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Full Time Masters Degrees in Engineering, China

We have 6 Full Time Masters Degrees in Engineering, China

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China has invested heavily in infrastructure development and there are a large number of active construction projects within the local environment of the University, making XJTLU an ideal location for an engineer in training. Read more
China has invested heavily in infrastructure development and there are a large number of active construction projects within the local environment of the University, making XJTLU an ideal location for an engineer in training. XJTLU’s MSc programmes attract students from across the world, generating an international feel within a Chinese context. This combination provides you with a good cross-cultural experience.

Civil engineering encompasses all of the key elements of engineering design of the built environment. As such this programme provides you with broad, advance-level training in the application of the civil engineering principles of structural, environmental and geotechnical engineering, fluid mechanics and advanced materials. The programme introduces you to modelling approaches that allow the effective and sustainable design of structures and systems within the built environment. In addition, it provides you with design perspectives that allow you to extend your knowledge from fundamental principles to the appreciation of the influence of using sustainable materials.

This full-time 18-month programme comprises two semesters of taught modules, assessed by coursework and examination, followed by a research dissertation during your third semester. The programme is also offered on a part-time 36-month basis for potential students currently working in industry. All the modules are delivered in English by an international academic staff who specialise in sustainability and sustainable construction.

What are my career prospects?

The programme provides you with sufficient training to obtain employment across the industry. With the global growth of civil engineering, encompassing design, construction and continual maintenance of the built environment, students should find themselves both competent and able to take up roles within this important industry.

With the strong global investment in construction and infrastructure driven by increasing urbanisation, civil engineering is a key field of growth. Civil engineering as a discipline is taking into account current trends such as CO2 reduction, the utilisation of new materials and the application of modern computer modelling and simulation-based techniques. Designs and design methods have become more efficient and more sustainable and civil engineers have been driving these innovations.

Part-time study option also available.

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This MSc provides advanced training and enhances your skills in the specialised area of electronics, communications and computer engineering. Read more

About the course

This MSc provides advanced training and enhances your skills in the specialised area of electronics, communications and computer engineering.

The course aims to provide you with a comprehensive coverage of the skills required by an engineer working in instrumentation, electronic systems, wireless and wired telecommunications, computer hardware, and software aspects of computer engineering.

The programme provides an excellent basis for engineers wishing to update their knowledge, students who wish to embark a career in advance research and development, or for students wishing to enhance their training and qualifications.

Key facts

Particular features of the programme include:

- Incorporating 6 months industrial internship as part of the curriculum
- Teaching informed by active leading-edge researchers in the field
- Innovative and engaging teaching methods
- One-to-one project consultation with expert members of staff
- Access to many online resources and flexibility in course content. This is a highly flexible course, which gives you the opportunity to - Choose modules according to your specific interests and requirements.

Course content and structure

After completing the taught components of the course, you will undertake an industrial internship placement with the major industry players in the field of electronics, communications and computer engineering. Subsequently, with knowledge/skills gained through industrial internship period, you will proceed with highly industry-oriented research project supervised by our expert members of faculty staffs.

This course operates on a modular basis and consists of a series of taught modules (worth 120 credits), followed by 6 months of non-credit bearing industrial internship. During the industrial internship, you will explore your interest in a specific research topic/project dissertation which will be beginning right after your industrial placement. The project dissertation will be 60-credit worth, and will begin in the following spring period.

You will be taught using the latest advances in teaching methods and electronic resources, as well as small-group and individual tutorial.

Tutors provide feedback on assignments. Our objective is to help you develop the confidence to work as a professional academic, at ease with the conventions of the discipline, and ready to tackle any area of research in electronic communications and computer engineering.

