The German International University (GIU)
Fees:155000
Study duration: 8 semesters (4 years) + 1.5 Years (Master's) Degrees awarded: Bachelors, Masters of Science Degrees Majors Offered: (choose one) Fashion Design Industrial Design Why GIU Faculty of Design? This academic program transfers artistic skills and techniques from conception to design and product realization using highest available technology and up-to-date processes in design project with the industry. A strong emphasis of our courses is exceptionally made to elaborate further on how the Fashion and Industrial Design concepts that focus respectively on the development and manufacturing of industrial products, consumer goods, vehicles, tools packaging, as well as menswear, knitwear, products marketing, and fashion business management. Students are also qualified in various areas of industrial and fashion design, costume design, and textile design, materials usage and process innovation. Facilities provided include – but are not limited to - in studio-style classrooms that give emphasis to the evolution of individual visions and thought through group discussions and collective technical fashion transfer of the various team members. International professionals, lecturers and students function as a design team that takes part in show-room exhibitions, graduate fashion shows, industrial design projects and much more. Privileges & Competitive Edge Wide reaching influencers in local and international communities Innovative product and fashion designers experimenting with new material, new technologies Stylist with a very rich Egyptian identity and a novel view of the world Global citizens with a universal sustainable approach Creators of new international brands offering inspirational products and fashion lines to key iconic figures in Egypt, the region and the world Fashion and industry professional experts using scarce resources to meet current and future needs Capable managers Insightful consultants able to analyze consumer trends. A variety of travel options for one or more semester abroad exchange programs and/or industry- related workshops, extracurricular activities and excursions are offered.
Fees:160000
Dean of the Faculty of Engineering Study Duration: 8 Semesters (4 years) + 1.5 years (Master's) Degrees awarded: Bachelors, Masters of Science Degree Majors Offered: Automotive Mechatronics Manufacturing Engineering Robotics and Automation Automation and Control Engineering Electrical Power Systems Engineering Why GIU Faculty of Engineering? Germany’s prowess in engineering is indisputable. Engineers borne out of the country are world leaders in their field, renowned for their dedication to precision, function and power. Over the years, it has maintained its reputation as a top exporter of innovation, technology, machinery and industrial equipment. Now in Egypt and taught in English, the GIU Faculty of Engineering is transferring German engineering excellence in university education to Egypt, Africa and the region. We implement the most innovative and employability university-orientated study programs & teaching approaches of German Systems to our valued students to guarantee German exceptional standards and outcome. Privileges & Competitive Edge Close cooperation with industry (e.g. Curricula, Internships, Thesis writing) Practice-oriented teaching Emphasis on self-directed team work and analytical thinking Think critically and act responsibly (e.g. business ethics and sustainability issues) Academics with profound industrial experience Prepare students for professional activities while taking into account ongoing developments in industry and the international environment. Job Profiles Global multi-tasking engineering professionals in the most “in-demand”, highest paid engineering fields both locally and internationally in the fields of automotive mechatronics, manufacturing engineering, robotics, automation and electrical power systems Capable Project Engineers leading teams in multicultural environments Goal-oriented Engineers providing professional expertise towards the integration of more universally sustainable approaches and expertise using scarce resources to meet current and future energy needs Innovative Electrical Engineers experimenting with new techniques and new technologies Detail-oriented, accomplished managers with a bottom-up approach piecing together systems to give rise to more value-adding complex ones with higher speed and precision Robotic Engineers who utilize big data science, machine learning and cloud computing to increase productivity and efficiency Manufacturers and Industrialists leading multinational corporations Insightful engineering consultants with encompassing knowledge Major Descriptions, Courses Overview & Job Profiles Automotive Mechatronics Program Automotive Mechatronics study program aims at establishing the foundation required in these fields of science upon which modern vehicles are developed. Through the integration of multi-discipline technologies, the different subsystems of the vehicle are designed, fabricated, tested and improved to meet their task requirements. The program offers the required