"This project will investigate and test a new production method to fabricate fine features of advanced bearing slideway and spindle components. The developed production technology will enable the collaborating partners to produce leading performance precision motion slideways and spindles. These slideways and spindles will be high value and performance enhancing elements of the Lead Partners machine tool product range. The new systems will replace those presently imported by the Lead partner from the US and in themselves can represent future UK products. In the longer term, the developed production technology could represent the technology basis for a new range of micro-machine tool products. The partners will explore the broader commercial opportunities of the created process technology."

AUTOMAN will develop and demonstrate advanced manufacturing processes and novel systems deploying intelligent automation technologies - digitally re-configurable tooling, robotic manipulators integrated with computer vision and artificial intelligence simulation software. The new systems will be for producing high-quality customised 3D functional and complex structural parts of lightweight vehicle body panels, high-performance building cladding facades and large integral components. Through the use of intelligent robotic machinery, the proposed automated manufacturing approach will enable rapid fabrication and flexible processing of large compound or freeform customised components in new advanced metallic alloys and hybrid reinforced composites for cross-sector applications - in short, Lean, Agile and Adaptive manufacturing. Industrial sectors benefitting from this work will include the automotive, aerospace, railways, marine, energy, construction, materials processing and tooling industries.

AUTOMAN will develop and demonstrate advanced manufacturing processes and novel systems deploying intelligent automation technologies - digitally re-configurable tooling, robotic manipulators integrated with computer vision and artificial intelligence simulation software. The new systems will be for producing high-quality customised 3D functional and complex structural parts of lightweight vehicle body panels, high-performance building cladding facades and large integral components. Through the use of intelligent robotic machinery, the proposed automated manufacturing approach will enable rapid fabrication and flexible processing of large compound or freeform customised components in new advanced metallic alloys and hybrid reinforced composites for cross-sector applications - in short, Lean, Agile and Adaptive manufacturing. Industrial sectors benefitting from this work will include the automotive, aerospace, railways, marine, energy, construction, materials processing and tooling industries.

AUTOMAN will develop and demonstrate advanced manufacturing processes and novel systems deploying intelligent automation technologies - digitally re-configurable tooling, robotic manipulators integrated with computer vision and artificial intelligence simulation software. The new systems will be for producing high-quality customised 3D functional and complex structural parts of lightweight vehicle body panels, high-performance building cladding facades and large integral components. Through the use of intelligent robotic machinery, the proposed automated manufacturing approach will enable rapid fabrication and flexible processing of large compound or freeform customised components in new advanced metallic alloys and hybrid reinforced composites for cross-sector applications - in short, Lean, Agile and Adaptive manufacturing. Industrial sectors benefitting from this work will include the automotive, aerospace, railways, marine, energy, construction, materials processing and tooling industries.

AUTOMAN will develop and demonstrate advanced manufacturing processes and novel systems deploying intelligent automation technologies - digitally re-configurable tooling, robotic manipulators integrated with computer vision and artificial intelligence simulation software. The new systems will be for producing high-quality customised 3D functional and complex structural parts of lightweight vehicle body panels, high-performance building cladding facades and large integral components. Through the use of intelligent robotic machinery, the proposed automated manufacturing approach will enable rapid fabrication and flexible processing of large compound or freeform customised components in new advanced metallic alloys and hybrid reinforced composites for cross-sector applications - in short, Lean, Agile and Adaptive manufacturing. Industrial sectors benefitting from this work will include the automotive, aerospace, railways, marine, energy, construction, materials processing and tooling industries.

AUTOMAN will develop and demonstrate advanced manufacturing processes and novel systems deploying intelligent automation technologies - digitally re-configurable tooling, robotic manipulators integrated with computer vision and artificial intelligence simulation software. The new systems will be for producing high-quality customised 3D functional and complex structural parts of lightweight vehicle body panels, high-performance building cladding facades and large integral components. Through the use of intelligent robotic machinery, the proposed automated manufacturing approach will enable rapid fabrication and flexible processing of large compound or freeform customised components in new advanced metallic alloys and hybrid reinforced composites for cross-sector applications - in short, Lean, Agile and Adaptive manufacturing. Industrial sectors benefitting from this work will include the automotive, aerospace, railways, marine, energy, construction, materials processing and tooling industries.

AUTOMAN will develop and demonstrate advanced manufacturing processes and novel systems deploying intelligent automation technologies - digitally re-configurable tooling, robotic manipulators integrated with computer vision and artificial intelligence simulation software. The new systems will be for producing high-quality customised 3D functional and complex structural parts of lightweight vehicle body panels, high-performance building cladding facades and large integral components. Through the use of intelligent robotic machinery, the proposed automated manufacturing approach will enable rapid fabrication and flexible processing of large compound or freeform customised components in new advanced metallic alloys and hybrid reinforced composites for cross-sector applications - in short, Lean, Agile and Adaptive manufacturing. Industrial sectors benefitting from this work will include the automotive, aerospace, railways, marine, energy, construction, materials processing and tooling industries.