Modules offered:

Instrumentation and Measurement
Engineering Ultrasonics
Optical Communications and Networks
HDL for Programmable Logic
Applied Computational Engineering
Integrated Photonics: Design and Technology
Control Systems Design
Electronic Design
Solid State Devices
Digital Communications
Power Electronic Design
Embedded Computing
Digital Signal Processing for Telecommunication Multimedia and Instrumentation
RF Microelectronics
Mobile Communications
VLSI Design
Telecommunication Electronics
Web Based Computing
Optical Communications
Applied Computational Engineering

Internship programme​

The internships are with IC design, solid-state electronics, automotive electronics or semiconductor industries that are mainly located in Ningbo/Shanghai. Our partners are either international or locally-bred, such as Ningbo Advanced Memory Technology Corporation, Atmel, Sondrel, AMD and Bosch. We may expand our internship programme in Hong Kong, South Korea, etc in the future.

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The course is designed for students who wish to develop an understanding and working knowledge of the principles and applications of a variety of surveying devices and techniques. Read more

About the course

The course is designed for students who wish to develop an understanding and working knowledge of the principles and applications of a variety of surveying devices and techniques.

Versions of this course have been running at The University of Nottingham in the UK for almost 20 years. This course runs entirely at The University of Nottingham Ningbo China (UNNC), providing students with the ability to appreciate and apply state-of-the-art engineering surveying techniques within a practical context. It includes the principles underpinning surveying, such as reference systems and geodesy, as well as the techniques and equipment used in engineering surveying, photogrammetry and satellite positioning systems such as GPS. UNNC is located in an excellent GNSS coverage area, from which both BeidouI+II/Compass and QZSS satellites can be observed.

In addition to the formal part of the course, we run practical classes that allow students to see and learn how to use and operate a very wide variety of state-of-the-art surveying equipment and software, including laser scanners, servo driven total stations, RTK and Network RTK GPS, digital and analogue photogrammetry, LiDAR, SAR and InSAR.

Students studying this course will be develop the ability to:

- Apply their skills directly within the surveying industry
- React quickly to new technologies and innovations
- Communicate ideas effectively in written reports, verbally and through making presentations to groups
- Exercise original thought, as well as gain interpersonal, communication and professional skills
- Plan and undertake an individual project

The course is accredited by the Royal Institution of Chartered Surveyors (RICS) and the Chartered Institution of Civil Engineering Surveyors (ICES).

Course structure and content

The course consists of 120 credits of taught modules along with a 60 credit major individual research-based project undertaken over the summer term. It is also available as a postgraduate diploma which covers the same taught modules, but does not include the research project. Please be aware modules are subject to change.

Modules

Autumn semester:

Analytical methods
Geodetic reference systems
Fundamentals of satellite positioning
Engineering surveying

Spring semester:

Advanced satellite positioning
Photogrammetry and remote measurement
Physical Geodesy

Individual project

Once you have completed the modules, you will undertake a supervised research project over the summer term. Students receive dedicated supervision from staff members. This is a key component of the degree, affording students the opportunity to conduct independent research which may be related to their future employment.

It provides the student with an opportunity to undertake a substantial personal project appropriate to their interests. It will normally take the form of scientific investigation whether it involves experimentation or an extensive review of work already completed by others. Typically (but not exclusively) it will include the following:

- Project definition and aim (choice of subject is at the discretion of the convenor)
- Literature review
- Practical experimentation/investigation
- Critical analysis of findings
- Presentation of results

Career options for this degree

This degree offers career opportunities in a variety of careers such as Engineering Surveying in Private and Government Sectors (e.g., Construction, Deformation Monitoring, Utility Departments and Companies), GNSS Software Engineering, GNSS Receiver Sales and Marketing, Digital Mapping, 3D Modelling, Smart City Development, Consultancy.

All our graduates of the course found good relevant jobs within 6 months after graduation – 100% employment rate!!