mechanical background to consider during the design process of the vehicles. The electronic and electrical components are studied as they are the actuators and sensors of the vehicle. The brain of the vehicle is introduced through the utilization of the different programming languages and algorithms. On top of that, control theory is implemented in order to guarantee that the vehicle executes the desired tasks. The Automotive Mechatronics study program opens the door for you towards the future of one of the most widely growing fields of vehicles. It doesn’t only present to you the know-how of the science, but it also provides hands-on experience of how things function and operate in real life. If you are a vehicles’ enthusiast or want to be part of the driverless future vehicle join this study program. Manufacturing Engineering Program The Bachelor of Science degree program in Manufacturing Engineering is designed to provide students with a foundation of knowledge and hands-on experience that is required and utilized by the industry in the field of manufacturing. The program offers traditional courses such as Mathematics, Physics, Statics, Strength of Materials, Manufacturing Processes, and Material Science providing graduates with a solid foundation of the field. The program also offers numerous technology-based and practical courses such as Computer Aided Design (CAD), Computer Aided Manufacturing (CAM), Computer Numeric Control (CNC) Machining, and Tooling for Composites, Electronics Applications, Electromechanical Control Systems, Robotics, and Statistical Quality Control providing students with a well-balanced and needed background to support different aspects of manufacturing. The study program Manufacturing Engineering will give the graduates the chance and prepare them to enter careers in manufacturing process and systems design, operations, quality, continuous improvement, lean manufacturing, and sustainability in different industries from the food industry to the automotive and aerospace industries. Manufacturing Engineering students will be introduced to the following: In-depth basic engineering education focusing on manufacturing. Designing and optimizing mechanical components, systems and processes. Qualification for interdisciplinary project work and communication in an international context. Achieve high efficiency through the implementation of advanced engineering tools in CAD, CAM, modeling and simulation. Knowhow on processing various materials like metals, plastics, composites and ceramics. Manufacturing Engineering Program Outcomes: Graduates will have the knowledge and skills to enter careers in different aspects of manufacturing. Graduates will have the ability to provide solutions and solve manufacturing engineering technology related problems. Graduates will have the technical background to advance in their careers with an understanding and necessity for personal integrity, ethical behavior, cultural awareness, lifelong learning, and continuous improvement. Robotics and Automation Engineering Program Robotics and Automation – the technology of the future! Engineers in that field solve the problems of today and develops the products of tomorrow. This field forms the bridge between Mechanical Engineering, Electrical Engineering and Computer Science. That's why our students learn methodically and across disciplines to solve technical problems. The Program qualifies students to describe, model and simulate complex technical systems with Mathematical and Technical foundations of Mechanics, Electrical Engineering and Computer Science and thus enable them to make a significant contribution to the development of Mechatronic Systems consisting of sensors, actuators, information processing and the mechanical structure including communication technology and human machine interface with a special focus is on robotics and automation and its applications. With a degree in Robotics and Automation, you are well prepared for current and future development tasks in the national, regional and globally active industry. Automation and Control Engineering The Bachelor's program in Electrical Engineering (EE) offers scientific methods and skills for solving problems in practical settings. The EE program leads to a Bachelor of Engineering (B.Eng.) degree. Important objectives of the study program are the teaching of methodological and social competence in small seminar groups. In addition to the seminars, the students com-plete a large proportion of practical laboratory exercises and carry out projects that are inten-sively supervised by professors and teaching assistants. The Bachelor's program in Electrical Engineering prepares students for engineering activities in (1) the development of devices and systems in electrical energy and automation technology, (2) project planning of electrical and automation systems and (3) their operation, testing and maintenance. The technical and methodological skills are developed for the following cutting-edge areas of electrical engineering: Automation Engineering and Control of Cyber-physical Systems (CPSs) • Mathematical modeling and simulation of automated systems