applications include assembly, welding, painting, product inspection, picking and placing, die casting, drilling, glass making, and grinding.

ai in manufacturing industry

Computer vision is used by multiple manufacturers to help improve their product assembly process. For example, using a computer vision inspection system to build 3D modelling designs, manufacturers are now able to streamline specific tasks that human workers have traditionally struggled with. Indeed, computer vision is playing a key role in the overall quality assurance processes in the manufacturing sector. Industries that are benefiting from its role in production process automation include electronics, automotive, general-purpose manufacturing and many, many more.

Knowledge limits prevent the System from giving an unjust and fallacious result. For example, it may be possible that the System will get a different feature or scenario rather than giving false results about which System should tell that this data is wrong. Handling this System can be designed as if the System encounters a different situation and can generate results “out of the topic case.” White-box models generate transparency and empower the developer and Customer to execute complex projects with confidence and certainty. As the curtain falls on our exploration of AI in manufacturing, it’s clear that we stand on the cusp of a profound transformation.


AI helps optimize supply chain management by analyzing data from various sources, including sales, inventory levels, and market demand. AI algorithms enable manufacturers to optimize production planning, inventory control, and distribution strategies, resulting in reduced costs, improved customer satisfaction, and efficient resource utilization. AI technologies provide manufacturers with valuable tools to enhance predictive maintenance and machinery inspection processes. Furthermore, many manufacturers are doubtful about the capabilities of AI-based solutions in terms of the accuracy of the maintenance and inspection processes. Given these circumstances, it can be somewhat challenging to persuade manufacturers and help them grasp the cost-effectiveness, effectiveness, and safety of AI-based solutions. However, manufacturers are now increasingly accepting the potential benefits of AI-based solutions and the spectrum of applications they serve.

Standard Processes for Data Science in Production

Artificial intelligence (AI)-driven automation reduces cycle times, eliminates human error, and optimizes production procedures because it can adapt, learn, and make choices in real-time. Computer vision and machine learning allow artificial intelligence (AI) systems to carry out sophisticated tasks that were previously only performed by human operators. Speaking about manufacturing, we should consider the high cost of suspending production especially dealing with big enterprises. With predictive maintenance, there is no need to suspend your manufacturing processes as it helps detect even those minor changes in equipment’s state that are not detectable with a typical inspection. AI-based diagnostic tools enable manufacturers to determine circumstances that may cause breakage and intervene before it happens.

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By using machine vision, these robots can move precisely in chaotic settings. AI-based predictive maintenance is a technology that helps manufacturers keep their equipment running smoothly by using sensors and machine logs to predict when equipment might break down. AI systems can predict equipment failure signs well before they happen using data such as electrical current, vibration, and sound generated by manufacturing equipment. It helps to improve the efficiency of the maintenance process and reduce overall maintenance costs and time.

Some of the primary benefits of AI in manufacturing include more effective maintenance, improved decision-making and, ultimately, more uptime. With equipment running at full capacity more often, production throughput will naturally increase, yielding higher output and better quality. Fanuc, a Japanese automation corporation, manages its operations around the clock with robotic staff. Robotic employees can produce critical parts for CNCs or motors, run all factory equipment continuously, and allow continuous operation monitoring. This robot is an excellent example of artificial intelligence in manufacturing. Internet-of-Things devices (IoT), are high-tech gadgets that use sensors to produce huge amounts of operating data in real-time.

For instance, BMW employs AI-driven automated guided vehicles (AGVs) in their manufacturing warehouses to streamline intralogistics operations. These AGVs follow predetermined paths, automating the transportation of supplies and finished products, thereby enhancing inventory management and visibility for the company. AI plays an important role in additive manufacturing by optimizing the way materials are dispensed and applied, as well as optimizing the design of complex products (see Generative Design below). It can also be used to spot and correct errors made by 3D printing technology in real-time. Factories without any human labor are called dark factories since light may not be necessary for robots to function.

AI is expected to transform manufacturing in the coming ten years through advanced automation, predictive maintenance, and improved supply chains. Robotics and machine learning will improve production, quality assurance, and safety, resulting in greater effectiveness and lower costs in the metal manufacturing sector. The key factor for smart factories and Industry 4.0 is the data that arise from the use of intelligent and networked products, the interaction between humans and machines and machines with one another. At Bosch we have about 240 plants around the world in which numerous networked production systems are in use. These generate an enormous amount of data that require the use of efficient data processing methods.

  • These are only a handful of the changes AI will bring to discrete manufacturers in the near future.
  • If workers are able to use devices to communicate and report the issues and questions they have to chatbots, artificial intelligence can help them file proficient reports more quickly in an easy to interpret format.
  • The remarkable thing about these AI solutions is that they learn by themselves.
  • Logistics are the lifeblood of supply chains, and AI’s role in route optimization is pivotal.
  • With an increasing emphasis on sustainable production on worldwide markets, waste reduction is becoming one of the manufacturers’ priorities – and artificial intelligence is irreplaceable in this field.
  • Proper product stocking may assist organizations in boosting revenue and retention of clients.

Implementing AI in the metals & heavy machinery industry can help manufacturers analyze machine conditions in advance to avoid unplanned downtime and wastage. Also, AI solutions exhibit predictive maintenance capabilities that help the industry players save time and cost. Field services are used to collect and sense different data such as heat, sound, light, odor, and eddy current. The collected data is sent to operators to analyze and take action according to the situation in the plant. Manufacturers use AI to analyze data from sensors and machinery on the factory floor in order to understand how and when failures and breakdowns are likely to occur. This means that they can ensure that resources and spare parts necessary for repair will be on hand to ensure a quick fix.

ai in manufacturing industry

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