Commercial Technology Development
Unit code | MCEL30102 |
---|---|
Credit rating | 10 |
Unit level | Level 3 |
Teaching period(s) | Semester 2 |
Available as a free choice unit? | No |
Overview
This unit is intended to provide an introduction to how commercial technology development affects the way in which engineering should be practiced in terms of business sustainability.
Engineering is central to the well-being and economic development of every nation. Electrical and Electronic Engineers are responsible for providing fundamental services in the delivery of infrastructure as well as the manufacture of products synonymous with the modern world.
The challenge for many organisations is in finding robust ways of implementing sustainable commercial development at a practical level: addressing challenges whilst remaining competitive on a global stage. Recognising that research, technical innovation, technical development and business skills must be understood nurtured and combined as precursors to the successful implementation of commercially sustainable solutions.
The unit provides an introduction to commercial technology development and what approaches make it sustainable in the market from a business perspective and develops the concepts of integration between elements of the organisation and the wider environment.
Aims
The aim of this unit is to develop in EEE students an understanding of the fundamental principles of economical sustainability, environmental sustainability, social responsibility, ethical practice and their implications for commercial development.
The unit develops an understanding of mechanisms for change towards sustainable development in organisations so future engineers are equipped to play a leadership role within organisations, appreciating essential business aspects. Emphasis is placed upon the relationship between management strategy, the pursuit of business and sustainable aims and objectives; and the benefits that arise for various stakeholder groups.
Syllabus
The unit provides an introduction to understanding commercial technology development that is sustainable in a professional context. A combination of lectures and group activities enable students to learn both the basic theory of sustainable development, business models, commercial development and understand its application in a professional context.
Where possible, examples are drawn from real life scenarios and lecturers from EEE are involved to introduce a range of different subject perspectives.
Lectures and group activities/workshops are used to apply theoretical concepts: equipping students with sustainable commercial development literacy and competencies, enabling them to understand and contribute to the social, environmental, economic and ethical responsibilities of potential future employers.
Teaching and learning methods
Lectures are delivered by the Business School and the Department of EEE to introduce the concepts and principles followed by in depth technical or industrial insight into the topics.
Workshops will be used to apply theoretical concepts and give students the opportunity to develop practical and transferable skills through participation and contribution to group activities that will support their coursework.
Knowledge and understanding
A1 Demonstrate knowledge of key business and sustainable development principles in relation to technology commercialisation including intellectual property, quality management, technology readiness level minimising risks and security risks
A2 Demonstrate knowledge of the "three pillars" model of sustainable development, identifying, integrating and balancing social, environmental, economic and ethical considerations
A3 Demonstrate understanding of global challenges, and an awareness of their impact on industry
Intellectual skills
B1 Appreciate and critically evaluate and apply a whole lifecycle perspective to analysis of a scenario, predicting both short term and long term consequences
B2 Appreciate the changing environment in which businesses operate and the dynamic relationship between an organisation and its environment
B3 Apply appropriate concepts, models, frameworks, tools and techniques which facilitate the evaluation and development of sustainability in business
Practical skills
C1 Develop and apply problem solving skills
C2 Communicate effectively in presenting work in a professionally written report
C3 Research and critically analyse information from published literature and internet sources
Transferable skills and personal qualities
D1 Develop time management skills
D2 Demonstrate the ability to work collaboratively and effectively within a group in workshops
D3 Develop, analyse, structure and communicate information both written and verbally
Employability skills
- Other
- The course attempts to give students the opportunity to develop those skills by providing opportunities for team work, finding and compiling information in the form of an individual written report and getting students thinking about the commercial aspects of their subject area.
Assessment methods
Formative assessment:
- Sustainable Development Principles (Blackboard Quiz)
Summative Assessment:
- Coursework (100%) - Individual Report 2500 words (Week 12)
Feedback methods
Immediate feedback is available regarding understanding of basic principles of sustainable commercial development upon completing the formative quiz in blackboard. The test can be taken unlimited number of times.
Attending lectures, joining discussions about case studies and doing short work tasks set within the lecture session.
Your lecturer may provide brief replies to your e-mailed enquiry, or may arrange to meet immediately before, following or during a scheduled class session.
Your lecturer may feedback messages to the whole class via Blackboard if the point that you have raised could be of benefit to the whole class.
It is your responsibility to check blackboard regularly.
Recommended reading
Capon C, 2009, Understanding the Business Environment, FT Prentice Hall
Mulder K, 2006, Sustainable Development for Engineers: A Handbook and Resource Guide, Greenleaf Publishing Ltd. (ISBN-10: 1874719195)
Rogers PP, Jalal KF, Boyd JA, 2012, An Introduction to Sustainable Development, Routledge
Tidd J, Besant J, 2009, Managing Innovation: Integrating Technological, Market and Organizational Change, Wiley
Allenby BR, 2012, The Theory and Practice of Sustainable Engineering, Pearson (Prentice Hall)
Ashford N, Hall R, 2011, Technology, Globalization, and Sustainable Development: Transforming the Industrial State, Yale University Press
Azapagic, A, Perdan, S, 2011, Sustainable Development in Practice: Case Studies for Engineers and Scientists, Wiley
Rainey D, 2007, Sustainable Business Development: Inventing the Future through Strategy, Innovation and Leadership, Cambridge University Press
Swamidass P, 2016, Engineering Entrepreneurship from Idea to Business Plan: A Guide for Innovative Engineers and Scientists, Cambridge University Press
Rulkens P, 2018, How Successful Engineers become Great Business Leaders, Business Expert Press
The unit will also draw on relevant journal articles
Study hours
Scheduled activity hours | |
---|---|
Lectures | 14 |
Practical classes & workshops | 8 |
Independent study hours | |
---|---|
Independent study | 78 |
Teaching staff
Staff member | Role |
---|---|
Kassandra Papadopoulou | Unit coordinator |
Suneel Kunamaneni | Unit coordinator |
Fatemeh Salehi Yazdi | Unit coordinator |
Additional notes
Programme Restrictions: Core forMEng/BEng Electrical and Electronic Engineering,MEng/BEng Electronic Engineering andMEng/BEng Mechatronic Engineering.
For Academic Year 2024/25
Updated: March 2024
Approved by: March UG Committee