Informatics engineering is a field that combines computer science, engineering, and social sciences to design, develop, and implement innovative technology solutions. Informatics engineers use modern infrastructure to create efficient systems and applications.
With expert instructors guiding the way, students can gain a deep understanding of informatics engineering principles and practices. These instructors bring real-world experience to the classroom, providing students with valuable insights and skills.
Modern infrastructure plays a crucial role in informatics engineering, enabling the development of complex systems and applications. Informatics engineers can tap into this infrastructure to create scalable, secure, and reliable solutions.
Bachelor's Degree
The Informatics Engineering study program is designed to provide a comprehensive education in computer science, with a curriculum based on the Indonesian National Qualifications Framework (KKNI) – Independent Learning-Independent Campus (MBKM) that spans 8 semesters and 144 credits.
Students can expect to gain a solid foundation in computer science, preparing them for postgraduate studies in various fields. The program is structured to equip students with the skills to develop systems and devise creative solutions.
The study program offers a range of specializations, including Master's degrees in Computer Engineering, Information Management, and Artificial Intelligence. This flexibility allows students to tailor their education to their interests and career goals.
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Program Details
Informatics engineering programs typically last four years and lead to a bachelor's degree. This duration allows students to gain a solid understanding of computer systems, software development, and data analysis.
The curriculum is often structured to include a mix of theoretical and practical courses, such as algorithms, computer architecture, and database systems. This combination helps students develop problem-solving skills and learn to apply theoretical concepts to real-world problems.
Some programs may also offer specializations or minors in areas like cybersecurity, artificial intelligence, or human-computer interaction, which can give students a competitive edge in the job market.
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Modern Infrastructure Used in Study Process
The programme's study process is supported by top-level, constantly updated modern infrastructure. This means students have access to the latest software packages, which is a huge advantage in today's fast-paced digital world.
The hardware base is also constantly updated, ensuring that students have the latest tools to work with. This is a significant investment in their learning experience.
Students can use the modern laboratories of KTU Santaka Valley, which have been well-evaluated by international experts from EQANIE. This is a testament to the quality of the facilities and the opportunities they provide.
The programme also offers creative spaces and laboratories installed by company "Intermedix", providing students with even more opportunities to explore and learn.
Delivered by Top-Level Specialists
Our programme is delivered by top-level specialists with long-term experience in the field. They have a deep understanding of the latest research and practical applications.
Many lecturers have internships in foreign universities, giving them a global perspective on the subject matter. This allows them to bring diverse insights and knowledge to the classroom.
Their expertise is not limited to academia; many of them have their own IT companies or manage them, providing real-world experience and connections. This helps bridge the gap between theory and practice.
The subjects they teach are based on the newest research and practical works, ensuring that students learn from the most up-to-date information. This is a huge advantage in a rapidly evolving field like IT.
History
The Informatics Engineering Study Program was established in 2007 based on the Decree of the Minister of Education and Culture No. 4009/D/T/2007.
This marked the beginning of a new academic journey for the institution, which would eventually welcome its first students in the 2008/2009 Academic Year.
Semester Structure
Informatics engineering programs typically follow a semester structure, with each semester lasting around 15-20 weeks. This allows students to focus on a specific set of courses and projects without feeling overwhelmed.
The semester structure also enables students to take a break and recharge between semesters, which is essential for learning and retention.
Second Semester
The second semester is a time for renewal and rejuvenation. Typically lasting from January to May or June, it's a crucial part of the academic calendar.
Most universities and colleges divide the second semester into two parts, with midterms usually taking place in March or April. This allows students to assess their progress and adjust their study habits accordingly.
The second semester is often a time for students to take more elective courses, which can help them explore their interests and passions. This can also be a great opportunity for students to take courses that are not offered during the first semester.
Midterms are a significant milestone in the second semester, as they help students gauge their understanding of the material and identify areas where they need improvement.
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Third Semester
The third semester is a crucial time in your academic journey. You'll be diving deeper into computer science concepts, building on the foundation laid in previous semesters.
In the third semester, you'll take courses that will help you understand how to work with computers on a more advanced level. Computer Interfacing is one such course that will teach you how to interact with computers and other devices.
Data Structures and Algorithmics is another key course that will help you learn how to organize and analyze data. This is a fundamental skill that will serve you well in your future career.
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You'll also learn about Databases, which is essential for storing and managing large amounts of data. This is a critical skill in today's digital age.
Operating Systems is another course that will help you understand how computers manage and allocate resources. This knowledge will be useful in your future endeavors.
