Access to global economies

Manufacturing increasingly operates at the global level. Manufacturing businesses compete in international markets, and their supply chains and competitors are often global. Research also performs within a global context.

There is considerable scope to increase the alignment between global research and global manufacturing, in order to capture benefit to the UK.

Related research areas

• Artificial Intelligence Technologies
• Bioenergy
• Biomaterials and Tissue Engineering
• Built Environment
• Carbon Capture and Storage
• Catalysis
• CMOS Device Technology
• Complex Fluids and Rheology
• Complexity Science
• Control engineering
• Displays
• Electrical Motors and Drives/Electromagnetics
• Energy Efficiency
• Energy Storage
• Engineering Approaches to manufacturing operations
• Engineering Design
• Fuel Cell Technology
• Graphene and Carbon Nanotechnology
• Graphics and Visualisation
• Human-Computer Interaction
• Hydrogen and Alternative Energy Vectors
• ICT Network and Distributed Systems
• Image and Vision Computing
• Information Systems
• Manufacturing Technologies
• Materials Engineering - Ceramics
• Materials Engineering - Composites
• Materials Engineering - Metals and Alloys
• Mathematical Aspects of Operational Research
• Microelectronics Design
• Microsystems
• Mobile Computing
• Non CMOS Device Technologies
• Nuclear Fission
• Optical Devices and Subsystems
• Optoelectronic Devices and Circuits
• Particle Technology
• Performance and Inspection of Mechanical Structures and Systems
• Polymer Materials
• Process Systems Components and Integration
• Resource Efficiency
• RF and Microwave Devices
• Robotics
• Sensors and Instrumentation
• Software Engineering
• Solar Technology
• Statistics and Applied Probabilities
• Structural Engineering
• Surface Science
• Synthetic Biology
• Synthetic Co-ordination Chemistry
• Synthetic Supramolecular Chemistry
• Vision, hearing and other senses