1. SECOND CYCLE - MASTER'S DEGREE
  2. THE GRADUATE SCHOOL OF NATURAL AND APPLIED SCIENCES
  3. BIOMEDICAL ENGINEERING DEPARTMENT
General Information Prog. Learning Outcomes Teaching & Learning Methods Course Structure Course & Learning Outcomes LO - NQF-HETR Relation LO - FOE (Academic) LO - FOE (Vocational)

1507 Biomedical Engineering

GENERAL INFORMATION
Biomedical Engineering is an interdiscipliner field which benetifs engineering principles to control, modify or understand of biological systems.

Objective
To educate engineers that could identify problems in biological systems and use the latest technological and cognitive methods via engineering principles.


Admission Requirements
To have a Bachelor's Degree in Biomedical Engineering and to have obtained at least 60 points from the Academic Personnel and Graduate Education Entrance Examination (ALES), which is conducted centrally by the Student Selection and Placement Center (ÖSYM).

Graduation Requirements
To complete the course load of 120 ECTS credits with at least 3.00 / 4.00 GPA average, to give at least one research seminar and to prepare a Master's thesis and defend it successfully.

Career Opportunties
Universities, research and development institutes, hospitals, manufacturers of biomedical devices, maintenance, repair and development of biomedical devices.

Qualification Awarded
Bıomedıcal Engıneerıng

Level of Qualification
Second Cycle (Master's Degree)

Recognition of Prior Learning
Recognition of previous structured lectures in Turkish Higher Education Institutions, transitions in vertical, horizontal and university are realized within the scope of the "Higher Education Regulations", "REGULATION BETWEEN THE BACHELORS AND GRADUATE DEGREE PROGRAMS, ON HIGHER EDUCATION AND TRANSITION BETWEEN DOUBLE MAJOR DALL, SIDE DALL AND CREDIT TRANSFER STANDARDS

Qualification Requirements and Regulations
To complete the course load of 120 ECTS credits with at least 3.00 / 4.00 GPA average, to give at least one research seminar and to prepare a Master's thesis and defend it successfully.

Access to Further Studies
May apply to PhD programs

Mode of Study
Full Time

Examination Regulations, Assessment and Grading
Measurement and evaluation methods that is applied for each course, is detailed in "Course Structure&ECTS Credits".

Contact (Programme Director or Equivalent)
PositionName SurnamePhoneFaxE-Mail
HEAD OF THE DEPARTMENT OF INSTITUTEProf. Dr. SEVİLAY ÇETİN  scetin@pau.edu.tr


