Frederick University

SEMESTER 1

• INTERNATIONAL TRADE AND SHIPPING MANAGEMENT
• INTERNATIONAL MARITIME LAW
• LAW OF CARRIAGE OF GOODS
• ELECTIVE DLITSM511 Or DLITSM512

SEMESTER 2

• MARINE INSURANCE
• DISPUTE RESOLUTION
• RESEARCH METHODS
• ELECTIVE DLITSM511 Or DLITSM512

SEMESTER 3

• DISSERTATION

Despite its international character, the shipping sector is highly regulated compared to other sectors of the economy that also operate in a global business context. In reality, the shipping sector needs legal advisors and managers who are well equipped with the knowledge of both legal and business subjects, capable of functioning in different jurisdictions and dealing with a plethora of legal and business challenges.

Therefore understanding the interrelation between regulations, transportation, business, economic growth and globalisation has become an even more demanding and complex task. Against this, any advocate or business professional has to be an expert in both disciplines: Law and Shipping Business, in order to be a credible consultant. It is therefore the ambition of this Programme to provide students with a thorough understanding of the integration of Law & Business. This practically means that the modern shipping professional, either jurist or manager, will be educated on the detailed international regulatory framework as well as the specialised managerial and business practices and the economics that govern this unique industry. This will be their competitive advantage.

Accordingly, the Programme covers all legal subjects that are necessary for a maritime lawyer; at the same time, it prepares students to become maritime business executives. The proposed Postgraduate Degree aims to develop this combination of essential knowledge and skill-sets, much needed in today and tomorrow’s maritime sector.

You are also offered the opportunity of Concentration, based on the Elective Group of your choice, in one of three areas:

Commercial Shipping and Trade Practices;
Financial Management;
Oil and Gas Management.

Students are eligible for the MA, if they hold an undergraduate business-oriented Degree. Students are eligible for the LLM, if they hold an LLB Degree, or a relevant Bachelor Degree combined with an extensive professional legal experience.

Key Learning Outcomes

Upon successful completion of this Programme, the students should be able to:

• Advise, litigate and negotiate based on the rules of admiralty, international trade, and marine insurance, law of carriage of goods, corporate law and the relevant regulatory context.
• Demonstrate negotiation skills, communication and professional skills, both oral and written.
• Apply independent analysis, research and writing on both law and business.
• Understand the aspects relating to international dispute resolution (conventional and alternative dispute resolution) and the importance of cooperation and amicable dispute settlement without the sacrifice of efficiency and perseverance in justifiable goals and rights.
• Demonstrate a comprehensive knowledge and understanding of the structures, processes and institutional practices of shipping and trade in the global marketplace.
• Apply tools and techniques relevant to various aspects of the shipping business, along with broad business skills required in managerial roles within the maritime and associated industries.
• Develop, implement and promote activities relevant to law, shipping business, international trade and shipping management by making good use of the combined knowledge from the aforementioned disciplines and critically assess the situations and phenomena of the industry as educated professionals.
• Demonstrate the appropriate knowledge and application of methods required to proceed to a research degree (MPhil, PhD etc.)

Career Opportunities

A wide range of career opportunities, in demanding and challenging posts, is available to prospective graduates that are positioned favourably in the local labour market for the newly created employment opportunities.

The diversity of the maritime and trade sectors (forming the “blue economy” sectors) includes many hundreds of large, medium and small firms, all of which are in need of skilled and versatile professionals.

This Programme is carefully designed to produce professionally competent and skilful professionals, lawyers and managers that are able to work at executive and managerial levels. Indicatively, the sectors of society and the economy that are being benefited from the added value of this Programme’s graduates are:

• Onshore and offshore personnel of maritime companies
• Legal and Judicial sector
• Banking, Finance and Insurance sector
• International Trade and export- import sector
• Business sector
• Energy sector
• Public sector
• Agencies with regulatory responsibilities
• National and international organisations
• Research and academic sector.

All those sectors need to draw upon the same pool of well-educated people. It is worth mentioning again that the Programme is unique in Cyprus and one of the few offered worldwide.

Contemporary Art Practices

SEMESTER 1

• RESEARCH METHODS
• VISUAL AND CRITICAL STUDIES
• STUDIO PRACTICE I

SEMESTER 2

• STUDIO PRACTICE II
• CONTEXTUAL STUDIES
• ELECTIVE COURSE

SEMESTER 3

• MASTERS DISSERTATION

Interdisciplinary Design

SEMESTER 1

• RESEARCH METHODS
• VISUAL AND CRITICAL STUDIES
• DESIGN MANAGEMENT AND PRACTICES

SEMESTER 2

• ADVANCED RESEARCH APPLICATIONS
• CONTEXTUAL STUDIES
• ELECTIVE COURSE

SEMESTER 3

• MASTERS DISSERTATION

The MA in Visual Art program encourages students to challenge and explore conventional boundaries of various art and design disciplines, borrowing and experimenting creatively. Interdisciplinary methodologies are investigated and applied aiming in the advancement and development of new and novel art and design discourses. The program encourages and respects critical theory as well as in depth understanding of material and the practice of making. Furthermore, it offers a close relation with the creative and professional industries and provides opportunities for collaboration on real life local and international projects. Emphasis is placed upon pushing forward critical discourses in a challenging and provocative way, indicating relations to key discourses within the contemporary arena, as well as building upon a personal visual language that is both informed of current trends and innovative.

The program aspires to bring together students from diverse backgrounds that will have the opportunity to interact and develop skills necessary to envision a rapidly growing interdisciplinary culture.

Committing to a balanced input of theory and practice, the program fosters professional initiative, self-motivation and ambition, desire for positive social change, cultural responsibility and environmental ethics as well as imaginative, out-of-the-box creativity.

Tailored to the individual needs and skills of the students, the program gives them the opportunity to develop creatively, to find new experimental applications of their ideas and meet their individual aspirations. Through a series of self-initiated projects and personal tutorials the students are enabled to develop their creative identity and individuality. In doing so students are encouraged in bringing into context their real-life experiences, skills and practice.

Conceptual and theoretical issues will be relatively brought up, studied and tackled through courses of Visual and Critical Thinking and Contextual Studies. These courses are primarily engaged with the systematic study of core notions, concepts and disputes of and around critical theory, philosophy, the art and design history, aesthetics and relative studies.

Furthermore, research will be promoted by means of encouraging the development of collaboration between the university and other academic and social partners on a local, regional (Mediterranean) and international level. The establishment of such networks is critical in acquiring experience, achieving effective exploitation of research results, resulting in good practice examples and innovation. In order to build a strong art and design research culture with proficient methodological skills the program offers the course of Research Methods that will introduce and provide students with all necessary and relevant competencies and tools in order to encourage and engage them into such a culture.

Students will also be introduced to a variety of subjects and media through the art and design electives, that have been methodically structured to provide students with in-depth understanding of primal issues and crucial lines of enquiries in the Art and Design Field;

The program aspires to bring together students from diverse backgrounds that will have the opportunity to interact and develop skills necessary to envision a rapidly growing interdisciplinary culture in art and design practices.

Committing to a balanced input of theory and practice, the program fosters professional initiative, self-motivation and ambition, desire for positive social change, cultural responsibility and environmental ethics as well as imaginative, out-of-the-box creativity.

The vision of the MA program is to motivate, inspire and encourage students to approach art and design through non-conventional understandings, beyond predictable applications and expectations of what design might be and push the development into new forms and applications borrowing expertise from graphic, interior and media design as well as the fine arts. The program aspires for students to explore that area between design and art which will grand them the opportunity to develop their thinking, ideas and even their personalities beyond conventional standards.

The program is anchored in the area of Fine Art and Applied Art, allowing each individual student to follow the areas of expertise provided by two major streams, which reflect the needs of upcoming new industries:

1. Interdisciplinary Design
2. Contemporary Art Practices

INTERDISCIPLINARY DESIGN

Interdisciplinary Design students will be introduced to the applied art field through an awareness about fields such as space and form alternatives, curatorial and displaying practices, object and materiality issues, installation and art aesthetics, new media, moving image, animation, web design, alternative visualizing methods, interactivity and materiality issues. In all cases students will be introduced to the technologies that precede these topics. Students attending this pathway will have the opportunity to work on real life projects, work and co-operate with active professionals from the design industry, deliver projects for clients coming from the public or private sector, as well as investigate their professional opportunities in a network of design related individuals, agencies and industries.

CONTEMPORARY ART PRACTICES

Through this pathway, the students are introduced and ‘guided to’ contemporary methods, techniques, approaches and practices of the fine art field through systematic exploration and work development primarily in the art studio. These fundamental courses will enable students to locate practical areas of study, to experiment and resolve problems relating their medium, materials, concepts and methods through ongoing practice, group and one to one tutorial, critiques, exhibition visits as well as local and international project initiations. In addition, the students will be presented with a series of talks and presentations by renowned artists, theorists, curators, art historians, thinkers and cultural producers in order to become engaged in contemporary disputes, subjects and art processes.

The program is strongly engaged in this very interrelation of contemporary cultural debates to contemporary art practices and for this very reason the students will be further exposed to critical and current disputes as reflected in the art processes, applications, mediums and materials through the courses of Visual Processes and Applications; a course that examines critical positions, histories and renderings/interpretations of the art object through

The specific goals of the program are:

1. To offer an innovative combination of fundamental and applied training in order to provide graduates with essential knowledge of global, comparative and transnational expertise and skills related to the practice of fine and applied arts.
2. To emphasize the application of knowledge by concentrating on research work and by providing a practical focus for MA theses.
3. To provide high-quality academic education and contemporary scientific knowledge in visual arts, while focusing on the contemporary culture, so as to ensure the preparation of highly qualified practitioners and scholars.
4. To educate students in interdisciplinary and critical perspective of the production, dissemination and the role of art and design practices. 
5. The train students in research and prepare them develop as researchers, in the various fields of visual arts from interdisciplinary design to contemporary are practices.
6. To inject a sense of excellence in and appreciation of the visual arts in local, regional, national and global contexts, both past and present and to foster a critical appreciation of the fine and applied arts disciplines.

The language of instruction is English.

