Bachelor of Forensic Informatics Engineering
Computer Forensics Engineering is a discipline that provides solutions to the problems in the field of forensic computing, which has become an increasing need in today's digital age. The Computer Forensics Engineering Undergraduate program is an undergraduate program that aims to provide students with the necessary knowledge and skills in computer forensics.
This program teaches students how computer systems, digital devices and networks work and how to examine them. It also focuses on topics such as digital evidence collection, data recovery, data analysis and the use of software used in computer forensics.
The skills that the Computer Forensics Engineering Undergraduate program provides to students enable them to specialize in computer forensics. Students can work in companies, law firms, government institutions or computer forensics laboratories working in the field of computer forensics.
In addition to computer forensics topics, the program also teaches basic engineering topics such as mathematics, statistics, data structures, algorithms, database management and programming languages. In this way, students can address computer forensics issues with an engineering approach and produce solutions to complex computer forensics problems.
The Bachelor of Science in Computer Forensics Engineering program is a suitable option for students who are interested in computer forensics, have a keen interest in problem solving, can think analytically, and have advanced communication skills. Completion of the program provides students with a broad knowledge and practical experience in computer forensics.
The Computer Forensics Engineering Undergraduate program focuses on combining legal transactions and technological knowledge in today's rapidly developing digital world. This program aims to teach students the technological tools and methods necessary for solving legal problems, as well as providing them with knowledge and skills in digital data analysis, data protection and cybersecurity.
Students who complete the Computer Forensics Engineering Undergraduate program specialize not only in technological areas but also in legal regulations and procedures. In this way, they can solve technical difficulties in carrying out legal transactions and become competent in the secure storage and analysis of digital data.
The undergraduate program allows students to take different courses throughout their education. These include topics such as programming languages, database management, cybersecurity, digital data analysis, legal regulations and court proceedings. These courses are supported by activities such as laboratory studies and project assignments to provide students with practical skills as well as theoretical knowledge.
Students who complete the Computer Forensics Engineering Undergraduate program can find the opportunity to work in public institutions, private sector companies, law offices or their own businesses. In addition, students who complete this program can continue their academic careers by continuing their master's or doctoral programs.
In short, the Forensic Computer Engineering Undergraduate program provides students with in-depth knowledge of technological and legal issues, preparing them for a successful career in today's rapidly changing digital world.
The Undergraduate Computer Forensics Engineering program is a program at the intersection of computer science and law disciplines. This program aims to provide students with knowledge and skills in computer forensics and digital evidence analysis.
The program offers students both theoretical and practical education. Students learn the basic concepts of law along with the basic computer science and mathematics courses required to understand computer forensics and digital evidence analysis. In this way, students gain knowledge on how to include digital data in legal proceedings, how to collect and analyze digital evidence.
The program also provides students with training in areas such as digital security, data analysis, data mining, network security and software engineering. Thus, students can specialize in a wide range of computer science and engineering subjects in addition to computer forensics and digital evidence analysis.
The Undergraduate Computer Forensics Engineering program allows its graduates to be employed in various sectors such as the public sector, private sector and non-governmental organizations. For example, computer forensics experts can work in law firms, public institutions, private security companies, and even organizations that combat cybercrime.
Students of the program stay up-to-date with the development of the digital world and changing legal regulations, while gaining a perspective on both technical and legal issues. This gives students an advantage for their future jobs.
As a result, the Bachelor of Science in Computer Forensics Engineering program allows students to understand the digital world, combine technical knowledge and skills with legal issues, and increase their employability in various sectors.
The Computer Forensics Engineering Undergraduate program offers students the opportunity to specialize in the intersection of information technologies and law. The main purpose of the program is to provide students with the necessary theoretical and practical knowledge on computer forensics and to provide them with the skills necessary to solve problems.
Upon completion of the program, students will have the following program competencies:
The ability to understand the basic principles and concepts in the field of computer forensics.
The ability to understand, select and use hardware and software tools used for computer forensics applications.
The ability to take preventive and protective measures against hacking, data manipulation and other computer forensics crimes.
The ability to understand and apply legal regulations and legal procedures in the field of computer forensics.
The ability to conduct research, solve problems and develop new technologies in computer forensics.
The ability to actively participate in computer forensics projects using teamwork, leadership and communication skills.
The ability to work in accordance with professional ethical principles.
The Computer Forensics Engineering Undergraduate program offers students the opportunity to specialize in the field of computer forensics. The aim of the program is to enable students to think solution-oriented in the field of computer forensics by combining their knowledge in the fields of information technologies and law. Graduates of the program stand out with their ability to follow technological developments in the field of computer forensics, solve problems and produce innovative solutions.
The Undergraduate Computer Forensics Engineering department has become quite important due to the increasing crime rates and the importance of digital data in today's digital world. This department aims to train computer engineers who specialize in computer forensics and digital data analysis.
Students of the department receive comprehensive training in digital data analysis, digital crimes, cyber security, data management, electronic research, data recovery and computer forensics. In addition, students in this department also gain knowledge on legal regulations related to computer forensics, expertise, reporting and expert witnessing.
Graduates of the Undergraduate Computer Forensics Engineering department can find jobs in different sectors such as public institutions, private sector companies, judicial authorities and cyber security companies. Especially in recent years, as the importance of digital data has increased, job opportunities for computer forensics engineers have also increased.
