The primary scope of this tender is to design, supply, install and commission hardware for a flexible manufacturing system that can act as a physical demonstration learning system for relevant and latest industry 4.0 technologies. The system will need to be sited in the Automation and Robotics Labatory at the UWTSD Campus in Swansea Waterfront Campus IQ Building Island Rd, Swansea SA1 8EW.
The proposed systems need to be able to facilitate digital twin modelling with the current UWTSD Siemens Tecnomatix software and any further requirements for this should be identified.
This tender opportunity should consider an integrated physical hardware system with options such as, but not limited to;
a. Range of manufacturing Process Operations.
b. Assembly Operations (both manual and automated.)
c. Potential for integration with existing UWTSD Robotics (UR3s and UR10s for example.)
d. Opportunities for Measurement Systems Analysis teaching and learning.
e. Vision and Quality Inspection including product pass / fail identification.
f. Automated Warehousing and Storage using RFID technology.
g. Integrated automated guided vehicles with an open programming environment such as C++, Matlab and MS Robotics Developer Studio.
h. Energy usage analysis.
i. Cyber Security Vulnerabilities and Protection
The primary scope of this tender is to design, supply, install and commission hardware for a flexible manufacturing system that can act as a physical demonstration learning system for relevant and latest industry 4.0 technologies. The system will need to be sited in the Automation and Robotics Labatory at the UWTSD Campus in Swansea Waterfront Campus IQ Building Island Rd, Swansea SA1 8EW.
The proposed systems need to be able to facilitate digital twin modelling with the current UWTSD Siemens Tecnomatix software and any further requirements for this should be identified.
This tender opportunity should consider an integrated physical hardware system with options such as, but not limited to;
a. Range of manufacturing Process Operations.
b. Assembly Operations (both manual and automated.)
c. Potential for integration with existing UWTSD Robotics (UR3s and UR10s for example.)
d. Opportunities for Measurement Systems Analysis teaching and learning.
e. Vision and Quality Inspection including product pass / fail identification.
f. Automated Warehousing and Storage using RFID technology.
g. Integrated automated guided vehicles with an open programming environment such as C++, Matlab and MS Robotics Developer Studio.
h. Energy usage analysis.
i. Cyber Security Vulnerabilities and Protection