Key Learning Outcomes

1. Assimilate the philosophy and values which condition interdisciplinary design and to understand the processes and factors that lead to its development;
2. Analyze and discuss the contemporary global, regional and local design issues and exhibit critical and creative thinking about their impact on aesthetic and cultural activities;
3. Indicate and carry an in-depth practice-based research that reflects on advanced critical theory and original and creative visual language;
4. Demonstrate skills and experiences necessary to involve in practising design within the areas of two dimensional and three-dimensional space, form/ function and formation, screen and print/moving and static platforms, traditional and experimental techniques, design materiality and immateriality
5. Apply the methodologies, discourses and analysis needed to enforce interdisciplinary art and design applications, thus achieving high level of execution and finishing
6. Utilize effectively state-of-the-art software tools embracing the impact of technology and new media in the area of contemporary art and interdisciplinary design
7. Promote the development of practices which facilitate sustainability, social and cultural perspectives
8. Manage information about the main local and international market opportunities and channel directly their professional practices in unique and innovative channels
9. Apply the necessary knowledge so that they can become chartered in the professional arena and association;
10.  Demonstrate the ability for using research results in education, within their professional environments and in society.
11. Master skills and experiences that reflect on appropriate subjects and themes of the wider area of interest, in ways that challenge conventional boundaries and re-approach in unpredictable ways, traditional methods and mediums;
12.  Develop and execute a self-initiated project that makes an original contribution to the field.

Occupational Profiles of the Graduates

The majority of the employment opportunities lie within the local creative industries. Graduates from the MA program in Visual Arts may go into managerial creative posts such as Creative Coordinators, Cultural Producers, Design Managers or Art Directors in Graphic Design agencies, Interior Architecture, Art and Design related posts, as well as the media and will be working towards hybrid forms of visual and social research and creative production.

Graduates can also pursue opportunities to initiate artist led, community-based projects or postgraduate doctoral studies.

SEMESTER 1

• INTERNATIONAL TRADE AND SHIPPING MANAGEMENT
• INTERNATIONAL MARITIME LAW
• LAW OF CARRIAGE OF GOODS
• ELECTIVE

SEMESTER 2

• MARINE INSURANCE
• DISPUTE RESOLUTION
• RESEARCH METHODS
• ELECTIVE

SEMESTER 3

• DISSERTATION

In a constantly changing world, a modern and international enterprise must rely on managers and advisors with diverse expertise of both legal and economic requirements of the business environment. To meet these needs, Frederick University with an international team of academic experts from leading universities offers a postgraduate Programme that is unique in Cyprus, and one of very few offered globally.

This Degree Programme combines the subject areas of both Maritime Law and Shipping Management and develops the skillset required by managers and lawyers to advise, litigate, negotiate and ultimately to master the legal complexities and challenges of International Trade and Transport.

Upon completion, graduates are awarded either the “LLM in Maritime Law and Shipping Management” or the “MA in Maritime Law and Shipping Management”.

Students of the program are also offered the opportunity to focus on an elective group of subjects of their choice, and obtain a ‘concentration’ in one of three areas:

• COMMERCIAL SHIPPING AND TRADE PRACTICES
  Global Trade Practices
  Commercial Management of Ships
• FINANCIAL MANAGEMENT
  Banking and Shipping Finance
  Economics of Sea Transport and International Trade
• OIL AND GAS MANAGEMENT
  Commodity Trading and Risk Management
  Oil and Gas Management

Students are eligible for the MA, if they hold an undergraduate business-oriented Degree. Students are eligible for the LLM, if they hold an LLB Degree, or a relevant Bachelor Degree combined with an extensive professional legal experience.

Key Learning Outcomes

Upon successful completion of this program, you should be able to:

• Acquire knowledge and understanding of the main principles and functions of the shipping business and international trade
• Deal with advanced legal issues in maritime law, international trade, marine insurance, carriage of goods, chartering and dispute resolution
• Display critical awareness and demonstrate managerial skills of combined legal and business analysis and advanced problem solving
• Develop negotiation and communication skills, both oral and written.
• Have the appropriate knowledge and skills required to proceed to a research degree (MPhil, PhD etc.).

Career Opportunities

Significant recent developments in the business sectors in Cyprus make both postgraduate Programmes of studies especially relevant. The island is considered to be one of the world’s leading maritime centres and is fast becoming a new European hub for imports and re-exports activities linking Europe with the Far East in ways previously unexplored. At the same time the energy sector in Cyprus is also developing rapidly.

There is a variety of career options upon completion of any of these two Master's Degree Programmes including import and export business, ship owning and ship management, chartering, commercial legal services and consultancy, banking and finance, oil and gas trading and management, insurance, freight forwarding, transportation and logistics, port management, shipping agency, as well as a variety of posts in the public administration and government.

Graduates of these Programmes will be positioned favourably in the local and international market for the newly created employment opportunities. They will be able to undertake managerial, legal and executive responsibilities. Those already in employment are expected to enhance their career prospects and be prepared to face the challenges of a more demanding position.

The Programme operates in the evenings in order to accommodate working students and is also offered via Distance Learning.

Semester 1

• Managerial Economics
• Marketing Principles
• Quantitative Methods
• Human Resource Management & Leadership
• Strategic Management
• Project Management

Semester 2

• Managerial Accounting & Financial Management
• MBA ELECTIVE
• MBA ELECTIVE

Semester 3

• Research Methods
• MBA PROJECT: PART I
• MBA PROJECT: PART II

Program Overview

Taking an MBA is a life-changing and demanding experience. The MBA Program aims to provide students with the fundamental knowledge of current theory and practice across a range of business disciplines and equip them with the practical tools to achieve their career goals. The MBA graduates become more competitive in the market place through developing problem solving skills and applying decision-making tools to address real-life business problems in any industry sector, such as, economics, banking and finance, transportation, engineering, construction, manufacturing, distribution and logistics, retail and wholesale, consulting, services, healthcare.  

Why Study this Program? Why at Frederick University?

This Program:

• Offers flexible learning that fits around your needs allowing you to choose a study mode which best suits your personal and professional commitments.
• Provides you with the latest insights on how to innovate, manage and lead, develop problem-solving skills and learn decision-making tools.
• Integrates theory and practice; you can gain hands-on experience.
• Creates career opportunities; it will help you achieve your career goals building on your experiences and expertise.
• Offers a stimulating learning experience; you can draw on the multidisciplinary expertise of our Faculty and collaborate with colleagues on the Program with a variety of business backgrounds and experiences.

Key Learning Outcomes

Upon successful completion of this Program, you should be able to:

• Acquire basic knowledge of the fundamental concepts, principles and theoretical approaches in the essential business disciplines.
• Apply state-of-the-art analytical methods and modelling techniques and use case-studies to analyse and provide solutions to real-life business problems.
• Demonstrate decision making and managerial skills to think strategically and operate globally as a well-rounded business professional and leader.
• Analyse a variety of business perspectives and market insights to stimulate innovative and competitive thinking.
• Effectively apply new technologies in decision-making that reflect the way companies operate globally nowadays.

Field Work / Practical Experience

You can gain practical work experience through the Final MBA Project as well as the School’s network with key employers in Cyprus.

Your Future Career

MBA is a degree that demonstrates skills and ambition giving you a strong competitive advantage in the job market. The MBA experience will equip you with the toolkit to become a multi-functional leader, enable you to analyse the market and develop innovative strategies to meet emerging business challenges. You will be given the opportunity to develop the necessary skills required by senior executives or consultants in large, medium or small organizations or to start your own business.

Candidates Profile

MBA is primarily targeted at ambitious individuals of any academic discipline who wish to accelerate or change their career path, assume managerial responsibilities within their own organizations or excel in their jobs in both the private and public sectors.

Program Recognition / Accreditation

All Programs of Study offered by Frederick University have been evaluated by external academic committees and have been approved by the Evaluation Committee for Private Universities (ECPU). Since November 2015, all new University Programs have been evaluated and accredited by the Cyprus Agency of Quality Assurance and Accreditation in Higher Education (CYQAA). All Programs of Study are recognised by the Cyprus Council of Recognition of Higher Education Qualifications (KY.S.A.T.S.). Frederick University’s degrees are also recognised by DOATAP (Hellenic NARIC – National Academic Recognition Information Centre) as equivalent to the corresponding degrees of Greek Higher Education Institutions.

Semester 1

• Managerial Economics
• Marketing Principles
• Quantitative Methods
• Human Resource Management & Leadership
• Strategic Management
• Project Management

Semester 2

• Managerial Accounting & Financial Management
• ELECTIVE
• ELECTIVE

Semester 3

• Research Methods and Project Planning
• Final MBA Project - PART I
• Final MBA Project - PART II

Program Overview

Taking an MBA is a life-changing and demanding experience. The MBA Program aims to provide students with the fundamental knowledge of current theory and practice across a range of business disciplines and equip them with the practical tools to achieve their career goals. The MBA graduates become more competitive in the market place through developing problem solving skills and applying decision-making tools to address real-life business problems in any industry sector, such as, economics, banking and finance, transportation, engineering, construction, manufacturing, distribution and logistics, retail and wholesale, consulting, services, healthcare.  

Key Learning Outcomes

Upon successful completion of this Program, you should be able to:

• Acquire basic knowledge of the fundamental concepts, principles and theoretical approaches in the essential business disciplines.
• Apply state-of-the-art analytical methods and modelling techniques and use case-studies to analyse and provide solutions to real-life business problems.
• Demonstrate decision making and managerial skills to think strategically and operate globally as a well-rounded business professional and leader.
• Analyse a variety of business perspectives and market insights to stimulate innovative and competitive thinking.
• Develop knowledge and skills in using state-of-the-art online tools and technologies.

Your Future Career

MBA is a degree that demonstrates skills and ambition giving you a strong competitive advantage in the job market. The MBA experience will equip you with the toolkit to become a multi-functional leader, enable you to analyse the market and develop innovative strategies to meet emerging business challenges. You will be given the opportunity to develop the necessary skills required by senior executives or consultants in large, medium or small organizations or to start your own business.

Delivery and Duration

• The Program is delivered through the University’s e-learning platform and a variety of teaching resources including peer group activities in teams and self-study.
• The minimum completion time based on a full-time basis is 18 months (3 semesters). You can choose to complete your studies at a more relaxed pace to suit your personal and professional commitments taking up to a maximum of three years (6 academic semesters).

Is this the right program for me?

