Manufacturing continues to stand as one of the final frontiers to digital transformation. We are now a decade into Industry 4.0, and all of us can agree that it’s been an exhilarating ten years.

Based on extensive theoretical explorations and engineering practices, a general framework for HPM is proposed. As illustrated in the figure, this framework consists of four main parts: HPM objectives ...

Mechanical and aerospace engineers have created a more efficient way to optimize manufacturing systems, improving speed and quality while reducing waste. Researchers at the University of Virginia have ...

The benefits of artificial intelligence for manufacturing include enhanced productivity, reduced operational costs, and better optimization. According to a recent McKinsey Global Report, AI has ...

At its simplest, manufacturing quality involves conforming to specifications and leveraging design quality to create the highest possible standard. With production workers more reliant on mobile ...

Given the supply chain agonies carmakers are experiencing as a result of the global pandemic, any increase in factory efficiencies will represent a welcome advancement, and artificial intelligence is ...

A case study in aerospace manufacturing provides an overview of how physics-informed digital twin systems transform robotics processes—from adaptive process planning and real-time process monitoring ...

Robotic systems are transforming industries worldwide, from manufacturing plants to healthcare facilities. However, the journey from concept to deployment is often fraught with design and ...

Henry Ford gets the credit for creating the first moving assembly line and revolutionizing the process of making cars, as well as manufacturing in general. And rightly so, but what Henry Ford also did ...

AG42S regulates temperature and airflow in settings where heat and ventilation directly impact daily operations.