When I started my career, we transitioned from manual tasks to computer-based work, which quickly evolved into digitalization and manufacturing automation. Imagine witnessing the shift from the radio era to television, the evolution of mobile phones and portable computers, having video calls on FaceTime or WhatsApp, and being able to travel almost anywhere. The manufacturing industry is undergoing a similar transformation driven by the adoption of Artificial Intelligence (AI) and robotics. According to the U.S. Bureau of Labor Statistics, this shift will significantly impact job outlooks in the industry. In this article, we will explore quality trends in manufacturing and provide guidance on how to prepare for the changes ahead.
Quality Trends in Manufacturing
The integration of AI and robotics is driving several positive quality trends:
Increased Efficiency: AI-powered machines optimize production processes, reducing waste and improving efficiency.
Improved Accuracy: Robotics perform tasks with greater precision, reducing defects and enhancing product quality.
Enhanced Safety: AI-powered sensors detect potential hazards, reducing the risk of accidents and injuries.
Predictive Maintenance: AI algorithms predict equipment failures before they occur, minimizing downtime and maintenance costs.
Quality Control: AI systems detect defects in real-time, ensuring higher product quality.
Supply Chain Optimization: AI optimizes supply chain operations by predicting demand and managing inventory efficiently.
Automation: AI-driven robots and cobots perform repetitive tasks, allowing human workers to focus on complex tasks.
Data-Driven Decisions: AI analyzes vast amounts of data to provide insights and improve decision-making.
Job Outlook and the Impact of AI
The U.S. Bureau of Labor Statistics projects significant changes in job outlook due to AI and robotics in manufacturing. Some jobs may become obsolete, while new roles will emerge. Here’s how you can prepare for these changes:
- Develop Skills in AI and Robotics: Invest in training programs focused on AI, robotics, and data analysis. Familiarize yourself with relevant technologies like machine learning, computer vision, and predictive analytics. Online platforms like Coursera, edX, and LinkedIn Learning offer courses such as “AI For Everyone.”
- Focus on High-Touch Skills: Develop skills requiring human interaction, like communication, problem-solving, and critical thinking. These will become more valuable as AI and robotics take over routine tasks. Look for roles involving AI and robotics, such as quality assurance engineer for automated systems or AI integration specialist.
- Stay Adaptable and Agile: Be prepared to adapt to new technologies and processes. Follow industry publications, attend webinars, and participate in conferences to stay updated on AI developments. Embrace change and continuously learn.
- Develop Data Analysis Skills: Learn to collect, analyze, and interpret data to optimize production and improve product quality. Work closely with IT and data science teams to integrate AI systems into quality control processes. Start with pilot projects and monitor AI system performance.
- Consider Upskilling or Reskilling: If your role is at risk, consider upskilling or reskilling for new opportunities. Seek guidance from experienced professionals and join professional networks like ASQ to share knowledge and learn from peers.
Industry Examples
AI and robotics also enhance end-user quality by providing personalized products, increasing transparency, and improving customer experience. Here are some examples:
Automotive: Tesla uses AI-powered robots to improve manufacturing efficiency and reduce defects in their electric vehicles.
Aerospace: Boeing uses AI sensors to detect defects in materials and improve product quality in aircraft manufacturing.
Healthcare: Johnson & Johnson uses AI-powered robots to improve patient care and reduce medical errors.
Conclusion
The manufacturing industry is transforming due to AI and robotics. To thrive in this new landscape, develop skills in AI, robotics, high-touch skills, and data analysis. By staying adaptable and leveraging AI’s benefits, manufacturers can improve quality, meet changing customer expectations, and remain competitive.
By understanding these insights and taking proactive steps, you'll be better positioned for success in the era of AI in manufacturing.
References:
- AI has profound implications for the manufacturing industry | World Economic Forum
- AI in Manufacturing: Use Cases and Examples
- Top 10 Trends in Quality Management (2024) | Startups Insights
- The Future of Quality Management: Trends to Watch in 2024 | Quality Gurus
- https://www.factoredquality.com/resource/8-best-practices-to-increase-quality-control-in-manufacturing#
- Free Process, Project & Workflow Templates
- US Bureau of Labor Statistics. (2022).
- Employment Projections: 2020-2030. McKinsey & Company. (2020). The Future of Work in Manufacturing.
- World Economic Forum. (2020). The Future of Jobs.
- AI For Everyone | Coursera
- Growth trends for selected occupations considered at risk from www.bls.gov https://www.bls.gov/opub/mlr/2022/article/growth-trends-for-selected-occupations-considered-at-risk-from-automation.htm
- 2024 ASQE IoE Focus Study: Quality Impacts