This is the ideal program for you if:

• You are an ambitious individual who, for a variety of reasons, cannot take significant time out of your job to study, does not wish to relocate or visit the University campus for classes several evenings a week but, at the same time, wish to accelerate your career or increase your employability.
• You want to have greater flexibility over how, when and where you study for your MBA.
• You are a highly motivated individual with leadership skills and good academic performance who can work independently as well as in groups using online tools.
• You are looking for a career change or making a transition from technical to managerial positions or interested in starting your own business

SEMESTER 1

• ENVIRONMENT AND SUSTAINABLE DEVELOPMENT: CONCEPTS AND ISSUES
• FROM ENVIRONMENTAL EDUCATION TO EDUCATION FOR SUSTAINABLE DEVELOPMENT: A THEORETICAL FRAMEWORK
• RESEARCH IN EDUCATION FOR THE ENVIRONMENT AND SUSTAINABLE DEVELOPMENT (PART I)
• ELECTIVE

SEMESTER 2

• RESEARCH IN EDUCATION FOR THE ENVIRONMENT AND SUSTAINABLE DEVELOPMENT (PART II)
• CONTEMPORARY APPROACHES TO EDUCATION FOR THE ENVIRONMENT AND SUSTAINABLE DEVELOPMENT
• NON FORMAL EDUCATION AND EDUCATION FOR THE ENVIRONMENT AND SUSTAINABLE DEVELOPMENT
• ELECTIVE

SEMESTER 3

• DESIGNING EDUCATION PROGRAMMES FOR THE ENVIRONMENT AND SUSTAINABLE DEVELOPMENT
• RESEARCH IN EDUCATION FOR THE ENVIRONMENT AND SUSTAINABLE DEVELOPMENT (PART III)
• ELECTIVE
• ELECTIVE

The Postgraduate Programme “MSc in Education for Sustainable Development and Social Change” focuses on theories and practices of Education for Sustainable Development (ESD) as a means of transforming thinking, influencing behaviour patterns and developing competences in order to empower individuals of various professions and backgrounds to enable through their professional positions and roles, the social change needed for achieving Sustainable Development.

The Program embraces a holistic, interdisciplinary approach that promotes the infusion of ESD through different disciplines being, therefore, appealing to a broad spectrum of different professions and social groups. It aims to help students of various backgrounds to become reflective practitioners and agents of change, locally as well as globally through their own professional practice. More specific objectives focus on developing students’ critical understanding of Sustainable Development (SD) issues, developing competences and pedagogical skills required for critical reflection, action-oriented transformative pedagogy and helping learners promote active and responsible citizenship for addressing sustainability. Objectives also seek to promote critical pedagogies for addressing SD issues through innovative approaches that encourage life-long authentic learning and social participation: values education for SD; the use of new technologies as sources and transformative tools; and alternative means of learning through the arts.

The Program’s structure ensures a balance between the academic dimension, research and practice based on pedagogical activities that can be applied in various educational contexts. Research in ESD is promoted through a research methods course, research-oriented assessment methods in the program courses, the compulsory Masters’ Thesis and through a well-established collaboration network between the university and other academic and social partners with common areas of research interests, on a local, regional (Mediterranean) and international level. Such collaborations build valuable experiences and can promote Education for Sustainable Development and Social Change as an issue of national and regional educational priority.

Key Learning Outcomes

By the end of their studies, students are expected to acquire a comprehensive set of knowledge, important skills and a mindset (values and attitudes) necessary for delivering ESD through formal, informal and non-formal educational settings. In particular, students should:

1.  Recognise sustainable development as a political, ideological, highly complex and contested concept.
2.  Analyse critically contemporary, global, regional and local SD issues, understand their universality and indivisibility and acknowledge that these are major development challenges for humanity.
3.  Explore Sustainable Development Goals (SDGs) as universal, transformational and inclusive goals that can be achieved through social engagement and responsibility.
4.  Reflect critically on one’s own theories, values, beliefs, learning and practice about SD issues.
5.  Acknowledge and deliver ESD as a transformative, critical pedagogy responsive to the systemic, holistic, and values-oriented nature of SD.
6.  Embrace ESD as a lifelong learning process and realise that beyond formal education it draws experiences, skills and action opportunities from non-formal and informal educational settings.
7.  Develop competences for ESD, be able to transfer these competences to learners in their professional environments and operate as multiplier agents for SD.
8.  Be able to apply basic principles and strategies of ESD and understand how these can foster the values and skills that will lead to sustainable, just and inclusive growth and peaceful living together.
9.  Analyse and critically discuss on the social – transformative impact of arts (visual arts, drama, literature).
10. Be able to use and develop ICT-enabled instructional materials and programs which will foster sustainability justice and the formation of positive values, attitudes and ethical behavior towards sustainable human development.
11. Demonstrate leadership for implementing whole institution approaches to ESD
12. Deconstruct and reconstruct the conventional discourse οn ESD curriculum, teaching, learning and research methodology; embracing principles of empowerment, change agency, active participation and critical reflection.

Delivery and Duration

1. The program is delivered face to face (conventional) and is based on the ECTS credit accumulation mode of study. The MSc Degree will be awarded upon successful completion of 60 ECTS in courses and 30 ECTS in writing a thesis.
2. The program has a duration of three (3) academic semesters.
3. The Program content is delivered by experienced international and in-house faculty and is available through the University’s e-learning platform.
4. The language of Instruction is Greek and/or English.

Career Opportunities

The design of the postgraduate program aims at providing students with the appropriate theoretical background based on the latest research findings, practical knowledge and skills, in order to become efficient scientists able to cope with the increasing education challenges in formal, informal and non-formal settings.

It prepares graduates for employment in NGOs, non-formal education (e.g. environmental education centers), local authorities and agencies of the public or private domain, active in areas of Sustainable Development. Educators already employed at any level and discipline of formal education can find the qualification useful for professional development and progress purposes.

Moreover, they can pursue further postgraduate studies at doctoral level.

SEMESTER 1

• SUSTAINABLE DEVELOPMENT ISSUES, PRINCIPLES AND GOALS
• RESEARCH METHODS
• EMPOWERING CITIZENS THROUGH COMPETENCE BASED EDUCATION FOR SUSTAINABLE DEVELOPMENT

SEMESTER 2

• EMPOWERING CITIZENS FOR SUSTAINABLE DEVELOPMENT THROUGH IN-FORMAL AND NON-FORMAL ΕDUCATION
• MASTER THESIS I
• ELECTIVE COURSE

SEMESTER 3

• MASTER THESIS II
• ELECTIVE COURSE

The Postgraduate Programme “MSc in Education for Sustainable Development and Social Change” focuses on theories and practices of Education for Sustainable Development (ESD) as a means of transforming thinking, influencing behaviour patterns and developing competences in order to empower individuals of various professions and backgrounds to enable through their professional positions and roles, the social change needed for achieving Sustainable Development.

The Program embraces a holistic, interdisciplinary approach that promotes the infusion of ESD through different disciplines being, therefore, appealing to a broad spectrum of different professions and social groups. It aims to help students of various backgrounds to become reflective practitioners and agents of change, locally as well as globally through their own professional practice. More specific objectives focus on developing students’ critical understanding of Sustainable Development (SD) issues, developing competences and pedagogical skills required for critical reflection, action-oriented transformative pedagogy and helping learners promote active and responsible citizenship for addressing sustainability. Objectives also seek to promote critical pedagogies for addressing SD issues through innovative approaches that encourage life-long authentic learning and social participation: values education for SD; the use of new technologies as sources and transformative tools; and alternative means of learning through the arts.

The Program’s structure ensures a balance between the academic dimension, research and practice based on pedagogical activities that can be applied in various educational contexts. Research in ESD is promoted through a research methods course, research-oriented assessment methods in the program courses, the compulsory Masters’ Thesis and through a well-established collaboration network between the university and other academic and social partners with common areas of research interests, on a local, regional (Mediterranean) and international level. Such collaborations build valuable experiences and can promote Education for Sustainable Development and Social Change as an issue of national and regional educational priority.

Key Learning Outcomes

By the end of their studies, students are expected to acquire a comprehensive set of knowledge, important skills and a mindset (values and attitudes) necessary for delivering ESD through formal, informal and non-formal educational settings. In particular, students should:

1.  Recognise sustainable development as a political, ideological, highly complex and contested concept.
2.  Analyse critically contemporary, global, regional and local SD issues, understand their universality and indivisibility and acknowledge that these are major development challenges for humanity.
3.  Explore Sustainable Development Goals (SDGs) as universal, transformational and inclusive goals that can be achieved through social engagement and responsibility.
4.  Reflect critically on one’s own theories, values, beliefs, learning and practice about SD issues.
5.  Acknowledge and deliver ESD as a transformative, critical pedagogy responsive to the systemic, holistic, and values-oriented nature of SD.
6.  Embrace ESD as a lifelong learning process and realise that beyond formal education it draws experiences, skills and action opportunities from non-formal and informal educational settings.
7.  Develop competences for ESD, be able to transfer these competences to learners in their professional environments and operate as multiplier agents for SD.
8.  Be able to apply basic principles and strategies of ESD and understand how these can foster the values and skills that will lead to sustainable, just and inclusive growth and peaceful living together.
9.  Analyse and critically discuss on the social – transformative impact of arts (visual arts, drama, literature).
10. Be able to use and develop ICT-enabled instructional materials and programs which will foster sustainability justice and the formation of positive values, attitudes and ethical behavior towards sustainable human development.
11. Demonstrate leadership for implementing whole institution approaches to ESD
12. Deconstruct and reconstruct the conventional discourse οn ESD curriculum, teaching, learning and research methodology; embracing principles of empowerment, change agency, active participation and critical reflection.

 Delivery and Duration

1. The program is delivered online and is based on the ECTS credit accumulation mode of study. The MSc Degree will be awarded upon successful completion of 60 ECTS in courses and 30 ECTS in writing a thesis.
2. The program has a duration of one and a half academic years (i.e. 3 semesters) for full time attendance or three academic years (i.e. 6 semesters) for part time attendance.
3. The Program is delivered by experienced international and in-house faculty through the University’s e-learning platform.
4. The language of Instruction is Greek and/or English.

Career Opportunities

The design of the postgraduate program aims at providing students with the appropriate theoretical background based on the latest research findings, practical knowledge and skills, in order to become efficient scientists able to cope with the increasing education challenges in formal, informal and non-formal settings.

It prepares graduates for employment in NGOs, non-formal education (e.g. environmental education centers), local authorities and agencies of the public or private domain, active in areas of Sustainable Development. Educators already employed at any level and discipline of formal education can find the qualification useful for professional development and progress purposes.

Moreover, they can pursue further postgraduate studies at doctoral level.