Postgraduate scholarships

To encourage academic excellence, The University of Nottingham Ningbo China (UNNC) offers a comprehensive and expanding range of scholarships to postgraduate students. For more information please click the link below

http://live-china-uon.cloud.contensis.com/en/study/postgraduate/masters/scholarships/index.aspx

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BIM is a growing technology used in the building industry worldwide. It uses digital techniques to create and use intelligent 3D models to communicate building project decisions. Read more

About the course

BIM is a growing technology used in the building industry worldwide. It uses digital techniques to create and use intelligent 3D models to communicate building project decisions. GIS is a technical system to implement the collection, storage, management, calculation, analysis, display and description of geospatial information data. The results help to understand what is happening in a geographical space which can increase efficiency in building planning and design. The current ‘lack of BIM innovation’ and ‘lack of BIM talent’ could delay the progress of Chinese “smart” cities, which aim to reduce resource consumption and cost and use digital technologies to benefit their citizens.

This programme will be run entirely at the University of Nottingham Ningbo China (UNNC) with internship opportunities in leading BIM companies in China. It is a collaboration between Department of Architecture and Built Environment and Civil Engineering. In particular, research and teaching support will be provided by three leading research laboratories including Geospatial BIM lab, Digital City Infrastructure and technology Innovation Laboratory (D-CiTi Lab), and Big Data and Visual Analytics Lab. These laboratories are working closely with leading AEC consultants (Arup, WSP BP), international professional institutions (RICS, ICES, CIBSE) and leading BIM software vendors (Autodesk, Bentley, Leica, Tekla, Trimble).

Students are able to learn how to use and operate a very wide variety of state-of-the-art software, as well as surveying equipment including servo driven total stations, laser scanners, GNSS, digital and analogue photogrammetry. With extensive project and consultancy experience on the Geospatial Engineering, BIM in the AEC sector in the UK and China, the team is planning to promote the Smart City with multi-dimension BIM applications across China.

Advantages of studying this programme at the University of Nottingham Ningbo:

- Be familiar with BIM related software and surveying device
- The ability to apply their skills directly within the surveying and AEC industry
- React quickly to new technologies and innovations
- Communicate ideas effectively in written reports, verbally and presentations to groups
- Exercise original thought, as well as gain interpersonal, communication and professional skills
- Participate real project work for experience accumulation
- Plan and undertake individual projects

This programme will help:

- Fain a complete understanding of theory, practice and issues of BIM and Geospatial technologies
- Acquire opportunities to use what you have learnt in real project work
- Explore new research methodology to promote development in this field
- Acquire technical skills of software operation, data analysis and design optimization
- Improve team-work ability and communication skill
- Foster individual ability to conduct academic researches

Course structure

The course is studied over 12 months. 60 credits of modules are studied in the autumn and 60 credits of modules are studied in the Spring Semesters. A research project is undertaken in the summer semester, also worth 60 credits.

Compulsory modules:

Geospatial Engineering and BIM Research Project
Introduction to Building Information Modelling and Management
Research Project Literature Review
Fundamentals of Satellite Positioning
Geodetic Reference Systems
Analytical Methods
Photogrammetry and Remote Measurement Techniques
Global Smart City with Integrated BIM
3D Modelling for BIM
Research Project Organization and Planning
Engineering Surveying
BIM and Knowledge Management
BIM+ and its Future

Career options for this degree

In China, BIM has attracted an increasing amount of concern and lots of AEC companies or institutes desire to recruit talented people with relevant BIM skills and experience. Graduates from this program would be expected to find decent jobs in local and international AEC companies. During the academic period, students have opportunities to visit and communicate with large AEC companies, and even enroll as interns after graduation. For those who wish to pursue their academic careers, this postgraduate programme prepares them well for higher level research and to continue onto PhD level.

Our Careers Development Service will work with you to explore your options. They will invite you to attend recruitment events featuring potential employers, and will suggest further opportunities, such as relevant work experience placements and skills workshops.

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The rapidly developing world and evolution of urban development have caused a massive surge in environmental pollution, energy consumption and carbon dioxide (CO2) emissions. Read more
The rapidly developing world and evolution of urban development have caused a massive surge in environmental pollution, energy consumption and carbon dioxide (CO2) emissions. Civil engineers should take a leadership role to promote sustainable development by providing creative and innovative solutions to the challenges associated with sustainability in civil engineering practices.

