Many manufacturing companies are extending their PLM solutions to encompass manufacturing engineering, including process planning functions as well as those functions within design or product engineering, and other elements of the product life cycle. Assessment and feedback is in the form of a group presentation and one coursework in the form of a reflective diary. Scottish and non-UK EU postgraduate students may be able to apply for support from the Student Awards Agency Scotland (SAAS). We've a large range of scholarships available to help you fund your studies. If you are looking for an international master’s degree in digital innovation and entrepreneurship, come study at the EIT Digital Master School! Ibec Medtech and Engineering, the Ibec group which represents the sectors, today launched a first-of-its-kind Masters of Engineering in Digitalisation of Manufacturing. The Advanced Digital Manufacturing Facility gives you hands-on access to the latest Internet of Things (IoT) devices that are used in class and that you can also use in your projects. How master data management enables digital transformation for manufacturers. The Advanced Forming Research Centre (AFRC) near Glasgow Airport is hosted by DMEM. However, a specialised Digital Manufacturer has the potential to earn more, because of the demand as advancements continue. You'll take a minimum of 30 credits from: Postgraduate research & PhD opportunities, Take a look at our Industrial Group Project video, Department of Design, Manufacturing and Engineering Management, The Advanced Digital Manufacturing Facility, University of Strathclyde International Study Centre, Visit our international students' section, Take a look at our scholarships search for funding opportunities, Find out more about the support and how to apply, Don’t forget to check our scholarship search for more help with fees and funding, Check our scholarship search for more help with fees and funding, And Time Out named Glasgow in the top ten best cities in the world, Autonomous Robotic Intelligent Systems (MSc), Design Engineering with Advanced Product Development (MSc), Design Engineering with Sustainability (MSc), Engineering Management for Process Excellence (MSc), Mechatronics & Automation (MSc, PgDip, PgCert), Supply Chain & Logistics Management (MSc, PgDip, PgCert), Supply Chain & Sustainability Management (MSc, PgDip), Design, Manufacturing & Engineering Management, Naval Architecture, Ocean & Marine Engineering, Strathclyde Institute of Pharmacy & Biomedical Sciences, Strathclyde Executive Education & Development, Student Experience & Enhancement Services, gain insight into cyber-physical technologies and developing business models, prepare for a career within the global digital technologies-driven manufacturing sector, apply your skills in a practical industry-linked project, Design for Industry 4.0 and smart products, knowledge & information management for engineers, Demonstrate an understanding of the key concepts for digital manufacturing and stages of development of the manufacture of a chosen product, Discuss different digital manufacturing approaches, Provide an overview of the tools, processes and practices currently employed in digital manufacturing, Identify challenges and opportunities for improvement, Understanding of current worldwide initiatives for the future development of digital manufacturing, and exploration of how proposals for future development given would affect the current processes, Demonstrate knowledge and understanding of why manufacturing automation is used, Describe the conditions under which manual and/or automated production methods would be applied, Analyse the configuration and technical specifications of an automation system suitable for a specified task, Synthesise a manufacturing task suited to a specified automated system, Analyse and understand the technological elements of drive and control, and machine vision, systems, Critically appreciate the kinematic and dynamic problems associated with the control of automated systems, Understand the implications of applying automation in human terms, Demonstrate knowledge of safety factors that must be considered when installing automation, Demonstrate knowledge and understanding of advanced design methodologies, design process models and techniques for mechatronic systems, Demonstrate the design process to generate mechatronic design solutions and prototyping skills, Demonstrate knowledge and understanding of state-of-the-art processor architecture on modern embedded computing platforms, Describe processor architecture and the interface with real-world interactions, Apply knowledge to the modern embedded computing platforms, including selection of sensors and actuator to formulate a basic control system in mechatronic product design, Apply design basics and tools to the development of software for mechatronic products, Formulate an overview of the tools, processes and best practice currently employed in Design for Industry 4 and Smart Products. On the Factory Floor. International legislation and increasing costs of fiscal instruments such as the landfill tax now aim to force producers to reduce the environmental impacts of their products and processes. Normally a first-class or second-class honours degree (or international equivalent) in engineering, technology, or a business-related discipline. Accelerating globalization and industrialization continues to exacerbate complexity of sustainability. Assessment and feedback is in the form of four pieces of coursework (25% each). An automotive original equipment manufacturer (OEM) can design the entire manufacturing process digitally (tooling, machining, assembly sequencing, and factory layout) at the same time that designers are designing the next vehicle program. You will acquire a professional profile for which the industry has a growing demand. Students ordinarily resident in Wales may be to apply for postgraduate support from Student Finance Wales. Assessment and feedback is in the form of classwork (100%) including a group presentation and a report. The co… New data has shown that those who can help businesses capitalise on technological advances – such as digital technologies and automation – are seeing wages rise well above the national average". Our Digital Manufacturing Review is designed to evaluate your current capabilities versus your potential in delivering a productive and profitable product within a cost-effective and flexible manufacturing environment. Assessment and feedback is in the form of two assignments. Students with a science, technology or mathematics background can apply for these new programmes from November 2019 onwards. The objectives of this Master's degree programme are: - To provide students with the necessary knowledge to lead the digitalisation of manufacturing in the companies. Master of Management in the field of Digital Business . A key factor on this process is going to be the engineering profile of the people that will lead this transformation, a real integrated … Please note: the fees shown are annual and may be subject to an increase each year. The course also provides the latest insights through lectures delivered by prestigious industrial as well as outstanding international speakers. Applicants can be company-sponsored or self-funded. ; (2) knowledge of micro-/nano-materials processing methods, techniques, industrially-viable processes, etc. Assessment and feedback is in the form of coursework (40%) and a project (60%), including a group project presentation and project report and individual assignment. On completion of the module the student is expected to be able to: Based on the work of a project, a student will submit an individual dissertation that will account for 90% of the final mark for the class. Our campus is based in the very heart of Glasgow, Scotland's largest city. Digital manufacturing is utilized across industries. The Advanced Manufacturing Technology & Systems Management course is one of the most well-established of its kind in the UK, and it aims to provide our students with the tools, knowledge and understanding of this broad based discipline that demands expertise in many diverse topics. The EIT Digital Master School is a collaboration between the best technical universities in Europe, top European researchers and leading business partners. This module introduces design techniques and mechatronic systems at an advanced level in order to enable students to understand the application of advanced design techniques and development platforms for modern products and engineering systems. ), size-effects, material/interface behaviour at the micro-/nano-scale, challenges to manufacturing at low length-scales, etc. The module covers an introduction to knowledge based systems; knowledge representations; reasoning, chaining and searching and an introduction to information systems; information input and retrieval; information modelling process and techniques; information normalisation; visual modelling; information structure and organisation; and integration of information systems. We aim to forge entrepreneurial talents in digital innovation through outstanding education, targeting high-performing … Annual increases will generally reflect UK inflation rates and increases to programme delivery costs. We work with around 50 organisations per year and previous students have worked with organisations such as: This MSc programme is based within the Department of Design, Manufacturing and Engineering Management (DMEM), the only department in the UK combining end-to-end expertise from creative design, through engineering design, manufacture and management of the entire system.
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