Communication Systems

SEMESTER 1

• ADVANCED DIGITAL COMMUNICATION SYSTEMS I
• RANDOM VARIABLES AND STOCHASTIC PROCESSES
• DIGITAL SIGNAL PROCESSING
• GRADUATE SEMINARS I
• TECHNICAL ELECTIVE

SEMESTER 2

• ADVANCED DIGITAL COMMUNICATION SYSTEMS II
• GRADUATE SEMINARS II
• RESEARCH PREPARATION AND PROPOSAL
• TECHNICAL ELECTIVE
• TECHNICAL ELECTIVE

SEMESTER 3

• GRADUATE RESEARCH
• THESIS WRITING AND PRESENTATION
• TECHNICAL ELECTIVE

Power Systems

SEMESTER 1

• POWER TRANSMISSION LINES
• RENEWABLE ENERGY SOURCES AND SUSTAINABILITY
• POWER SYSTEM ANALYSIS
• GRADUATE SEMINARS I
• TECHNICAL ELECTIVE

SEMESTER 2

• ELECTROMAGNETIC ENERGY CONVERSION
• GRADUATE SEMINARS II
• RESEARCH PREPARATION AND PROPOSAL
• TECHNICAL ELECTIVE
• TECHNICAL ELECTIVE

SEMESTER 3

• GRADUATE RESEARCH
• THESIS WRITING AND PRESENTATION
• TECHNICAL ELECTIVE

Control Systems

SEMESTER 1

• MODERN CONTROL SYSTEMS
• LINEAR SYSTEMS ANALYSIS
• DIGITAL CONTROL SYSTEMS
• GRADUATE SEMINARS I
• TECHNICAL ELECTIVE

SEMESTER 2

• RANDOM VARIABLES AND STOCHASTIC PROCESSES
• GRADUATE SEMINARS II
• RESEARCH PREPARATION AND PROPOSAL
• TECHNICAL ELECTIVE
• TECHNICAL ELECTIVE

SEMESTER 3

• GRADUATE RESEARCH
• THESIS WRITING AND PRESENTATION
• TECHNICAL ELECTIVE

Computer Engineering

SEMESTER 1

• DIGITAL SYSTEM DESIGN
• COMPUTER ORGANIZATION AND ARCHITECTURE
• DATA AND COMPUTER NETWORKS
• GRADUATE SEMINARS I
• TECHNICAL ELECTIVE

SEMESTER 2

• ADVANCED COMPUTER ARCHITECTURE
• GRADUATE SEMINARS II
• RESEARCH PREPARATION AND PROPOSAL
• TECHNICAL ELECTIVE
• TECHNICAL ELECTIVE

SEMESTER 3

• GRADUATE RESEARCH
• THESIS WRITING AND PRESENTATION
• TECHNICAL ELECTIVE

The Program aims to provide the graduates with scientific knowledge, research expertise and competences in order to meet the challenging market needs and prepare them for their professional development in engineering design as well for pursuing graduate studies at the Doctorate (PhD) level.

The main objectives of the Program are to:

1. Develop the students’ capacity to critically think and creatively address advanced Electrical Engineering Topics.
2. Develop the technical written and oral presentation skills of the students in order to effectively disseminate their work in the form of well-structured reports and presentations. 
3. Equip students with postgraduate level knowledge, tools and methodologies on Advanced Electrical Engineering Topics pertinent to three areas of study: generation transmission and distribution of Electric Power via conventional or renewable energy sources, Telecommunication Systems and Automation and Control Systems
4. Equip students with competent skills and experience, developing their ability to engage in the engineering design process via a systematic breakdown of real world problems, identification of design requirements and the utilization of analytical, software and experimental tools for the analysis, design, development and performance evaluation of effective solutions.
5. Develop student awareness on recent advancements, key technologies, future trends and state of the art challenges in Electrical Engineering.
6. Develop the ability of students to continuously learn and self-develop by accessing appropriate information sources as for example textbooks, research articles, online resources and seminars.  
7. Engage students in the research process by successfully applying the research methodology in a guided manner.
8. Engage students in research activities in key technology fields and help them to acquire the required knowledge and develop the necessary skills that will allow them to adapt and evolve in the fast evolving discipline of Electrical Engineering and pursue further Doctoral Studies.
9. Develop the students’ transferable skills needed to ensure a successful academic or professional career in the field of Electrical Engineering,
10. Prepare the students for direct employment after graduation by integrating theory with practice, through activities like work placement and the preparation for certification exams.

Key Learning Outcomes

1. Analyze real world problems in control communication and power systems, identifying their design requirements and develop and evaluate effective solutions by applying the design procedure involving the problem breakdown, modeling and design and performance evaluation.     
2. Identify the theoretical foundations of communications controls and power system analysis theory.
3. Use analytical methods and modelling techniques to evaluate electrical engineering systems (control, communication, power) and components in terms of general quality attributes and possible trade-offs presented within the considered problems.
4. Analyse and design communication systems and key enabling technologies for next generation networked systems. and demonstrate awareness on the capabilities and limitations of existing and emerging communication systems.
5. Evaluate the capabilities and limitations of existing and emerging technologies in the field of power generation, transmission and distribution using sustainable and renewable energy sources.
6. Plan, design and manage industrial electrical power systems, taking into account the integration of information and communication technologies rendering the aforementioned systems “Smart”.
7. Demonstrate awareness on the forefront of knowledge in modern control theory in the field of Automation and Control Systems and how these technologies can be combined with Information and Communication Technologies and Power Systems leading to Intelligent Networks and Cyber-physical Systems. 
8. Design, analyse, optimise and control complex industrial automated systems.
9. Develop competency in the research methodology.
10. Retrieve, analyze and evaluate information from different sources, including information retrieval through databases and on-line computer searches.
11. Demonstrate awareness on the role of engineers in society and the professional and ethical responsibilities of engineers.
12. Report research results and new designs in well-structured written reports and present the obtained results using presentations. 

The language of instruction of the program is English

Occupational Profiles of the Graduates

The graduates of the Program have the knowledge and skills required for the design, implementation, maintenance and administration of electrical systems related to their specialization.

Communication Systems graduates can be employed in public or private sector at internet and cellular communication providers, or communication infrastructure design and maintenance.

Power Systems graduates can seek employment in public or private sector industries related to electric power generation and distribution, companies activating in renewable energy systems, or as electrical engineer in industrial facilities.

Control Systems graduates can be employed in industry as production chain engineers, or in the design and development of automated, remotely controlled systems, and their control panels.

SEMESTER 1

• INTERNATIONAL TRADE AND SHIPPING MANAGEMENT
• INTERNATIONAL MARITIME LAW AND CARRIAGE OF GOODS
• LOGISTICS AND SUPPLY CHAIN MANAGEMENT
• ELECTIVE

SEMESTER 2

• SHIP MANAGEMENT
• RESEARCH METHODS
• COMMODITY TRADES
• ELECTIVE

SEMESTER 3

• DISSERTATION

For centuries, international shipping has been critical to the development of world trade. The inter-relationships between falling transportation costs, economic growth and globalisation are in continual motion as supply chain networks ceaselessly evolve. These elements: shipping, trading patterns and organization are the fundamentals of the programme while the legal, financial, and managerial aspects of trade and transport form the superstructure.

The course delivers a comprehensive integrated overview of the core subjects essential to a thorough understanding of international trade and transport. Specifically, the course aims to develop the generic business skills required by managers working in the area of international trade and maritime business; develop critical analytical skills and apply them to the challenges they continually meet.

The interdisciplinary nature of the programme prepares students as future professionals who can function effectively in the complex business environment of the global marketplace.  The diversity of supporting activities within the highly dynamic trade and maritime industry and its various sectors, consisting of many hundreds of large, medium and small firms, makes this choice possible.  Graduates of this programme will have a variety of career options, including import and export business, ship management, commercial management, insurance, freight forwarding, transportation and logistics, port agency, trade and ship finance, maritime regulation as well as a variety of other administrative posts in the private and public sectors.

The specific objectives of the MSc in International Trade and Shipping Management are that the students:

• have the intellectual skills necessary to contribute to developing strategies for the direction of international transport and trade;
• become familiar with the main theories and practices of international shipping, transport and trade;
• can describe and critically analyse the structures and institutions of managing and organizing sea transport;
• examine the financial risks and opportunities of the trade and transport business environment;
• be able to grasp the import of the legal, economic and regulatory institutions and practices of trade and transport.

Students of the program are also offered the opportunity to focus on an elective group of subjects of their choice, and obtain a ‘concentration’ in one of three areas:

• COMMERCIAL SHIPPING AND TRADE PRACTICES
  Global Trade Practices
  Commercial Management of Ships
• FINANCIAL MANAGEMENT
  Banking and Shipping Finance
  Economics of Sea Transport and International Trade
• OIL AND GAS MANAGEMENT
  Commodity Trading and Risk Management
  Oil and Gas Management

The language of instruction is English.

Key Learning Outcomes

Upon successful completion of this program, the students should be able:

• Develop a comprehensive knowledge of the structures, processes and institutional practices of trade and shipping in the global market place
• Examine the financial risks and opportunities of trade and transport business
• Grasp the importance of the legal, economic and regulatory institutions
• Develop, implement, and promote policies and programmes relevant to the challenges of international trade and shipping management
• Acquire and apply knowledge and critical skills necessary to progress to study for a research degree (MPhil, PhD etc.)

Occupational Profiles of the Graduates

Significant recent developments in the business sectors in Cyprus make both postgraduate Programmes of studies especially relevant. The island is considered to be one of the world’s leading maritime centres and is fast becoming a new European hub for imports and re-exports activities linking Europe with the Far East in ways previously unexplored. At the same time the energy sector in Cyprus is also developing rapidly.

There is a variety of career options upon completion of any of these two Master's Degree Programmes including import and export business, ship owning and ship management, chartering, commercial legal services and consultancy, banking and finance, oil and gas trading and management, insurance, freight forwarding, transportation and logistics, port management, shipping agency, as well as a variety of posts in the public administration and government.

Graduates of these Programmes will be positioned favourably in the local and international market for the newly created employment opportunities. They will be able to undertake managerial, legal and executive responsibilities. Those already in employment are expected to enhance their career prospects and be prepared to face the challenges of a more demanding position.

SEMESTER 1

• INTERNATIONAL TRADE AND SHIPPING MANAGEMENT
• INTERNATIONAL MARITIME LAW AND CARRIAGE OF GOODS
• LOGISTICS AND SUPPLY CHAIN MANAGEMENT
• ELECTIVE

SEMESTER 2

• SHIP MANAGEMENT
• RESEARCH METHODS
• COMMODITY TRADES
• ELECTIVE

SEMESTER 3

• DISSERTATION

For centuries, international shipping has been critical to the development of world trade. The inter-relationships between falling transportation costs, economic growth and globalisation are in continual motion as supply chain networks ceaselessly evolve. These elements: shipping, trading patterns and organization are the fundamentals of the programme while the legal, financial, and managerial aspects of trade and transport form the superstructure.

