Public Funding for Whiston Industries Limited

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.

Jaguar Land Rover is now one of the global leaders in the manufacture of complete aluminium automotive body structures. Whilst delivering significant enhancement to final product performance this slrategy does have huge implication in terms of manufacturing investment, with up lo £200M spent wilh every vehicle programme on press lools & BIW (body-in-white) facilities. A proportion of this cost is due simply to the selection of aluminium rather than steel and its reduced formability driving simpler more numerous parts, wilh more sub-assembly lo create the required levels of complexity. This projecl will industrialise the innovative warm forming concept, in essence marrying the commercially existing worlds of super plastic forming for niche production with the conventional cold processing technique used in volume production today. It will provide a manufacturing process specifically optimised for Premium vehicle production, the aim being to achieve steel formability with aluminium and hence steel investmeni levels with savings of up to £20M per vehicle programme. In press tooling terms we envisage a 40% reduction in the capital & revenue costs associated with the consolidation of 30 key structural componenls through the application of this technology. Such a reduction in part count, tooling & facilities, will in addition, contribute towards JLR's improved Carbon Footprint, as they look lo further 'green' their manufacturing processes and in doing so achieve the target of a 25% reduction in Manufacturing Carbon Footprint by 2015.