PROGRAM LEARNING OUTCOMES
1Sufficient background in Mathematics, Science and Biomedical Engineering and ability to use theoretical and practical knowledge in these areas in engineering solutions.
2Ability to identify, define, formulate and solve complex engineering problems; ability to select and apply appropriate analytical methods and modeling techniques for this purpose.
3Ability to analyze a system, system component or process and design under realistic constraints to meet the desired requirements; ability to apply modern design methods in this respect.
4Ability to select and use modern techniques and tools required for engineering applications; ability to use information technologies effectively.
5Ability to design experiments, conduct experiments, collect data, analyze and interpret the results.
6Ability to access information and to do resource research for this purpose, ability to use databases and other information sources, knowledge of computer software and hardware required by this field.
7Ability to work effectively individually and in multi-disciplinary teams, confidence in taking responsibility, ability to complete a job and taking responsibility in producing solutions in possible complex situations.
8Sufficient knowledge of foreign languages to be able to follow and use the information in his / her field and communicate with colleagues.
9To be able to follow the developments in science and technology and to renew himself / herself continuously, awareness of being open to innovative ideas.
10Professional and ethical responsibility.
11Adequate knowledge and awareness on occupational safety, worker health, social security rights, quality control and management and environmental protection.
12Ability to comprehend the universal and social effects of engineering solutions and applications.
13Ability to inform expert or non-specialist audience groups in writing and orally about engineering problems and solutions.
14Ability to prepare and execute all kinds of projects in the field, to involve employees under his / her responsibility to the project, to plan and manage professional activities.
TEACHING & LEARNING METHODS
NameComments
LecturingLecturing is one of the methods that come first, where the teacher is in the center. It is a method where the teacher actively describes topics and the students are passive listeners. With this method, lesson proceeds in the form of report, description and explanation.
DebateDepending on the situation, debate is a tool that allows all students, or a specific portion of the class to participate in the lesson. In this method, members of the group discuss a topic by addressing the various points of view and discuss alternative opinions about problem-solving.
DemonstrationIn this method the teacher demonstrates, an experiment, test, in front of the class. And then assists students to do so too. Students learn not only by just by looking and watching, but also by taking part and participating. This method is usually applied when teaching skills.
Case Study Case studies require students to actively participate while using an analytical perspective to think about real and problematic events. The problematic event may be real or very close to real life. Student(s) working on the documents that include the necessary data and descriptions of the
Problem SolvingThe name given to any doubt or ambiguity that arises is, a problem. Problems which usually have a role in human life, that have preventing or annoying aspects are solved by considering the stages of scientific methods. (a) Problems are determined. (b) The problem is identified. 
Cooperative LearningCooperative Learning is; a kind of learning that is based on the students working together for a common purpose. Children with different skills come together in heterogeneous groups to learn by helping each other. Students gain experiences such as becoming aware of the unity
PerformanceIn this method, the teacher performs activities such as experiments and demonstrations in front of the class, students try to learn by looking and watching. This method is usually applied where there are limited facilities and in dealing with dangerous experimental situations.
Questions –AnswersThe different types of Questions used (associative, differential, assessment, requesting information, motivating, and brainstorming) although students get in to more active positions during the process; the method is teacher-centered. If possible Questions, that serve a purpose and
Concept MapsExpress a relation network, based on figures, graphics and words propositions and principles. It enables visual learning. These steps are followed: 1) Concepts about the subjects to be taught are listed. 2) The name of the subject that will be taught is written at the top.3) Relations between
Testing Means reaching results by using various information with certain mechanisms, which are set up to imitate natural events in artificial environments and to have students take a certain topics and applying them to reach certain aims/objectives. Nature researchers, scientists, and educators
Brainstorming Brainstorming is a group work process that has been regulated to reach solutions for a problem without limitations or evaluation. The purpose of brainstorming is to make it easier for students to express themselves and to generate ideas. This technique is used as a high-level discussion

PO - NQF-HETR Relation
NQF-HETR CategoryNQF-HETR Sub-CategoryNQF-HETRLearning Outcomes
INFORMATION  01
INFORMATION  02
SKILLS  01
SKILLS  02
SKILLS  03
COMPETENCIESCommunication and Social Competence 01
COMPETENCIESCommunication and Social Competence 02
COMPETENCIESCommunication and Social Competence 03
COMPETENCIESCommunication and Social Competence 04
COMPETENCIESCompetence to Work Independently and Take Responsibility 01
COMPETENCIESCompetence to Work Independently and Take Responsibility 02
COMPETENCIESCompetence to Work Independently and Take Responsibility 03
COMPETENCIESField Specific Competencies 01
COMPETENCIESField Specific Competencies 02
COMPETENCIESField Specific Competencies 03
COMPETENCIESLearning Competence 01
    

PO - FOE (Academic)
FOE CategoryFOE Sub-CategoryFOELearning Outcomes
INFORMATION  01
INFORMATION  02
INFORMATION  03
INFORMATION  04
SKILLS  01
SKILLS  02
SKILLS  03
SKILLS  04
COMPETENCIESCommunication and Social Competence 01
COMPETENCIESCommunication and Social Competence 02
COMPETENCIESCommunication and Social Competence 03
COMPETENCIESCommunication and Social Competence 04
COMPETENCIESCommunication and Social Competence 05
COMPETENCIESCommunication and Social Competence 06
COMPETENCIESCommunication and Social Competence 07
COMPETENCIESCommunication and Social Competence 08
COMPETENCIESCompetence to Work Independently and Take Responsibility 01
COMPETENCIESCompetence to Work Independently and Take Responsibility 02
COMPETENCIESCompetence to Work Independently and Take Responsibility 03
COMPETENCIESCompetence to Work Independently and Take Responsibility 04
COMPETENCIESCompetence to Work Independently and Take Responsibility 05
COMPETENCIESCompetence to Work Independently and Take Responsibility 06
COMPETENCIESField Specific Competencies 01
COMPETENCIESField Specific Competencies 02
COMPETENCIESField Specific Competencies 03
COMPETENCIESField Specific Competencies 04
COMPETENCIESLearning Competence 01
COMPETENCIESLearning Competence 02
COMPETENCIESLearning Competence 03
COMPETENCIESLearning Competence 04
    