The course delivers a comprehensive integrated overview of the core subjects essential to a thorough understanding of international trade and transport. Specifically, the course aims to develop the generic business skills required by managers working in the area of international trade and maritime business; develop critical analytical skills and apply them to the challenges they continually meet.

The interdisciplinary nature of the programme prepares students as future professionals who can function effectively in the complex business environment of the global marketplace.  The diversity of supporting activities within the highly dynamic trade and maritime industry and its various sectors, consisting of many hundreds of large, medium and small firms, makes this choice possible.  Graduates of this programme will have a variety of career options, including import and export business, ship management, commercial management, insurance, freight forwarding, transportation and logistics, port agency, trade and ship finance, maritime regulation as well as a variety of other administrative posts in the private and public sectors.

The specific objectives of the MSc in International Trade and Shipping Management are that the students:

• have the intellectual skills necessary to contribute to developing strategies for the direction of international transport and trade;
• become familiar with the main theories and practices of international shipping, transport and trade;
• can describe and critically analyse the structures and institutions of managing and organizing sea transport;
• examine the financial risks and opportunities of the trade and transport business environment;
• be able to grasp the import of the legal, economic and regulatory institutions and practices of trade and transport.

The language of instruction is English.

Key Learning Outcomes

Upon successful completion of this program, the students should be able:

• To demonstrate a comprehensive knowledge and understanding of the structures, processes and institutional practices of trade and shipping in the global marketplace.
• To act as fully developed professionals who are capable of developing, implementing, and promoting activities relevant to international trade and shipping management, as well as the interaction of these with the world economic and financial systems.
• To demonstrate the appropriate knowledge and research background and tools should they wish to proceed to a research degree (MPhil, PhD etc.)
• To establish collaborative networks with other universities for the promotion of research and academic dialogue through student and academic staff exchange programmes, as a means of acquiring experience, achieving effective exploitation of research results, good practice examples and innovation.
• To strengthen the communication and information exchange channels among working groups, universities and other centres who study trade and transportation issues, locally, peripherally, and globally.

Occupational Profiles of the Graduates

Graduates are expected to be in a position to assume executive and managerial responsibilities. Graduates already in employment are expected to enhance their career prospects and be prepared to face the challenges of a more demanding position within import and export business, ship management, underwriting, freight forwarding, port agency, ship broking, trade and ship finance, as well as a variety of other administrative posts in the private and public sectors.

SEMESTER 1

• MARITIME SAFETY AND REGULATORY FRAMEWORK
• SHIP MACHINERY AND SYSTEMS
• SHIP ELECTRICAL SYSTEMS AND COMPONENTS
• SHIP PERFORMANCE AT SEA

SEMESTER 2

• MARINE SYSTEMS MONITORING, AUTOMATION AND CONTROL
• COMMERCIAL MANAGEMENT OF SHIPS
• RESEARCH SKILLS FOR MSC THESIS PREPARATION AND PROPOSAL
• ELECTIVE

SEMESTER 3

• MSC THESIS

Approximately 90% of the international trade in goods by volume is currently carried by sea, despite the development of other means of transport. Today’s seas are dotted with oil, cargo and passenger ships that are magnificently huge and complex. Most, if not all countries with strong economies have bustling and modernised ports. It is therefore imperative that stakeholders ensure the safe and efficient operation of ships; any technical failure or human error can cause a delay in shipment arrival dates and affect the business reputation and profit margins, more importantly it can cause precious lives. Moreover, the radical technological developments alongside increased environmental regulations require ship operators and managers with advanced technical as well as leadership and managerial skills and knowledge.

This MSc Programme is unique in Cyprus and one of the few of its type globally. The degree combines marine engineering and management and provides you with the necessary skill set to work in executive posts in the modern maritime and industrial world. It is a major step towards the provision of an integrated approach to engineering and management education. More specifically, the core curriculum covers major marine engineering and management subjects and offers options for specialised shipping and commercial knowledge.

You may also combine this MSc study with the acquisition of the professional international licence of the “Engineer Officer of the Watch" (EOOW) thereby acquiring valuable professional marine qualifications and experience. This attainment is highly regarded by shipping companies.

You can attend and complete the requirements of both the MSc Academic Degree and the EOOW Professional Qualification within a period of approximately 18 months.

The Programme includes, among others, the subjects of:

Fundamentals of Marine Engineering, Marine Mechanical Systems Construction and Maintenance, Marine Electrical Equipment Construction and Maintenance, Ship Performance at Sea and Maritime Safety, Marine Machinery Monitoring and Maintenance Modelling, Commercial  Management  of  Ships,  International  Maritime Law, Logistics and supply chain management. The aforementioned subjects are at the heart of the Programme and constitute an outstanding curriculum of academic credentials that is useful for any engineer who wishes to specialise in the shipping industry.

A wide range of opportunities, in demanding and challenging posts, is available to prospective graduates. The diversity of the maritime sector and subsector activities (forming the maritime industry), as well as of the world trade and transport includes many hundreds of large, medium and small firms (and many thousands operating internationally) all of them relying in varying degrees upon skilled and versatile professionals. In this context, our Programme has been carefully considered and designed to produce professionally competent and skillful engineers that are able to work at management and executive levels.

Indicatively, the sectors of society and the economy that will benefit from the added value of this Programme’s graduates are:

• Ship management companies
• Marine engineering firms
• Naval forces
• Offshore oil and gas industries
• Architectural and boat-building firms
• Transportation companies
• Shipyards
• Ports
• Scientific services
• Marine consultancy and survey agencies

It should be noted that the prospects of employment for the graduates of this Programme are excellent as shipping / ship management companies have a high demand for well-educated and trained marine engineers. Cyprus, as an established EU Member, is among the top maritime countries in the world and is already an established maritime and commercial business hub.

The marine engineers are highly favoured for employment in other associated marine industries, such as company superintendents, surveying, insurance and shipbroking. They are also highly favoured for other employment and career paths in industry besides the shipping industry. Amongst many, these include power stations, hospital engineering, and production line engineering.

All those need to be able to draw upon the same pool of well-educated people. It is also worth mentioning that the Programme is unique in Cyprus and one of the few offered worldwide.

Oil & Gas Engineering

SEMESTER 1

• INTRODUCTION TO OIL & GAS AND OFFSHORE ENGINEERING
• COMPUTATIONAL MECHANICS AND APPLICATIONS
• PROCESS ENGINEERING
• SEMINARS I
• ELECTIVE

SEMESTER 2

• PROCESS MODELING AND SIMULATION
• LNG PROCESSING, STORAGE, TRANSPORT, RE-GASIFICATION, DISTRIBUTION AND USAGE
• RESEARCH PROPOSAL
• SEMINARS II
• ELECTIVE

SEMESTER 3

• MSC THESIS
• ELECTIVE

Offshore Engineering

SEMESTER 1

• COMPUTATIONAL MECHANICS AND APPLICATIONS
• COMPUTATIONAL MECHANICS AND APPLICATIONS
• ADVANCED OFFSHORE HYDRODYNAMICS AND WAVE MECHANICS
• SEMINARS I
• ELECTIVE

SEMESTER 2

• ANALYSIS AND DESIGN OF OFFSHORE MOORING SYSTEMS
• STRUCTURAL DYNAMICS AND DESIGN PRINCIPLES OF OFFSHORE STRUCTURES
• RESEARCH PROPOSAL
• SEMINARS II
• ELECTIVE

SEMESTER 3

• MSC THESIS
• ELECTIVE

Petroleum Engineering

SEMESTER 1

• INTRODUCTION TO OIL & GAS AND OFFSHORE ENGINEERING
• DRILLING, RESERVOIR AND WELL ENGINEERING
• COMPUTATIONAL GEO-MECHANICS AND APPLICATIONS
• SEMINARS I
• ELECTIVE

SEMESTER 2

• PETROLEUM GEOLOGICAL FORMATIONS AND RESERVOIR CHARACTERIZATION
• MODELING AND SIMULATION METHODS IN PETROLEUM ENGINEERING
• RESEARCH PROPOSAL
• SEMINARS II
• ELECTIVE

SEMESTER 3

• MSC THESIS
• ELECTIVE

The proposed MSc program places special emphasis on scientific research. It seeks to foster and embrace entirely new ideas and novel approaches to scientific discovery in the field of fossil fuels exploration and offshore constructions.

Further, the various areas of emphasis in the program aim to guide students into fields of study that are considered to be new in the Eastern Mediterranean region and offer significant opportunities for engaging in innovative research activities and learning. Specifically, issues incorporated in courses such as “Computational Mechanics and Applications”, “System Dynamics and Control“, “Process Modeling and Simulation“, “Analysis and Design of Offshore Mooring Structures“, provide important opportunities for MSc students to be involved with the various research activities that take place in Frederick University, as well as in other institutions worldwide. Through such course-interactions, students will also acquire valuable experience by developing and implementing their own research projects.

The fact that issues related to fossil fuels exploration have still not been investigated in Cyprus offers a unique opportunity to students to conduct research that can result in useful deliverables regarding the promotion and establishment of energy in all educational and social levels.

Similarly, the implementation of the MSc program is expected to enhance the existing opportunities for research concerning, sustainable construction, fossil energy resources exploitation, as well as social, political, environmental and economical dimensions of energy exploration and offshore construction. The interdisciplinary approach of the program will also be reflected in the creation of interdisciplinary research groups, facilitated by the program operation. These groups will be formed by local and international scientists and specialists contributing to the proposed program. Their knowledge will also be engaged for the development of competitive research proposals and establishment of multiple collaborations with other academic and research institutions, for obtaining research funds from local, European and international funding agencies.

Furthermore, the necessity for a chance of Cypriots to specialize and be involved in the Oil & Gas & Offshore Engineering industry with the latest discoveries of Oil & Gas in the Exclusive Economic Zone of Cyprus provides a competitive advantage and a real necessity to train engineers to be employed in this rapidly new and growing industry here in Cyprus.