AUTOMAN will develop and demonstrate advanced manufacturing processes and novel systems deploying intelligent automation technologies - digitally re-configurable tooling, robotic manipulators integrated with computer vision and artificial intelligence simulation software. The new systems will be for producing high-quality customised 3D functional and complex structural parts of lightweight vehicle body panels, high-performance building cladding facades and large integral components. Through the use of intelligent robotic machinery, the proposed automated manufacturing approach will enable rapid fabrication and flexible processing of large compound or freeform customised components in new advanced metallic alloys and hybrid reinforced composites for cross-sector applications - in short, Lean, Agile and Adaptive manufacturing. Industrial sectors benefitting from this work will include the automotive, aerospace, railways, marine, energy, construction, materials processing and tooling industries.

AUTOMAN will develop and demonstrate advanced manufacturing processes and novel systems deploying intelligent automation technologies - digitally re-configurable tooling, robotic manipulators integrated with computer vision and artificial intelligence simulation software. The new systems will be for producing high-quality customised 3D functional and complex structural parts of lightweight vehicle body panels, high-performance building cladding facades and large integral components. Through the use of intelligent robotic machinery, the proposed automated manufacturing approach will enable rapid fabrication and flexible processing of large compound or freeform customised components in new advanced metallic alloys and hybrid reinforced composites for cross-sector applications - in short, Lean, Agile and Adaptive manufacturing. Industrial sectors benefitting from this work will include the automotive, aerospace, railways, marine, energy, construction, materials processing and tooling industries.

AUTOMAN will develop and demonstrate advanced manufacturing processes and novel systems deploying intelligent automation technologies - digitally re-configurable tooling, robotic manipulators integrated with computer vision and artificial intelligence simulation software. The new systems will be for producing high-quality customised 3D functional and complex structural parts of lightweight vehicle body panels, high-performance building cladding facades and large integral components. Through the use of intelligent robotic machinery, the proposed automated manufacturing approach will enable rapid fabrication and flexible processing of large compound or freeform customised components in new advanced metallic alloys and hybrid reinforced composites for cross-sector applications - in short, Lean, Agile and Adaptive manufacturing. Industrial sectors benefitting from this work will include the automotive, aerospace, railways, marine, energy, construction, materials processing and tooling industries.

AUTOMAN will develop and demonstrate advanced manufacturing processes and novel systems deploying intelligent automation technologies - digitally re-configurable tooling, robotic manipulators integrated with computer vision and artificial intelligence simulation software. The new systems will be for producing high-quality customised 3D functional and complex structural parts of lightweight vehicle body panels, high-performance building cladding facades and large integral components. Through the use of intelligent robotic machinery, the proposed automated manufacturing approach will enable rapid fabrication and flexible processing of large compound or freeform customised components in new advanced metallic alloys and hybrid reinforced composites for cross-sector applications - in short, Lean, Agile and Adaptive manufacturing. Industrial sectors benefitting from this work will include the automotive, aerospace, railways, marine, energy, construction, materials processing and tooling industries.

AUTOMAN will develop and demonstrate advanced manufacturing processes and novel systems deploying intelligent automation technologies - digitally re-configurable tooling, robotic manipulators integrated with computer vision and artificial intelligence simulation software. The new systems will be for producing high-quality customised 3D functional and complex structural parts of lightweight vehicle body panels, high-performance building cladding facades and large integral components. Through the use of intelligent robotic machinery, the proposed automated manufacturing approach will enable rapid fabrication and flexible processing of large compound or freeform customised components in new advanced metallic alloys and hybrid reinforced composites for cross-sector applications - in short, Lean, Agile and Adaptive manufacturing. Industrial sectors benefitting from this work will include the automotive, aerospace, railways, marine, energy, construction, materials processing and tooling industries.

AUTOMAN will develop and demonstrate advanced manufacturing processes and novel systems deploying intelligent automation technologies - digitally re-configurable tooling, robotic manipulators integrated with computer vision and artificial intelligence simulation software. The new systems will be for producing high-quality customised 3D functional and complex structural parts of lightweight vehicle body panels, high-performance building cladding facades and large integral components. Through the use of intelligent robotic machinery, the proposed automated manufacturing approach will enable rapid fabrication and flexible processing of large compound or freeform customised components in new advanced metallic alloys and hybrid reinforced composites for cross-sector applications - in short, Lean, Agile and Adaptive manufacturing. Industrial sectors benefitting from this work will include the automotive, aerospace, railways, marine, energy, construction, materials processing and tooling industries.