and CPSs, in particular for control engineering • Development of hardware and software components for process automation • Programming of microcomputers and programmable logic controllers for production systems and mobile applications • Development and project engineering of distributed automation systems and their con-trol via digital networks. Electrical Power Systems Engineering Program The Bachelor's program in Electrical Engineering (EE) offers scientific methods and skills for solving problems in practical settings. The EE program leads to a Bachelor of Engineering (B.Eng.) degree. Important objectives of the study program are the teaching of methodological and social competence in small seminar groups. In addition to the seminars, the students com-plete a large proportion of practical laboratory exercises and carry out projects that are inten-sively supervised by professors and teaching assistants. The Bachelor's program in Electrical Engineering prepares students for engineering activities in (1) the development of devices and systems in electrical energy and automation technology, (2) project planning of electrical and automation systems and (3) their operation, testing and maintenance. The technical and methodological skills are developed for the following cutting-edge areas of electrical engineering: Electrical Power Engineering and Sustainable Systems • Mathematical modeling and control of sustainable power systems • Power electronics and electric drives • Automation of power systems and smart grids • Project engineering, construction and maintenance of components and plants for electrical energy technology • Project management in power plant engineering
Fees:145000
Study duration: 8 semesters (4 years) + 1.5 Years (Master's)
Degrees awarded: Bachelors, Masters of Science Degrees
Majors Offered:
Applied Computer Science
Data Sciences
Software Engineering
IT Security
International Media Informatics
Why GIU Faculty of Computer Science?
GIU Faculty of Computer Science transfers German excellence in higher education to Egypt, Africa and the region and implements most innovative and employability orientated study programs & teaching approaches of German Systems to our valued students.
GIU Faculty of Computer Science academic study programs focus on enabling students to extract new insightful knowledge from casual data for example the distance covered using mobile phones, dose adjustment of medications, traffic updates, etc.
There are several industries where Computer Science can be applied that include, but not limited to car construction, software engineering, IT security, bioinformatics, etc.
Our international teaching staff offers our students the universal scope of application of computer science to all sectors of industry and life to enable better user experience and useful insights of data collected to everyday use of applications and devices.
Privileges & Competitive Edge
Close cooperation with industry (e.g. Curricula, Internships, Thesis writing)
Practice-oriented teaching (e.g. case and simulation based)
Emphasis on self-directed team work and analytical thinking
Think critically and act responsibly (e.g. business ethics and sustainability issues)
Academics with profound industrial experience (PhD plus)
Prepare students for professional activities while taking into account ongoing developments in industry and the international environment.
Job Profiles
Computer Science offers diverse graduate potentials progressive market-oriented programs of the GIU Faculty of Informatics & Computer Science
Computer Science Experts with advanced necessary techniques, and accordingly, will choose how to apply it to promote a novel or modify an existing field of application.
Highly valuable data scientists for almost every company that holds data.
Value-adding Consultants who have variant core competencies of our graduates include: software modeling and object-oriented software design, application of agile process models, software quality assurance, model-based software development, development of mobile applications, program analysis and compiler construction, computer Graphics, game programming, etc.
Skillful insightful computer companies’ managers who master a wide range of software engineering methods, software architectures and development technologies. This range of knowledge and skills make the graduates of this program highly market ready.
Major Descriptions, Courses Overview & Job Profiles
Applied Computer Science
Data Science
We now live in the era of big data. Over the last decade, a very large number of companies have been generating and retaining copious amounts of data in every field. This data is an untapped treasure of information and knowledge holding many exciting possibilities for the world!
Data Scientists are the ones responsible for uncovering the secrets held by this big data. Data Science is a discipline that combines fields of computer science (in particular, methods of artificial intelligence and machine learning) and statistics and applies them knowledgethem to a multitude of diverse fields that include shopping, marketing, healthcare, education, finance, and social networking.