Probability and Statistics is a course that will help you learn how to analyze and interpret data. This is a valuable skill that will serve you well in many areas of life.
Here's a summary of the courses you can expect to take in the third semester:
- Computer Interfacing
- Data Structures and Algorithmics
- Databases
- Operating Systems
- Probability and Statistics
Fourth Semester
In the fourth semester, students can expect a mix of core and elective courses. Business and Economic Environment is one of the core courses, covering 6 credits.
This course provides a solid foundation in understanding the business environment and its impact on engineering and technology. Leadership and Professional Development in Engineering, on the other hand, focuses on developing leadership skills with 3 credits.
Students also have the opportunity to take Computer Architecture, Computer Networks, and Education, Engineering and Technology, all of which are core courses with 6 credits each. Introduction to Software Engineering is another core course with 6 credits, providing an introduction to software engineering principles and practices.
Programming Projects is a core course with 6 credits, where students work on real-world programming projects to develop their skills.
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Sixth Semester
In the sixth semester, students can expect to take a range of courses that build on their previous knowledge and skills.
One of the key courses is Advanced Algorithmics, which delves deeper into the world of algorithms and data structures.
This semester also sees the introduction of new courses such as Distributed Intelligent Systems, which focuses on the design and implementation of intelligent systems that can operate in distributed environments.
Students can also look forward to taking courses like Machine Learning, which explores the use of machine learning techniques to analyze and make decisions from data.
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The semester is packed with a total of 28 courses, including Advanced Concepts on Operating Systems, which covers advanced topics in operating systems.
Here are some of the key courses offered in the sixth semester:
- Advanced Algorithmics
- Advanced Concepts on Operating Systems
- Advanced Operating Systems
- Compilers
- Computer Engineering Project
- Concepts for Specialised Databases
- Database Administration
- Digital Strategy for Organisations
- Distributed Intelligent Systems
- Distributed Network Systems
- E-Business
- Information Systems Project
- Information Technology Project
- Knowledge Engineering and Distributed Intelligent Systems
- Machine Learning
- Marketing on Internet
- Multiprocessors
- Operating Systems Administration
- Parallel Programming and Architectures
- Real-Time Systems
- Software Engineering Project
- VLSI
- Web Applications and Services
Seventh Semester
In the seventh semester, you can expect a mix of theoretical and practical courses. The Computing Summer School 4 is a significant part of the curriculum, providing hands-on experience in computing.
Here are some of the key courses you'll take during this semester:
- Computing Summer School 4
- Design of Online Communities (6 credits)
- Ethics in Science and Engineering (6 credits)
These courses will help you develop a strong foundation in computing and online community design, while also exploring the ethical implications of scientific and engineering practices.
Comprehensive Knowledge and Practical Skills
Informatics engineering graduates acquire a comprehensive knowledge and practical skills that cover various aspects of the field. They gain expertise in design and development of software and hardware, computer systems, and IoT solutions.
Graduates can design, develop, and install software and hardware, as well as solutions for computer systems and IoT. They also learn to develop, support, and maintain solutions for computerizing companies and designing information security solutions.
These skills are developed through project-oriented problem-based learning, where students work in teams to create smart future systems and intelligent things using the latest IT technologies and tools. They also learn to formulate and document systems' principles, prepare testing plans, and identify efficiency-related defects.
Upon completing the degree, graduates can design, develop, and assess applications and computer systems, ensuring their reliability, safety, and quality. They can also manage and maintain applications, computer systems, and networks, and program applications in a safe and efficient manner.
Here are some of the key skills and knowledge areas that informatics engineering graduates acquire:
Informatics engineering graduates are equipped with the knowledge and skills to design, develop, and implement innovative solutions that meet the needs of various industries and communities.
Frequently Asked Questions
What do informatics engineers do?
Informatics engineers design, develop, and test computer systems and software, using mathematical analysis and technical expertise to solve complex problems. They combine technical skills with analytical thinking to create innovative solutions in the field of computer technology.
What is the meaning of engineering informatics?
Engineering informatics is an interdisciplinary field that combines information technology with various engineering disciplines to solve complex problems. It applies information and communication technology to enhance engineering practices and outcomes.
Sources
- https://www.upc.edu/en/bachelors/informatics-engineering-barcelona-fib
- https://admissions.ktu.edu/programme/b-informatics-engineering/
- https://eng.uir.ac.id/en/informatics-engineering/
- https://www.upv.es/titulaciones/GII/info/masinformacioni.html
- https://www.cucei.udg.mx/carreras/informatica/en/about-us
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