Specializations in the MSc in Oil & Gas Engineering and Offshore Engineering

Overall, the proposed program is unique in Cyprus, addresses important needs of the society generated by the advancements in the energy sector and fossil fuel discoveries in Cyprus, provides unique and invaluable training and knowledge to young scientists in the domain of downstream, midstream and upstream oil and gas industry, and opens significant and substantial research opportunities for growth and specialisation in the specific domain.

The program covers the full breadth of concentrations related to the industry and this is reflected in the three specializations it maintains. For each specialization different program structures are maintained so as to reflect the different needs.

1. Oil & Gas Engineering specialization, with emphasis in the downstream
2. OffShore Engineering specialization, with emphasis in the midstream
3. Petroleum Engineering specialization, with emphasis in the upstream

The language of instruction is English and the program is academic.

Key Learning Outcomes

Upon successful completion of this program, the students should be able to:

1. Demonstrate a broad knowledge of the Oil & Gas and Offshore engineering and of the technological and financial evolution of the relevant industry.
2. Demonstrate familiarity with the content and philosophy of the European and Cypriot legislative framework on Oil & Gas and Offshore industry and to relate to the processes and factors that lead to its development.
3. Explain the contemporary global, regional and local Oil & Gas and Offshore engineering issues and develop systemic, critical and creative thinking about their impact on economic activities.
4. Demonstrate skills and experiences necessary for engineers to lead the fields of oil & gas extraction, processing, storage and exploitation, in efficient and clean power generation technologies and of rational use of energy.
5. Demonstrate knowledge and competences related with the procedures, instrumentation and analysis needed to enforce pertinent legislation, enhance the issuance of energy-related certification, and better facilitate the environmental labelling procedure and perform feasibility analysis.
6. Demonstrate awareness on safety and environmental concerns surrounding the oil & gas industry.
7. Describe the organisational, political and entrepreneurial aspects of the industry.
8. Use effectively state-of-the-art software tools for oil & gas engineering and offshore technologies.

Occupational Profiles of the Graduates

Oil & Gas and Offshore Engineering is a new postgraduate educational field in Cyprus. However, recent discoveries of hydrocarbon reserves, such as natural gas and potential petroleum reserves in the Economic Zone of Cyprus, as well as in neighbouring countries have sparked immense interest in the above area, providing Cyprus with a unique opportunity to become an energy exporter for the European Union and beyond.

In turn this program has been formed to equip new and older graduate engineers with the necessary technical expertise and knowledge to be able to immerse themselves in this industry, by covering all midstream and downstream, production, and downstream aspects of Oil & Gas and Offshore Engineering.

The MSc in Oil & Gas and Offshore engineering program is of a multidisciplinary nature, with Oil & Gas Engineering encompassing Mechanical, Chemical, Electrical, and Environmental Engineering, and with Offshore Engineering encompassing Civil, Mechanical and Marine Engineering.

The above program consists of three directions which are reflected in the three specializations, namely

1. the Downstream Oil & Gas engineering including, processing, production and exploitation of oil & gas
2. the Midstream Oil & Gas engineering including systems and structures such as fixed and floating platforms, undersea robots, pipelines and other underwater equipment.
3. the Upstream Oil & Gas engineering which includes elements of geomechanics, petroleum formations and reservoir characterizations, and drilling and well engineering.

Finally, the MSc candidates, having graduated from the MSc program, will have realistic and many opportunities to work in the oil and gas industry here in Cyprus and in the Middle East, especially now with the rapid oil & gas discoveries in the Mediterranean region.

The graduates of the Program have the knowledge and skills required for the design, implementation, maintenance and administration of oil & gas and offshore engineering systems related to their specialization.

Examples of employment for the graduates of the MSc include:

1. Inspectors at drill sites for health and safety and environmental purposes
2. Engineers at the processing plants (Process Engineers)
3. Facilities Managers
4. Energy/Power regulators
5. Engineers for offshore structures and other supporting infrastructure (pipelines etc.)
6. Drilling and Reservoir Engineers and Supervisors
7. Technical Process Safety and Risk Engineers
8. Electrical and instrumentation engineers
9. Reservoir planning engineers
10. Policy makers (public sector)
    • Energy service
    • Electricity Authority of Cyprus
    • Public Business of Natural Gas (ΔΕΦΑ)

SEMESTER 1

• COMPUTATIONAL MECHANICS AND APPLICATIONS
• ADVANCED STRUCTURAL DYNAMICS
• ADVANCED TOPICS IN CONCRETE STRUCTURES
• ADVANCED TOPICS IN STEEL STRUCTURES
• SEMINAR SERIES I

SEMESTER 2

• FRACTURE MECHANICS AND APPLICATIONS
• EARTHQUAKE RESISTANT DESIGN OF STRUCTURES
• GEOTECHNICAL ANALYSIS
• SEMINAR SERIES II
• MSC RESEARCH PROJECT

SEMESTER 3

• MSC THESIS
• TECHNICAL ELECTIVE

The MSc in Structural Engineering program of study provides the opportunity to Civil, and other relevant engineering degree holders a fast-track approach towards a professional career in the area of Structural Engineering as it applies to Civil Engineering structures. This is a highly concise and practical program geared towards providing the state-of-the-art skills necessary for immediate entering or reentering practice at the highest level. The MSc in Structural Engineering aims to provide further technical knowledge in the area of structural engineering and it is intended to provide the educational platform to encourage the development of competent, confident, articulate, numerate and inquisitive postgraduates who are able to link theory with practice; hence postgraduates can look forward to playing a leading role in the profession providing for the safety and welfare of the public.

The program covers fundamental and modern structural engineering subjects providing a combination of analytical and design topics as well as experimental techniques and the use of computers reflecting current and likely future practice. The analytical work will include the theoretical framework of the matrix methods and the use of modern structural analysis software leading to the development of problem solving skills for the analysis of complex engineering structures. The design-related subjects will be taught in accordance with the latest European and national regulatory and legal framework (Euro codes), which provide the most up-to-date specialized knowledge and technical competences.

The successful completion of the program requires the completion of a thesis covering a topic related to structural engineering. The research activities involve combinations of experimental, numerical and theoretical work. Research will be promoted by means of encouraging the development of collaboration networks between the university and other academic and social partners on a local, regional (Mediterranean) and international level. The establishment of such networks is critical as a means of acquiring experience, achieving effective exploitation of research results, good practice examples and innovation.

The language of instruction is English.

Key Learning Outcomes

Upon successful completion of this program, the students should be able to:

1. Acquire the ability and skills to analyze and design civil engineering structures as professional Structural Engineers
2. Provide the engineering and scientific background for further studies or research
3. Provide further knowledge of engineering principles and develop an ability to interpret and evaluate structural engineering problems
4. Obtain an in depth comprehension of the European and national regulatory and legal framework (Euro codes and National Annexes)
5. Develop detailed knowledge on the assessment of the structural integrity of buildings
6. Understand the techniques of structural modelling and use a significant range of analysis and design software skills
7. Understand the properties and applications of modern materials, equipment and methods of construction of civil engineering structures
8. Evaluate the dynamic and earthquake behavior of structures
9. Design and create innovative structural configurations
10. Plan and execute a significant project of research, investigation or development within the context of structural engineering
11. Critically review existing practice and develop original and creative solutions to problems
12. Communicate and work effectively with peers and academic staff in a variety of tasks, demonstrating appropriate levels of autonomy and responsibility
13. Be capable of using research results in education, within their professional environments and in society
14. Work independently to acquire knowledge, review and evaluate current research results and conduct individual research
15. Be able to gather information about the main local and international funding opportunities for participating in research consortiums and funded research

Occupational Profiles of the Graduates

The MSc in Structural Engineering is developed to meet the needs for education in the field of structural engineering by providing the skills needed to key professionals, who are or will be active in the private sector, in governmental institutions and local authorities and as consultant engineers.

Specifically, the proposed program will provide the skills for:

1. Engineers who have recently completed their Bachelor studies in Civil Engineering or a related engineering discipline and seek a higher and focused education before entering the market
2. Engineers who have recently completed their Bachelor studies in civil engineering or a related engineering discipline and seek to get involved in research and acquire an MSc before pursuing a PhD degree
3. Engineers who wish to engage in consulting in structural engineering
4. Professionals with experience in the field, who wish to extend their knowledge and place emphasis on the topics covered by the programme
5. Professionals from public and semi-public organisations, whose work is related to structural engineering and related legislation

SEMESTER 1

• INTRODUCTION TO ENERGY TECHNOLOGY SYSTEMS
• RENEWABLE ENERGY
• SUSTAINABLE BUILT ENVIRONMENT
• PROGRAM SEMINAR SERIES I
• ELECTIVE

SEMESTER 2

• ENERGY DESIGN OF BUILDINGS AND AUDITS
• PROGRAM SEMINAR SERIES II
• ELECTIVE
• ELECTIVE
• ELECTIVE

SEMESTER 3

• MSC THESIS PREPARATION
• MASTER THESIS

The MSc programme is a taught multi disciplinary international programme suitable for applicants from engineering, architecture, planning and other relevant backgrounds, intended to incorporate the latest developments not only in the international scientific field, but also in the European and national regulatory and legal framework.

The students will be introduced to power generation and management technologies, to oil and gas exploration and exploitation technologies, to energy demand management, to environmental impact assessment and to emissions trading. They will obtain the expertise to become active professionals in the broader energy sector, including stakeholders in the electricity and gas market, they will be able to work for and to co-operate with public and local authorities and the energy regulator and the transmission system operator and also to provide consulting services in all these fields.

Also, students will be introduced to the principles and tools of energy and environmental design of buildings, and, by learning to use powerful computer modelling and simulation techniques, they will obtain the expertise to participate in the design process of buildings.

Students will also be acquainted with laboratory and in-situ methods for measuring, monitoring and evaluating the energy efficiency of building systems, of buildings, of renewable and conventional energy systems and of indoor environmental quality conditions, in accordance to legal and best-practice requirements, so as to be able to carry out energy renovation, retrofitting and refurbishment projects. Furthermore, they will learn to evaluate, by means of applying standards and models, the environmental performance of buildings, as needed in order to implement the environmental labelling schemes.

The language of instruction is English.