Students studying in this department can specialize in areas such as prevention of cyber crimes, computer forensics reporting, data analysis and cyber security in their careers after graduation. They can also provide consultancy services on computer forensics.
The Undergraduate Department of Computer Forensic Engineering is a department that fills an important gap in today's digital world and has high job opportunities. It is an ideal option for students who want to pursue a career in this field.
Course Code | 1. PERIOD | AKTS | CREDIT | Status |
---|---|---|---|---|
BFE101 | Research Techniques and Publication Ethics | 6 | 0 | Compulsory |
BFE102 | Fundamentals of Computer Forensics | 6 | 0 | Compulsory |
BFE103 | Algorithm Design and Development | 6 | 0 | Compulsory |
BFE104 | Forensic Sciences | 6 | 0 | Compulsory |
BFE105 | Effective Presentation Techniques | 6 | 0 | Compulsory |
Course Code | 2. PERIOD | AKTS | CREDIT | Status |
---|---|---|---|---|
BFE201 | Computer Forensics Law | 6 | 0 | Compulsory |
BFE202 | Basic Programming | 6 | 0 | Compulsory |
BFE203 | Operating Systems | 6 | 0 | Compulsory |
BFE204 | Cyber Crimes and Combat | 6 | 0 | Compulsory |
BFE205 | Login to the Database | 6 | 0 | Compulsory |
Course Code | 3. PERIOD | AKTS | CREDIT | Status |
---|---|---|---|---|
BFE301 | Information Systems Hardware | 6 | 0 | Compulsory |
BFE302 | Database Management Systems | 6 | 0 | Compulsory |
BFE303 | Forensic Animation | 6 | 0 | Compulsory |
BFE304 | Internet Technologies | 6 | 0 | Compulsory |
BFE305 | Computer Networks | 6 | 0 | Compulsory |
Course Code | 4. PERIOD | AKTS | CREDIT | Status |
---|---|---|---|---|
BFE401 | Forensic Document Examination | 6 | 0 | Compulsory |
BFE402 | Advanced Programming | 6 | 0 | Compulsory |
BFE403 | Artificial Intelligence Applications | 6 | 0 | Compulsory |
BFE404 | Web Design Introduction | 6 | 0 | Compulsory |
BFE405 | Encryption Techniques | 6 | 0 | Compulsory |
Course Code | 5. PERIOD | AKTS | CREDIT | Status |
---|---|---|---|---|
BFE501 | Web Based Programming | 6 | 0 | Compulsory |
BFE502 | Mobile Application Development | 6 | 0 | Compulsory |
BFE503 | Network and System Security | 6 | 0 | Compulsory |
BFE504 | Software Architecture Development | 6 | 0 | Compulsory |
BFE505 | Computer Forensics Law I | 6 | 0 | Compulsory |
Course Code | 6. PERIOD | AKTS | CREDIT | Status |
---|---|---|---|---|
BFE601 | Cloud Computing Security | 6 | 0 | Compulsory |
BFE602 | Theory of Crime | 6 | 0 | Compulsory |
BFE603 | Cyber Crime Investigation Software | 6 | 0 | Compulsory |
BFE604 | Malware | 6 | 0 | Compulsory |
BFE605 | Ethics Hacker I | 6 | 0 | Compulsory |
Course Code | 7. PERIOD | AKTS | CREDIT | Status |
---|---|---|---|---|
BFE701 | Forensic Database Review | 6 | 0 | Compulsory |
BFE702 | Computer Forensics Case Studies | 6 | 0 | Compulsory |
BFE703 | Ethical Hacker II | 6 | 0 | Compulsory |
BFE704 | Internet of Things | 6 | 0 | Compulsory |
ZPRJ2001 | Graduation Project I | 6 | 0 | Compulsory |
Course Code | 8. PERIOD | AKTS | CREDIT | Status |
---|---|---|---|---|
BFE801 | Expert Witness in Computer Forensics | 5 | 0 | Compulsory |
BFE802 | Mobile Forensic Software | 5 | 0 | Compulsory |
BFE803 | Computer Forensics Research | 5 | 0 | Compulsory |
BFE804 | Audio and Video Processing Techniques | 5 | 0 | Compulsory |
BFE805 | Cyber Security | 5 | 0 | Compulsory |
ZPRJ2002 | Graduation Project II | 5 | 0 | Compulsory |
The student's success in the courses is determined by evaluating the mid-term grades and the final exam grade together.
Mid-term grades consist of quizzes, mid-term exam grades and grades given to homework, applications and practical work depending on the course. In the credit system, the type and weight of mid-term and final evaluations (exams, homework, applications and similar) are reported to the relevant department head by the instructor teaching the course within the first two weeks of the semester and announced to the students by the relevant teaching unit administration. The final evaluation is determined by the instructor teaching the course with one of the following letter grades, taking into account the general success level of all students taking that course.
While the impact of the homework given during the semester on the final grade is 40%, the impact of the final exams at the end of the semester is 60%.
The student must have passed all compulsory and elective courses in the program and must not have a grade of F1, F2 or Z. In this program, the student must have a minimum of 240 ECTS credits and a general grade point average of at least 2.00 out of 4.00.