PO - FOE (Vocational)
FOE CategoryFOE Sub-CategoryFOELearning Outcomes
INFORMATION  01
INFORMATION  02
SKILLS  01
SKILLS  02
SKILLS  03
SKILLS  04
COMPETENCIESCommunication and Social Competence 01
COMPETENCIESCommunication and Social Competence 02
COMPETENCIESCommunication and Social Competence 03
COMPETENCIESCommunication and Social Competence 04
COMPETENCIESCommunication and Social Competence 05
COMPETENCIESCompetence to Work Independently and Take Responsibility 01
COMPETENCIESCompetence to Work Independently and Take Responsibility 02
COMPETENCIESCompetence to Work Independently and Take Responsibility 03
COMPETENCIESCompetence to Work Independently and Take Responsibility 04
COMPETENCIESCompetence to Work Independently and Take Responsibility 05
COMPETENCIESField Specific Competencies 01
COMPETENCIESField Specific Competencies 02
COMPETENCIESField Specific Competencies 03
COMPETENCIESField Specific Competencies 04
COMPETENCIESLearning Competence 01
COMPETENCIESLearning Competence 02
COMPETENCIESLearning Competence 03
COMPETENCIESLearning Competence 04
COMPETENCIESLearning Competence 05
    

COURS STRUCTURE & ECTS CREDITS
Year :
Course Plan

1st Semester Course Plan
Course CodeCourse TitleL+P HourECTSCourse Type
FBE 610 METHODS OF RESEARCH AND ETHICS 3+0 7,5 Compulsory
- Biomedical Engineering Elective Courses 3+0 7,5 Elective
- Biomedical Engineering Elective Courses 3+0 7,5 Elective
- Biomedical Engineering Elective Courses 3+0 7,5 Elective
  Total 30  
1st Semester Elective Groups : Biomedical Engineering Elective Courses

2nd Semester Course Plan
Course CodeCourse TitleL+P HourECTSCourse Type
FBE 599 SEMINAR 0+2 7,5 Compulsory
- Biomedical Engineering Elective Courses 3+0 7,5 Elective
- Biomedical Engineering Elective Courses 3+0 7,5 Elective
- Biomedical Engineering Elective Courses 3+0 7,5 Elective
  Total 30  
2nd Semester Elective Groups : Biomedical Engineering Elective Courses

3rd Semester Course Plan
Course CodeCourse TitleL+P HourECTSCourse Type
FBE 500 MASTER'S THESIS 0+0 20 Compulsory
FBE 700 FIELD OF STUDY COURSE 6+0 10 Compulsory
  Total 30  

4th Semester Course Plan
Course CodeCourse TitleL+P HourECTSCourse Type
FBE 500 MASTER'S THESIS 0+0 20 Compulsory
FBE 700 FIELD OF STUDY COURSE 6+0 10 Compulsory
  Total 30  