Key Learning Outcomes

1. Demonstrate awareness of the content and philosophy of the European and Cypriot legislative framework on energy and relate to the processes and factors that lead to its development;
2. analyse the contemporary global, regional and local energy issues and develop systemic, critical and creative thinking about their impact on economic activities;
3. demonstrate  knowledge and core skills in rational use of energy sources, conventional (oil & gas) and renewable ones, in the power generation field and in the energy management, in the energy design of buildings and in achieving high energy efficiency of new and existing buildings;
4. explain the economics of energy, including the security of supply aspects, environmental costs and other externalities;
5. assess the performance of buildings and power production sites; enforce pertinent legislation, enhance the issuance of energy-related certification, and better facilitate the environmental labelling procedure and perform feasibility analysis;
6. implement the range of European Directives  and national legislative acts in the energy and building sector and in the efficient use of conventional and renewable energy resources;
7. plan and execute a significant project of research, investigation or development in a specialist area within the energy sector, demonstrating extensive, detailed and critical understanding;
8. critically review existing practice and develop original and creative solutions to problems within the energy sector and the domain addressed by the programme, incorporating the marketing approach in order to capitalize on the solutions developed;
9. communicate and work effectively with peers and academic staff in a variety of tasks, demonstrating appropriate levels of autonomy and responsibility.
10. use effectively state-of-the-art software tools for energy design of buildings, for dynamic simulation of the building’s performance, for the evaluation of thermal comfort and indoor air quality conditions and for the optimization of energy systems’ selection and sizing;
11. gather information about the main local and international funding opportunities for improving the energy efficiency of residential, commercial and public buildings and infrastructure;
12. demonstrate the necessary knowledge so that they can become chartered in the professional chambers and association;
13. use research results in education, within their professional environments and in society.

Occupational Profiles of the Graduates

The Programme is designed to stimulate and encourage novel and imaginative solutions with respect to their implementation in a real market and a rapidly developing economic environment, surrounding the energy sector and the built environment. The Programme involves theoretical and hands-on learning methods aiming at producing skilled professionals who will be able to effectively enter the competitive European market of energy experts. Graduates of the program acquire a strong qualification that assists them in the professional progress.

The degree greatly enhances the employability of our graduates in public and semi-public organisations, whose work is related to the implementation of energy and environment related legislation and to the operation of the energy market, or in the power generation, the construction and the building materials industries.

The implementation of the Energy Performance Directive in Buildings in 2010 in Cyprus was followed by the increasing demand for more energy efficient buildings, which at the same time ensure a high level of indoor environmental quality. Buildings have to be characterized by the respective energy and environmental studies and certifications and this sets new challenges for engineers and architects, opening at the same time new professional opportunities in the European market for energy professionals. Further, in light of the new developments of oil & gas exploration in the Exclusive Economic Zone of Cyprus, and the immediate needs of providing skilled engineers to support the whole planning and operation, the Degree will allow our Graduates to first penetrate the area and become leaders in this effort.

Smart Systems

SEMESTER 1

• COMPUTER NETWORKS
• WEB ENGINEERING
• UBIQUITOUS COMPUTING

SEMESTER 2

• DISTRIBUTED AND CLOUD COMPUTING
• REASEARCH METHODOLOGY AND THESIS PLANNING
• SPECIALIZATION COURSE

SEMESTER 3

• MASTER THESIS
• SPECIALIZATION COURSE

Web Systems

SEMESTER 1

• COMPUTER NETWORKS
• WEB ENGINEERING
• UBIQUITOUS COMPUTING

SEMESTER 2

• DISTRIBUTED AND CLOUD COMPUTING
• REASEARCH METHODOLOGY AND THESIS PLANNING
• SPECIALIZATION COURSE

SEMESTER 3

• MASTER THESIS
• SPECIALIZATION COURSE

In the past decade, the developments experienced by the advancements of the Internet and the World Wide Web have been monumental for the Information Technology domain, as well as the society in general. Additionally, in recent years we have experienced an explosion of computational capabilities, not only from traditional computing machines (i.e. computers) but also from a wide variety of other devices such as mobile smart phones, tablets and several other autonomous smart devices. Furthermore, the developments in cloud computing and the integration of the whole spectrum of smart devices with the internet (Internet of Things) leads to the enchantment of existing information technology applications and to the creation of new areas of applications.

All these developments call for the existence of scientists and engineers that are adequately trained in the relevant technologies and have a deep knowledge of their interrelationships and the challenges that lie ahead.

The above realization constitutes the core motivation and forms the rationale behind the design and the development of the proposed program.

As its name implies, the program offers two specializations: (a) the Web Systems specialization, and (b) the Smart Systems specialization.

Aim of the Program:

The aim of the proposed program is to develop graduates that exhibit in-depth knowledge and advanced skills of the technologies relevant to web applications and smart systems. By the end of this program, graduates will master the knowledge required to design and implement efficient and effective solutions utilizing existing and emerging web and/or smart systems.

An equally important aim is that, through the program, the University will be able to strengthen its research activity in this fast evolving field and become a leading research institution in the area.

Specific Objectives

The main objectives of the program are to provide its graduates with in-depth knowledge and skills that will enable them to:

1. Master the methodologies, tools and technologies related to the development of web and smart systems, such as networking, web engineering, ubiquitous computing as well as distributed and cloud computing.
2. Demonstrate specialized knowledge and expertise in web systems with emphasis on human computer interaction and interactive system design, data mining, big data and analytics. (Web Systems Specialization only).
3. Demonstrate specialized knowledge and expertise in smart systems with emphasis on communications and security for smart systems, embedded systems, sensors and actuator technology for smart system applications. (Smart Systems Specialization only).
4. Work effectively as an individual, or within a team, in multi-disciplinary settings together with the capacity to undertake lifelong learning
5. Continue to study in a manner that may be largely self-directed and autonomous
6. Engage in research and communicate their findings and conclusions to specialists, and non-specialists clearly and unambiguously.

The language of instruction is English.

Key Learning Outcomes

Upon successful completion of this program, the students should be able to:

1. Master the methodologies, tools and technologies involved in the analysis, development and evaluation of web enabled applications and their interactions.
2. Master the methodologies, tools and technologies involved in the analysis, development and evaluation of applications of ubiquitous computing with emphasis on mobile devices, such as smart phones.
3. Exploit the underlying networking technologies that enable web and smart system applications, and demonstrate awareness on the recent networking developments and emerging technologies.
4. Recognize the role of cloud computing underlying technologies related to parallel and distributed computing, distinguish between the main cloud computing platforms and develop cloud based applications.
5. Critically evaluate various technologies and solution alternatives, within the context of web and smart systems, and identify the advantages and disadvantages of each.
6. Demonstrate the capacity to adapt to new technologies in the relevant fields and establish the connections and relations with existing ones
7. Communicate with other disciplines related in the field including engineering, business administration, graphic and web design.
8. Demonstrate awareness of the open challenges and research questions in the field.
9. Demonstrate the ability to understand and use technical literature and other information sources.
10. Conduct independent research in relevant fields, develop informed opinions and synthesize knowledge to report findings.
11. Think critically and reflectively on the capacity of the capabilities and limitations of data analysis and knowledge generation from distributed information systems.
12. Engage in critical thinking and problem solving in the specific domain of interest of the program

Specialization Specific Learning Outcomes (Web Systems):

Upon successful completion of this program, the students should be able to:

1. Gain sufficient theoretical knowledge and analytical skills to design and develop web and mobile applications using a structured approach.
2. Demonstrate an understanding on cutting edge web technologies and apply them for the development of advanced and complex web applications.
3. Extend critical awareness of the issues and challenges associated with ubiquitous computing, enhance the understanding on mobile systems and creatively design and develop mobile applications using various smartphone application development platforms.
4. Demonstrate an understanding on the theoretical dimension of human factors in the acceptance of computer interfaces and identify the impact of usable interfaces in the performance of mobile and web systems.
5. Evaluate and select the appropriate data mining methodology, where data mining is required or beneficial, for investigating practical web and mobile application challenges and critically analyse and evaluate the results.
6. Evaluate and select a systematic software reuse methodology in order to increase software productivity and improve software quality of an organization so as to successfully plan, manage, change and evolve any software project, for the development of applications on diverse platforms; desktop, mobile & web.
7. Identify sources of data, collect, and store data using appropriate big data related platforms, as well as process, analyse and summarize data to achieve breakthrough outcomes for organisations using data analytics methods.

Specialization Specific Learning Outcomes (Smart Systems):

Upon successful completion of this program, the students should be able to:

1. Design and develop smart system applications incorporating embedded systems and mobile devices as stand-alone systems or integrated with the web and the cloud.
2. Evaluate and select the appropriate embedded system technology (hardware and operate system) to meet specific strict requirements related to real time systems, fault tolerance and power consumption.
3. Integrate existing embedded system technology with custom designed systems using reconfigurable computing techniques and field programmable hardware (FPGAs).
4. Evaluate and select the appropriate sensors and actuators for smart system applications, to meet specific strict requirements. 
5. Evaluate and select the appropriate communication technology for smart system applications.
6. Demonstrate an understanding of the recent developments related to the Internet of Things (IoT), Machine-to-Machine (M2M) Communications, Smart Transportation Systems (STSs), and Vehicular Networks (VANETs) in Smart City Systems.
7. Assess the security concerns and impact that mobile and web systems intrinsically incorporate and argue on policies to alleviate them

Occupational Profiles of the Graduates

A large percentage of graduates of the MSc in Mobile and Web Systems program are expected to pursue careers in web application development and integration of applications with mobile devices, which is a rapidly growing section in organizations involved with software development. They are also likely to be employed in telecommunications companies, where a shift into the support of application-level services is present (see for example the establishment of CYTACOM by CYTA).

Graduates can also be employed in computer network related jobs and are also capable of obtaining employment in ICT departments of medium and large organizations and software houses.

The MSc in Web and Smart Systems is supported by the Mobile Device Laboratory (MDL)

Web Systems

SEMESTER 1

• COMPUTER NETWORKS
• WEB ENGINEERING
• UBIQUITOUS COMPUTING

SEMESTER 2

• DISTRIBUTED AND CLOUD COMPUTING
• MASTER THESIS I - PLANNING
• SPECIALIZATION COURSE

SEMESTER 3

• MASTER THESIS II
• SPECIALIZATION COURSE
   

Smart Systems

SEMESTER 1

• COMPUTER NETWORKS
• WEB ENGINEERING
• UBIQUITOUS COMPUTING

SEMESTER 2

• DISTRIBUTED AND CLOUD COMPUTING
• MASTER THESIS I - PLANNING
• SPECIALIZATION COURSE

SEMESTER 3

• MASTER THESIS II
• SPECIALIZATION COURSE

In the past decade and especially in the past few years during the COVID-19 global pandemic, the developments experienced by the advancements of the Internet and the World Wide Web have been monumental for the Information Technology domain, as well as the society in general. Additionally, in recent years we have experienced an explosion of computational capabilities, not only from traditional computing machines (i.e. computers) but also from a wide variety of other devices such as mobile smart phones, tablets and several other autonomous smart devices. Furthermore, the developments in cloud computing and the integration of the whole spectrum of smart devices with the internet (Internet of Things) leads to the enchantment of existing information technology applications and to the creation of new areas of applications.