This programme provides students with technologically advanced knowledge, problem-solving skills and a comprehensive understanding of the key aspects of sustainability in civil engineering construction. It has a particular emphasis on the future trends of global sustainable development. It is intended to provide critical awareness of current and future problems associated with the intervention of sustainability strategies and their integration in the civil engineering sector, as well as prospective solutions from existing and emerging scientific technologies.

This full-time 18-month programme comprises two semesters of taught modules, assessed by coursework and examination, followed by a research dissertation during your third semester. The programme is also offered on a part-time 36-month basis for potential students currently working in industry. All the modules are delivered in English by an international academic staff who specialise in sustainability and sustainable construction.

Modules

• Sustainable Technology and Building Materials
• Sustainable Drainage Systems
• Sustainable Energy and Environment
• Integration of Energy Strategies in the Design of Buildings
• Advanced Simulation of Sustainable Structural Systems
• Sustainable Engineering with Timber
• Environmental Engineering and Management Practice
• Sustainable Urban Planning Strategies
• Dissertation

Sustainable Solutions for Construction

Civil engineering plays a dominant role in providing sustainable solutions to the construction industry. This programme focusses on all of the technologies, techniques and methods that will enable future civil engineers to incorporate an environmentally viable approach to the design of future infrastructure. These designs will be based on renewable energies, recycling of waste construction materials and industrial by-products, smart systems for the efficient drainage and utilisation of surface water run-offs, natural wastewater treatment methods as well as modern digital representation techniques and structural models.

What are my career prospects?

Graduates of this programme will be equipped to take up professional employment in the civil engineering industry and become lifelong learners with an appreciation of the value to society of an education in sustainable construction. On the basis of accreditation by the Joint Board of Moderators, the MSc programme may be used as the final element of the educational base for being a Chartered Engineer.

Part-time study option also available.

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This programme provides state-of-the-art education in the fields of sustainable energy generation, distribution and consumption. It is intended to respond to a growing skills shortage for engineers with a high level of training in renewable energy, smart grids and sustainability. Read more
This programme provides state-of-the-art education in the fields of sustainable energy generation, distribution and consumption. It is intended to respond to a growing skills shortage for engineers with a high level of training in renewable energy, smart grids and sustainability.

By the time you graduate, you will have a thorough understanding of sustainability standards, various renewable energies, smart grid and power electronics for renewable energy and energy use management in buildings, urban design and other areas. Research on sustainable energy technology has opened up many job opportunities in industry, government institutions and research centres.

What are benefits of the programme?

• studying at international university recognised throughout the world
• close cooperation with world-famous universities and research centres to solve major technical challenges including energy crises and environmental pollution
• excellent research opportunities, using advanced experimental equipment including a network analyser, power analyser, Dspace controller, wind turbine and PV testing system
• continuous development of core modules to meet the requirement of industrial innovation
• cutting-edge research in the intelligent and efficient utilisation of solar, wind energy and other renewable energy sources

Lab Facilities

Power electronics laboratory equipped with advanced experimental equipment
• Sustainable energy laboratory equipped with advanced experimental equipment including a 600W wind turbine, two 270W solar modules, batteries, an inverter with sinusoidal output and main controller
• Electric machine and power system laboratory

Modules

• Sustainable Energy and Environment
• Nuclear Energy Technology
• Power System Network and Smart Grid
• Integration of Energy Strategies in the Design of Buildings
• Photovoltaic Energy Technology
• Renewable Kinetic Energy Technologies
• Power Electronics and Applications for Renewable Energy
• Sustainable Urban Planning Strategies
• Msc Project

What are my career prospects?

Graduates of this programme will typically work on professional tasks including the implementation of sustainable energy technologies within existing or new systems, and modelling and evaluation of the impact on ecosystems, economics and society. Graduates may be employed as electric power system engineers, electric power system consultants, sustainable technology consultants, electric power projects managers, sustainable cities and building design consultants, managers and team leaders in government.

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