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The world has changed for manufacturers. Preparation for uncertainty is now the industry norm, and businesses face various challenges such as climate change effects, geopolitical tensions, supply chain vulnerabilities, and technology breakthroughs.
An MIT study indicates that the impact of such disruption is projected to increase by 15% to 25% in the next five years, making the manufacturing industry both dynamic and competitive.
With the rise of Artificial Intelligence-driven technologies and tools like the Internet of Things (IoT), edge computing, and Machine Learning (ML), manufacturers have access to more data than ever before, enabling them to take more meaningful actions.
Research shows that the global AI in manufacturing market is poised to be valued at $20.8 billion by 2028, with the top contributing factor being AI. And while there’s no shortage of AI applications in smart manufacturing methods, below are some of the most exciting use cases:
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Let's get startedTop 5 most practical use cases of AI in manufacturing
The most practical use cases of AI in manufacturing include demand predictions, product design & development, supply chain optimizations, product quality control, and equipment predictive maintenance. Let's understand each of them with relevant examples.
1. Demand forecasting for strategic decisions
In the manufacturing sector, overproducing goods ties up capital in excess inventory. On the other hand, under-production leads to stockouts and lost sales. What if there was a way to optimize production schedules and manufacture only the right quantities at the right time?
Imagine being able to predict exactly what customers want, when they want it—without the risk of overproduction or underproduction—how would that change business operations?
Analyze vast amounts of historical data, including seasonal trends, past sales, and buying patterns, with AI-driven Machine Learning algorithms to predict future demand for products with a high degree of accuracy.
The technology also incorporates external factors, such as indicators of the digital economy, market trends, and social media sentiment. This meticulous approach enables forecasting models to account for broader influences that might increase product demand.
At the same time, AI systems can process real-time data inputs, such as sudden market fluctuations, supply chain disruptions, or unexpected events, equipping manufacturers to adjust their production plans to better respond to changing demand patterns.
Demand forecasting results in better resource management, improved environmental sustainability, and more efficient operations.
2. Product design and development for valuable insights
The look and feel of a product are vital aspects of manufacturing operations. Specific parameters such as material type and weight, strength requirements, and code constraints must be considered.
With Generative AI, manufacturers can explore all possible configurations, often identifying innovative structures and designs that human counterparts might not consider. This process helps in optimizing product performance and machine usage.
Food for thought: What if there was a way to uncover design possibilities never even considered before?
Once the design is generated, AI-driven simulation tools can virtually test it under various conditions, such as stress, temperature, and vibration, to understand how a product will perform in the real world.
This proactive approach eliminates the need to create physical prototypes while pushing the boundaries of traditional design thinking and reducing costs with material usage optimization. It also enables modern manufacturers to bring new products to market much faster.
3. AI-driven supply chain optimization for revenue management
A manufacturer’s supply chain is a critical business process that influences the success or failure of customer experience. A high-performing supply chain management enables operational efficiency and responsiveness. Therefore, choosing the right supplier is crucial.
Thankfully, with AI, manufacturers can streamline the selection and evaluation of suppliers by analyzing various factors, such as cost efficiency, reliability, lead times, and past performance. They can find one that enhances supply chain sustainability goals without compromising profitability.
In addition, manufacturers can forecast demand for raw materials and components with AI-driven advanced analytics to maintain optimal inventory levels. This leads to faster production cycles, better inventory management, and more reliable delivery schedules.
Lastly, when traffic patterns, fuel cost savings, and delivery deadlines are studied closely with AI for route optimization so that products can reach retailers (and customers) on time, resulting in higher customer satisfaction levels.
4. Quality control and defect detection
So, let’s say manufacturers have used AI to make accurate demand forecasts. They’ve also designed and developed the product most efficiently and even streamlined their supply chains. But is that enough for a manufacturer to thrive? Not quite.
Product quality control and defect detection are just as important. Even if products are delivered on time, poor quality can still ruin the customer experience, decreasing customer engagement and potentially halting a manufacturer’s profits.
The good news is that AI-powered computer vision systems can inspect products on the production line at high speed, identifying defects, such as flaws in size, shape, color, or surface finish, with accuracy that far hoodwink human oversight.
These systems leverage deep learning models trained on large datasets of defective and non-defective items. AI can also be integrated with IoT sensors to continuously monitor production processes and quality control checks.
For example, sensors placed on manufacturing equipment can detect deviations in temperature, pressure, or other critical parameters in real-time, catching quality issues before they lead to significant product defects and increased carbon footprints.
End result? Improved product quality, reduced wastage, and happier customers.
5. Predictive maintenance for equipment and factory automation
Mining, metals, and other heavy industrial companies lose 23 hours per month to machine failures, costing $4,312,500. This figure raises a good point—what kind of savings manufacturers could make by applying techniques, such as predictive maintenance, to reduce unplanned downtime.
Sensors embedded in equipment, for example, can collect data to monitor various parameters, such as temperature, vibration, pressure, and noise levels. ML models analyze this data to detect patterns or anomalies indicating impending equipment failures.
AI can also use digital twins to simulate different maintenance scenarios, minimizing maintenance costs without interrupting actual operations.
A digital twin is a virtual replica of physical equipment that mirrors its real-time monitoring conditions. This digital transformation helps identify the most effective maintenance actions, predict the impact of various interventions, and plan for long-term equipment performance.
Plus, when equipment isn’t maintained promptly, businesses expose their workers to safety hazards, which can cause serious injuries, legal risks, and potential shutdowns, ultimately harming the workforce and the manufacturer’s reputation.
Is the downtime cost or the risk to human worker safety worth it? With AI, there’s no need. Innovative AI-powered maintenance systems help maintenance teams counter these dangers.
For example, GE’s Predix platform, Siemens’ MindSphere, and IBM Maximo help businesses delay the need for expensive equipment replacements and ensure they operate at peak efficiency.
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The critical thing is manufacturers must enable an AI-driven culture. To meet this goal, they must build trust in data and AI-driven algorithms by educating the workforce about AI capabilities and values. They must also embrace its risks and limitations.
For instance, data security is a significant concern, as the vast amounts of data generated and analyzed must be protected from breaches. Additionally, workforce training ensures everyone is equipped to work alongside AI-driven systems.
A phased implementation strategy, starting with pilot projects to gradually scale AI adoption, should also be considered.
What if we told you we had the know-how to create a compelling vision of effective human-machine collaboration in manufacturing processes?
As a professional and powerful AI app development partner, Intuz can help your manufacturing business drive change with the right AI methods and technologies.
Enhance your manufacturing efficiency with our AI-powered solutions for quality control, predictive maintenance, and supply chain optimization. Achieve operational excellence with AI-driven tools. Make data-driven decisions to drive the business forward.
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