All these developments call for the existence of scientists and engineers that are adequately trained in the relevant technologies and have a deep knowledge of their interrelationships and the challenges that lie ahead.

The above realization constitutes the core motivation and forms the rationale behind the design and the development of the proposed program.

Aim of the Program:

The aim of the proposed program is to develop graduates that exhibit in-depth knowledge and advanced skills of the technologies relevant to web applications and smart systems. By the end of this program, graduates will master the knowledge required to design and implement efficient and effective solutions utilizing existing and emerging web and/or smart systems.

An equally important aim is that, through the program, the University will be able to strengthen its research activity in this fast-evolving field and become a leading research institution in the area.

Objectives of the Program:

The main objectives of the program are to provide its graduates with in-depth knowledge and skills that will enable them to:

• Master the methodologies, tools and technologies related to the development of web and smart systems, such as networking, web engineering and ubiquitous computing.
• Demonstrate specialized knowledge and expertise in web and smart systems with emphasis on distributed and cloud computing, human computer interaction and interactive system design, data mining, big data analytics, communications of smart systems, embedded systems, smart sensors and actuators as well as artificial intelligence and IoT applications.
• Work effectively as an individual, or within a team, in multi-disciplinary settings together with the capacity to undertake lifelong learning.
• Continue to study in a manner that may be largely self-directed and autonomous.
• Engage in research and communicate their findings and conclusions to specialists, and non-specialists clearly and unambiguously

Key Learning Outcomes

Program Generic Learning Outcomes

1. Master the methodologies, tools and technologies involved in the analysis, development and evaluation of web enabled applications and their interactions.
2. Master the methodologies, tools and technologies involved in the analysis, development and evaluation of smart devices and systems.
3. Exploit the underlying networking technologies that enable web and smart system applications and demonstrate awareness on the recent networking developments and emerging technologies.
4. Recognize the role of cloud computing underlying technologies related to parallel and distributed computing, distinguish between the main cloud computing platforms and develop cloud-based applications.
5. Critically evaluate various technologies and solution alternatives, within the context of web and smart systems, and identify the advantages and disadvantages of each.
6. Demonstrate the capacity to adapt to new technologies in the relevant fields and establish the connections and relations with existing ones.
7. Think critically and reflectively on the capacity of the capabilities and limitations of data analysis and knowledge generation from distributed information systems.
8. Engage in critical thinking and problem solving in the specific domain of interest of the program.
9. Communicate with other disciplines related in the field including engineering, business administration, graphic and web design.
10. Demonstrate awareness of the open challenges and research questions in the field.
11. Demonstrate the ability to understand and use technical literature and other information sources.
12. Conduct independent research in relevant fields, develop informed opinions and synthesize knowledge to report findings.

Specialization Specific Learning Outcomes (Web Systems)

Upon successful completion of this program, the students should be able to:

1. Gain sufficient theoretical knowledge and analytical skills to design and develop web and mobile applications using a structured approach.
2. Demonstrate an understanding on cutting edge web technologies and apply them for the development of advanced and complex web applications.
3. Extend critical awareness of the issues and challenges associated with ubiquitous computing, enhance the understanding on mobile systems and creatively design and develop mobile applications using various smartphone application development platforms.
4. Demonstrate an understanding on the theoretical dimension of human factors in the acceptance of computer interfaces and identify the impact of usable interfaces in the performance of mobile and web systems.
5. Evaluate and select the appropriate data mining methodology, where data mining is required or beneficial, for investigating practical web and mobile application challenges and critically analyse and evaluate the results.
6. Evaluate and select a systematic software reuse methodology in order to increase software productivity and improve software quality of an organization so as to successfully plan, manage, change and evolve any software project, for the development of applications on diverse platforms; desktop, mobile & web.
7. Identify sources of data, collect, and store data using appropriate big data related platforms, as well as process, analyse and summarize data to achieve breakthrough outcomes for organisations using data analytics methods.

Specialization Specific Learning Outcomes (Smart Systems)

Upon successful completion of this program, the students should be able to:

1. Design and develop smart system applications incorporating embedded systems and mobile devices as stand-alone systems or integrated with the web and the cloud.
2. Evaluate and select the appropriate embedded system technology (hardware and operate system) to meet specific strict requirements related to real time systems, fault tolerance and power consumption.
3. Integrate existing embedded system technology with custom designed systems using reconfigurable computing techniques and field programmable hardware (FPGAs).
4. Evaluate and select the appropriate sensors and actuators for smart system applications, to meet specific strict requirements. 
5. Evaluate and select the appropriate communication technology for smart system applications. 
6. Demonstrate an understanding of the recent developments related to the Internet of Things (IoT), Machine-to-Machine (M2M) Communications, Smart Transportation Systems (STSs), and Vehicular Networks (VANETs) in Smart City Systems.
7. Assess the security concerns and impact that mobile and web systems intrinsically incorporate and argue on policies to alleviate them

Graduates’ employability prospects

The graduates of the Program have the knowledge and skills required for the design, implementation, maintenance and administration of web or smart systems related to their specialization.

Graduates of the program are expected to be employed both in and out the IT sector, such as software companies, ICT departments of medium and large organizations (private and public), research and innovation organizations, or work as independent consultants or developers. Jobs directly associated with this program include: application developer, web engineer/designer/developer, cloud engineer, software engineer, IT consultant, embedded and smart systems/solutions engineer/developer. The MSc in Web and Smart Systems also provide graduates the eligibility for scientific postgraduate doctoral level studies.

Manufacturing Engineering Design

SEMESTER 1

• DESIGN AND MANUFACTURING
• ADVANCED CAD/CAM SYSTEMS
• ADVANCED MATERIALS AND APPLICATIONS
• GRADUATE SEMINARS I
• DESIGN OF WELDED STRUCTURES

SEMESTER 2

• ADVANCED MANUFACTURING PROCESS
• SURFACE ENGINEERING AND COATINGS
• RAPID PRODUCT DEVELOPMENT
• ADVANCED ENGINEERING DESIGN

SEMESTER 3

• RESEARCH PREPARATION AND PROPOSAL
• GRADUATE RESEARCH
• THESIS WRITING AND PRESENTATION

Welding Engineering Design

SEMESTER 1

• DESIGN AND MANUFACTURING
• ADVANCED CAD/CAM SYSTEMS
• ADVANCED MATERIALS AND APPLICATIONS
• GRADUATE SEMINARS I
• DESIGN OF WELDED STRUCTURES

SEMESTER 2

• WELDING PROCESSES AND EQUIPMENT
• WELDING METALLURGY AND WELD QUALITY
• ADVANCED WELDING PROCESSES
• WELDING SYSTEMS AND RESEARCH METHODS

SEMESTER 3

• RESEARCH PREPARATION AND PROPOSAL
• GRADUATE RESEARCH
• THESIS WRITING AND PRESENTATION

The aim of this MSc programme is to provide this advanced knowledge and scientific background such that our engineering graduates, based on the knowledge gained from this programme, can enter the mechanical engineering industry successfully and use this knowledge to slowly become experts in certain active areas or disciplines.

Furthermore, this MSc programme will broaden, strengthen and integrate knowledge and understanding regarding advanced engineering industry processes. This will include all the necessary academic tools, computational modelling techniques, design, and engineering practice to solve mechanical engineering problems of varying complexity, taking into consideration the economic, social and environmental context.

At the end of this programme, a deep and broad knowledge of the advanced mechanical engineering technology will have been acquired, enabling the prediction, improvement and innovativeness of the processes of modern mechanical engineering design and production activities.

Specializations in the MSc in Manufacturing and Welding Engineering Design

1. Specialization in Manufacturing Engineering Design include courses which are designed to provide advanced competencies in the areas of computer-aided manufacturing, computer-aided design and analysis, and integrated processing of various materials. It is designed for decision-makers in manufacturing engineering, engineering graphics and design, process engineering, quality assurance, and tooling design.
2. Specialization in Welding Engineering Design will provide graduates with a fundamental understanding of welding technologies and an awareness of recent technical developments within the relevant industries. It will also improve communication, presentation, analytical and problem solving skills. Our graduates will obtain high level education gain in advanced welding and joining technologies, thus be able to attain positions of significant engineering responsibility

The language of instruction is English and the program is academic.

Key Learning Outcomes

Upon successful completion of this program, the students are expected to:

1. Be provided with broader knowledge of advanced design, manufacturing and welding engineering: the technological evolution and current needs of the industry; the financial evolution of the industry and the financial drivers and needs of the international activities.
2. Become familiar with the content and philosophy of the European and Cypriot legislative framework and to understand the relevant processes and factors.
3. Understand the contemporary global, regional and local issues and develop systemic, critical and creative thinking about their impact on economic activities.
4. Acquire skills and experiences necessary for engineers who will lead the fields of modern design, manufacturing and production engineering activities.
5. Become familiar with the procedures and analysis needed to enforce pertinent legislation, enhance the issuance of international mechanical design and production related certification, and better facilitate the environmental labelling procedure and perform feasibility analysis.
6. Develop a keen understanding of modern design and production enterprises and    opportunities.
7. Become familiar with welding fundamentals, processes and equipment, materials and metallurgy and welding safety.
8. Be capable to inspect and evaluate quality of welds and finished weldments
9. Be able to use the basic hand tools and power tools in a variety of conditions
10. Develop a balanced perspective on safety and environmental concerns by offering to the students a broad-based understanding which will help at management level decision.
11. Be equipped with the necessary knowledge and acumen to move into decision-making roles.
12. Understand the organizational, political and entrepreneurial aspects of the industry.
13. Be able to use effectively state-of-the-art software tools for advanced design and production engineering.
14. Be able to gather information about the main local and international funding opportunities for promoting in a sustainable way the activities of modern design and production industry.
15. Obtaining the necessary knowledge background so that they can become chartered in the professional chambers and associations.
16. Be capable of using research results in education, within their professional environments and in society.
17. Provide an advanced understanding and balanced perspective on the financial reporting and contractual activity of the design and production industry.
18. Illustrating leading edge company practice in all areas of financial reporting, from environmental impact to corporate strategy and to emphasise the roles of all players in this.