Students in this program will learn how to analyze and extract knowledge from large and complex datasets. They will also learn how to visualize and present this information in a clear and insightful way. Students will also learn how to store and manage big data in an optimized way. Through a highly practice-oriented curriculum, our graduates will be highly valuable for almost every company that holds data.
Join this program and be a leading member of the most highly demanded community of data experts in the world!
Software Engineering
Software engineering is an important branch of computer science that focuses on the design, development, testing and maintenance of software.
The study of software engineering combines computer science, engineering, and project management. Software engineers create software solutions for business problems. To perform this task, software engineers combine their business sense with the programming expertise. Software engineers have to manage a list of requirements determined by their client that often include data management and storage, networking and communications, different application platforms (web, mobile, etc.), system administration, and embedded systems. The software development process has to manage this list of requirements according to a strict timeline. Accordingly, this software development process includes the intricate interplay of business needs, client input, design and development, implementation, quality assurance and testing, and the final product release.
Students in this program will be immersed in this experience through many courses. They will learn through realistic settings how to navigate through every part of the development process. They will also learn a wide range of software engineering methods, software architectures and development technologies. This range of knowledge and skills make the graduates of this program highly market ready.
The core competencies of our graduates include:
Software modeling and object-oriented software design
Application of agile process models
Software Quality Assurance
Model-based software development
Development of mobile applications
Program analysis and compiler construction
Computer Graphics
Game Programming
IT Security
Cyber-attacks cost companies billions of dollars annually. Data breaches, exposure to malware, and denial of service attacks, among many others, often wreak havoc on the digital infrastructure of companies, leading in some cases to the complete crippling of the company’s core systems. Security professionals are the front line of defense against these attacks. In companies with critical and vulnerable infrastructure, they can be among the top paid employees in the company.
The study of IT security encompasses a set of theoretical and practical concepts to achieve the objectives of confidentiality, integrity, availability and authenticity of digital information. Students in this program will be exposed to the world of cyber attacks and actively practice the implementation of protective measures against these attacks.
The program covers three main branches of IT security: information security, digital forensics, and pentesting. In information security, the students learn the foundations of cyber security and also learn how to conduct a thorough risk assessment of the company’s distributed systems. In digital forensics, the students learn how to collect, process, and analyze security-related data and compile evidence for vulnerabilities and attacks. Finally, the students will learn how to evaluate the competency of their protective measures by selecting and executing suitable penetration tests for their systems.
Media Informatics
Media Informatics is a Computer Science Program where students will learn how to design and implement digital applications on the field of new media. In media informatics, the students are exposed to the techniques of recording, production, to the distribution channels and the necessary end devices have been continuously digitalized in recent years. The graduates of Media Informatics course will receive the appropriate tools to successfully manage with this dynamic development and speak the languages of these modern networked technologies in several ways.
The growing importance of media-related technologies and applications in the information technology (such as the trend towards Web-based solutions and mobile applications) makes the graduates of Media Informatics attractive for the economy to work on tasks that go beyond the core areas of the media industry. Media Informatics graduates will be able to work on integrative projects in the field of communication and media. Graduates will have various career prospects in a wide range of industries, from media-related companies, consulting firms and software houses to classical product manufacturing industries (e.g. automotive industry).
Fees:
German International University (GIU) offers industry-focused and future-oriented Bachelors, Masters and PhD Degrees in the following specializations and majors of the Faculty of Business Administartion.
Study duration: 8 semesters (4 years) + 1.5 Years (Master's)
Degrees awarded: Bachelors, Masters of Science Degrees
Majors Offered: (choose two)
"Business Administration students are supposed to declare a major specialization and a minor specialization from the ones stated below before their 5th semester. Students are expected to take 5 courses from the major specialization and 3 courses from the minor specialization. Students also have the option to declare 2 major specializations where they will be expected to take 5 courses from each specialization they choose"
International Business
Digital Marketing
Finance, Banking & Accounting
Entrepreneurship, Small and Medium Enterprises
Supply Chain Management
Real Estate Management
Tourism & Hospitality Management
Why GIU Faculty of Business Administration ?