AUTOMAN will develop and demonstrate advanced manufacturing processes and novel systems deploying intelligent automation technologies - digitally re-configurable tooling, robotic manipulators integrated with computer vision and artificial intelligence simulation software. The new systems will be for producing high-quality customised 3D functional and complex structural parts of lightweight vehicle body panels, high-performance building cladding facades and large integral components. Through the use of intelligent robotic machinery, the proposed automated manufacturing approach will enable rapid fabrication and flexible processing of large compound or freeform customised components in new advanced metallic alloys and hybrid reinforced composites for cross-sector applications - in short, Lean, Agile and Adaptive manufacturing. Industrial sectors benefitting from this work will include the automotive, aerospace, railways, marine, energy, construction, materials processing and tooling industries.

AUTOMAN will develop and demonstrate advanced manufacturing processes and novel systems deploying intelligent automation technologies - digitally re-configurable tooling, robotic manipulators integrated with computer vision and artificial intelligence simulation software. The new systems will be for producing high-quality customised 3D functional and complex structural parts of lightweight vehicle body panels, high-performance building cladding facades and large integral components. Through the use of intelligent robotic machinery, the proposed automated manufacturing approach will enable rapid fabrication and flexible processing of large compound or freeform customised components in new advanced metallic alloys and hybrid reinforced composites for cross-sector applications - in short, Lean, Agile and Adaptive manufacturing. Industrial sectors benefitting from this work will include the automotive, aerospace, railways, marine, energy, construction, materials processing and tooling industries.

AUTOMAN will develop and demonstrate advanced manufacturing processes and novel systems deploying intelligent automation technologies - digitally re-configurable tooling, robotic manipulators integrated with computer vision and artificial intelligence simulation software. The new systems will be for producing high-quality customised 3D functional and complex structural parts of lightweight vehicle body panels, high-performance building cladding facades and large integral components. Through the use of intelligent robotic machinery, the proposed automated manufacturing approach will enable rapid fabrication and flexible processing of large compound or freeform customised components in new advanced metallic alloys and hybrid reinforced composites for cross-sector applications - in short, Lean, Agile and Adaptive manufacturing. Industrial sectors benefitting from this work will include the automotive, aerospace, railways, marine, energy, construction, materials processing and tooling industries.

AUTOMAN will develop and demonstrate advanced manufacturing processes and novel systems deploying intelligent automation technologies - digitally re-configurable tooling, robotic manipulators integrated with computer vision and artificial intelligence simulation software. The new systems will be for producing high-quality customised 3D functional and complex structural parts of lightweight vehicle body panels, high-performance building cladding facades and large integral components. Through the use of intelligent robotic machinery, the proposed automated manufacturing approach will enable rapid fabrication and flexible processing of large compound or freeform customised components in new advanced metallic alloys and hybrid reinforced composites for cross-sector applications - in short, Lean, Agile and Adaptive manufacturing. Industrial sectors benefitting from this work will include the automotive, aerospace, railways, marine, energy, construction, materials processing and tooling industries.

AUTOMAN will develop and demonstrate advanced manufacturing processes and novel systems deploying intelligent automation technologies - digitally re-configurable tooling, robotic manipulators integrated with computer vision and artificial intelligence simulation software. The new systems will be for producing high-quality customised 3D functional and complex structural parts of lightweight vehicle body panels, high-performance building cladding facades and large integral components. Through the use of intelligent robotic machinery, the proposed automated manufacturing approach will enable rapid fabrication and flexible processing of large compound or freeform customised components in new advanced metallic alloys and hybrid reinforced composites for cross-sector applications - in short, Lean, Agile and Adaptive manufacturing. Industrial sectors benefitting from this work will include the automotive, aerospace, railways, marine, energy, construction, materials processing and tooling industries.

AUTOMAN will develop and demonstrate advanced manufacturing processes and novel systems deploying intelligent automation technologies - digitally re-configurable tooling, robotic manipulators integrated with computer vision and artificial intelligence simulation software. The new systems will be for producing high-quality customised 3D functional and complex structural parts of lightweight vehicle body panels, high-performance building cladding facades and large integral components. Through the use of intelligent robotic machinery, the proposed automated manufacturing approach will enable rapid fabrication and flexible processing of large compound or freeform customised components in new advanced metallic alloys and hybrid reinforced composites for cross-sector applications - in short, Lean, Agile and Adaptive manufacturing. Industrial sectors benefitting from this work will include the automotive, aerospace, railways, marine, energy, construction, materials processing and tooling industries.

AUTOMAN will develop and demonstrate advanced manufacturing processes and novel systems deploying intelligent automation technologies - digitally re-configurable tooling, robotic manipulators integrated with computer vision and artificial intelligence simulation software. The new systems will be for producing high-quality customised 3D functional and complex structural parts of lightweight vehicle body panels, high-performance building cladding facades and large integral components. Through the use of intelligent robotic machinery, the proposed automated manufacturing approach will enable rapid fabrication and flexible processing of large compound or freeform customised components in new advanced metallic alloys and hybrid reinforced composites for cross-sector applications - in short, Lean, Agile and Adaptive manufacturing. Industrial sectors benefitting from this work will include the automotive, aerospace, railways, marine, energy, construction, materials processing and tooling industries.