COURSE & PROGRAM LEARNING OUTCOMES
Year : Compulsory Courses
Course TitleC/EPO 01PO 02PO 03PO 04PO 05PO 06PO 07PO 08PO 09PO 10PO 11PO 12PO 13PO 14
FIELD OF STUDY COURSEC              
MASTER'S THESISC*** ****    * 
METHODS OF RESEARCH AND ETHICSC              
POSTGRADUATE COUNSELINGC              
SEMINARC     * *    * 
Click to add elective courses...
Elective Courses
Course TitleC/EPO 01PO 02PO 03PO 04PO 05PO 06PO 07PO 08PO 09PO 10PO 11PO 12PO 13PO 14
ADVANCED HYGIENE AND SANITATION APPLICATIONS IN BIOMEDICAL INSTRUMENTATIONE              
ADVANCED MATHEMATICS FOR BIOMEDICAL ENGINEERSE****          
ADVANCED MOLECULAR BIOLOGY AND GENETICSE              
ADVANCED RAPID DETECTION SYSTEMSE              
ANALYSIS OF DC-DC CONVERTERSE              
APPLICATIONS OF X-RAYs IN BIOMEDICALE              
BIOENSOR PHYSICSE              
BIOLOGICAL SEPARATION TECHNIQUESE              
BIOLOGY OF LIVING SYSTEMSE              
BIOMEDICAL ENGINEERING APPLICATIONS DURING EPIDEMICS and mass destructıon agentsE              
BIOMEDICAL PHANTOM APPLICATIONSE              
BIOMEDICAL SIGNAL PROCESSINGE              
BIOSENSOR APPLICATIONSE              
BIOSEPARATIONE              
CALIBRATION IN BIOMEDICAL DEVICESE              
CELL CULTURE TECHNIQUESE              
CELL PHYSIOLOGY FOR ENGINEERSE              
CELL-BASED THERAPY ENGINEERING)E              
CHARACTERIZATION OF MATERIALS: X-RAY SCATTERING METHOD AND APPLICATIONSE              
CHEMICAL METHODS AND APPLICATIONS IN DRUG DESIGNE              
CHEMISRTY OF PHOTOSENSITIZER COMPOUNDSE              
CHEMISTRY OF PHTHALOCYANINE COMPOUNDSE              
CRYSTAL STRUCTURE OF MATERIALSE              
DEEP LEARNING APPLICATIONS IN MEDICAL DATAE              
DESIGN OF CLINICAL INVESTIGATIONE              
DESIGN OF THE HIGH POWER DENSITY SWITCHED MODE POWER SUPPLIESE              
DESIGNING MATERIALS FOR BIOMEDICAL ENGINEERINGE              
ELECTRICAL ANALYSIS METHODS OF BIOSENSORSE              
ELECTRON MICROSCOPYE              
FIELD EFFECT BIOSENSORSE              
GOOD MANUFACTURING PRACTICES ON MEDICAL DEVICESE              
INTRODUCTION TO MICROELECTROMECHANICAL SYSTEMSE              
LABORATORY TECHNIQUES AND SAFETYE    *     *   
MACHINE LEARNING AND APPLİCATİONSE              
MACROCYCLIC COMPOUNDSE              
MASS SPECTORMETRY IN BIOMEDICAL ENGINEERINGE              
MECHANICAL PROPERTIES OF MACRO AND NANOMATERIALSE              
MEDICAL IMAGE PROCESSINGE              
MICROBIOLOGICAL BIOSENSORSE              
MODEL ORGANISMS IN BIOENGINEERING FIELDSE              
MOLECULAR TECHNIQUESE              
MOLECULAR TOXICOLOGYE              
NANOSCIENCEE              
NANOTECHNOLOGY IN BIOMEDICAL ENGINEERINGE              
NEEDS ANALYSIS, R&D AND INTELLECTUAL PROPERTY PROCESS IN MEDICAL DEVICES E              
NEW TECHNOLOGIES IN BIOMEDICAL INSTRUMENTATIONE              
OPTIMIZATION TECHNIQUESE              
PHYSICAL THEORIES IN NANOSCIENCE AND ENGINEERINGE              
PWM CONTROLLED DC-DC POWER CONVERTERSE              
QUALITY MANAGEMENT FOR MEDICAL DEVICESE              
QUALITY MANAGEMENT IN BIOMEDICAL ENGINEERINGE              
RAPID DIAGNOSTIC SYSTEMS IN BIOMEDICAL ENGINEERINGE              
REFERENCE MATERIALS USED FOR BIOMEDICAL DEVICESE              
RESONANT POWER CONVERTERSE              
SEMICONDUCTOR DEVICES IN BIOMEDICAL ENGINEERINGE              
SIGNAL TRANSDUCTION IN CANCER CELLSE              
STEM CELL AND GENE THERAPYE              
SUPERCONDUCTIVE AND MAGNETIZATION TECHNOLOGY IN BIOMEDICAL ENGINEERINGE              
TECHNICS AND APLICATIONS OF NMR E              
VALIDATION AND VERIFICATION IN RAPID DIAGNOSTIC SYSTEMSE              
L+P: Lecture and Practice
C: Compulsory
E: Elective
PO: Program Learning Outcomes
TH [5]: Too High
H [4]: High
M [3]: Medium
L [2]: Low
TL [1]: Too Low
None [0]: None
FOE [0]: Field of Education
NQF-HETR : National Qualifications Framework For Higher Education in Turkey