GIU Faculty of Business Administration transfers German excellence in higher education to Egypt, Africa and the region and implements most innovative and employability orientated study programs & teaching approaches of German Systems to our valued students.
Privileges & Competitive Edge
Close cooperation with industry (e.g. Curricula, Internships, Thesis writing)
Practice-oriented teaching (e.g. case and simulation based)
Emphasis on self-directed team work and analytical thinking
Think critically and act responsibly (e.g. business ethics and sustainability issues)
Academic staff with profound industry experience (PhD plus)
Prepare students for professional activities while taking into account ongoing developments in industry and the international environment.
Fees:
German International University (GIU) offers industry-focused and future-oriented Bachelors, Masters and PhD Degrees in the following specializations and majors in Pharmaceutical Engineering & Technology
Study duration: 8 semesters + 1.5 years (Master's)
Degrees awarded: Bachelors and Masters of Science in Pharmaceutical Engineering & Technology
Why GIU Pharmaceutical Engineering & Technology ?
The global pharmaceutical industry is one of the fastest growing industrial sectors netting more than $1,400 billion in sales in 2019, with an average annual growth rate of 5-8%, providing a wide variety of career opportunities.
Pharmaceutical Engineering & Technology is the first program of its kind offered in Egypt, the region, and globally. Pharmaceutical Engineering & Technology is a new branch combinig Engineering & Pharmacy focused on discovering, formulating & manufacturing medication, as well as both analytical & quality control processes. Though there are many sectors and graduates of the program still occupy the topmost position in the hierarchy of competition.
Graduates of the program are well trained regarding the basic prospects of drug discovery process and are involved in projects and researches related to the invention of more reliable, cost effective and long-term pharmaceutical solutions. They are offered unique opportunities to experience different sectors of the industry. They can therefore efficiently handle and work on biomedical industries, drugs designing & discovery facilities, R&D departments, econimics & management of the pharmaceutical industry and any of the drug manufacturing plants. They acquire in-depth practical knowledge & skills on subjects like drug synthesis & formulation, drug dosage forms, process engineering and mechanical engineering, handling chemical agents, and on various safety measures and equipment during their study. GIU Pharmaceutical engineering & Technology graduates are thus eligible to work in any of the related fields.
GIU Pharmaceutical engineering & Technology graduates are very dynamic and talented and can fit easily in different sectors.
This program links four disciplines; Engineering, Pharmacy, Management, and Technology.
Fees:
German International University (GIU) offers industry-focused and future-oriented Bachelors, Masters and PhD Degrees in the following specializations and majors in Biotechnology.
Study duration: 4 years ( Bachelor ) + 1.5 years ( Master's )
Degrees awarded: The Program offers Bachelors and Masters of Science in Biotechnology
Biotechnology has emerged as one of the leading future-oriented disciplines worldwide. It is a key element of Pharmaceutical Production, Biomaterial, Cosmetics development and Engineering, and contributes to sustainable production and Environmental protection covering a wide spectrum of vital and indispensable specializations : Health Science, Nutrition & Food Technology, and Industrial Biotechnology & Cosmetics
Fees:
The Bachelor of Science in Architectural Engineering Program offers a unique multidisciplinary model that integrates technology and humanities, theory and application, aesthetics and architectonics. This dynamic platform of design excellence prepares graduates to deal with diverse local and global design challenges and embrace commitment to better and sustainable built environment. The program offers a variety of courses that address design, structures, history and theory, conservation and regeneration, construction, and management. After finishing the foundation platform, students can select one of two majors: Architectural Design or Interior Architecture. In each major, a set of specialization courses allow students to build solid and in-depth knowledge that qualifies them to pursue successful careers and make a difference.
The pedogeological core of the program embraces creative and collaborative approaches to design that enables students to experiment, test, develop, and materialize their ideas using the most up-to-date technologies with the support of local and international experts.