EPOKA UNIVERSITY
FACULTY OF ARCHITECTURE AND ENGINEERING
DEPARTMENT OF COMPUTER ENGINEERING
COURSE SYLLABUS
COURSE INFORMATIONCourse Title: OBJECT ORIENTED PROGRAMMING |
| Code | Course Type | Regular Semester | Theory | Practice | Lab | Credits | ECTS |
|---|---|---|---|---|---|---|---|
| CEN 213 | B | 3 | 3 | 0 | 2 | 4 | 5 |
| Academic staff member responsible for the design of the course syllabus (name, surname, academic title/scientific degree, email address and signature) | NA |
| Lecturer (name, surname, academic title/scientific degree, email address and signature) and Office Hours: | Florenc Skuka , 09:00 |
| Second Lecturer(s) (name, surname, academic title/scientific degree, email address and signature) and Office Hours: | Xhoena Duro |
| Teaching Assistant(s) and Office Hours: | NA |
| Language: | English |
| Compulsory/Elective: | Compulsory |
| Classroom and Meeting Time: | |
| Course Description: | Syntax and semantics of programming languages, grammars, design of programming languages, data types, variables, expressions and statements, procedures, recursion, parameter passing, dynamic and static memory management. Functional, logic, and object-oriented programming paradigms. Examples from typical and modern programming languages. |
| Course Objectives: | This course calls on you to demonstrate: knowledge of programming techniques and the Java language and libraries in particular, the ability to reason through analysis, evaluation and design of Java programs, and the ability to effectively apply this knowledge to the construction of such programs. Students will be expected to use the course texts and readings as well as outside references and documentation to supplement lecture material. |
|
COURSE OUTLINE
|
| Week | Topics |
| 1 | Introduction to OOP |
| 2 | Programming in Java |
| 3 | Objects and Classes I |
| 4 | Objects and Classes II |
| 5 | Inheritance |
| 6 | Polymorphism |
| 7 | Exception and File Handling |
| 8 | Midterm |
| 9 | Abstract Classes and Interfaces |
| 10 | GUI Basics |
| 11 | Event-Driven Programming and MVC Concept |
| 12 | Generics and Collections |
| 13 | Threads |
| 14 | Review |
| Prerequisite(s): | Basics of Programming |
| Textbook: | Introduction to Java Comprehensive Version. 10th Edition Y.Daniel Liang |
| Other References: | An Introduction to Object-Oriented Programming with Java (5th ed.) [Wu 2009-03-24] |
| Laboratory Work: | Yes |
| Computer Usage: | Yes |
| Others: | No |
|
COURSE LEARNING OUTCOMES
|
| 1 | Understand the Object Oriented paradigm |
| 2 | Understand and use the concepts of inheritance, encapsulation and polymorphism |
| 3 | Understand and use the abstract classes and interfaces |
| 4 | Understand and use object-oriented design and GUI programming |
| 5 | Understand and use the basic collections |
|
COURSE CONTRIBUTION TO... PROGRAM COMPETENCIES
(Blank : no contribution, 1: least contribution ... 5: highest contribution) |
| No | Program Competencies | Cont. |
| Bachelor in Computer Engineering (3 years) Program | ||
| 1 | Engineering graduates with sufficient theoretical and practical background for a successful profession and with application skills of fundamental scientific knowledge in the engineering practice. | 5 |
| 2 | Engineering graduates with skills and professional background in describing, formulating, modeling and analyzing the engineering problem, with a consideration for appropriate analytical solutions in all necessary situations | 5 |
| 3 | Engineering graduates with the necessary technical, academic and practical knowledge and application confidence in the design and assessment of machines or mechanical systems or industrial processes with considerations of productivity, feasibility and environmental and social aspects. | 5 |
| 4 | Engineering graduates with the practice of selecting and using appropriate technical and engineering tools in engineering problems, and ability of effective usage of information science technologies. | 5 |
| 5 | Ability of designing and conducting experiments, conduction data acquisition and analysis and making conclusions. | 5 |
| 6 | Ability of identifying the potential resources for information or knowledge regarding a given engineering issue. | 5 |
| 7 | The abilities and performance to participate multi-disciplinary groups together with the effective oral and official communication skills and personal confidence. | 5 |
| 8 | Ability for effective oral and official communication skills in foreign language. | 3 |
| 9 | Engineering graduates with motivation to life-long learning and having known significance of continuous education beyond undergraduate studies for science and technology. | 5 |
| 10 | Engineering graduates with well-structured responsibilities in profession and ethics. | 5 |
| 11 | Engineering graduates who are aware of the importance of safety and healthiness in the project management, workshop environment as well as related legal issues. | 5 |
| 12 | Consciousness for the results and effects of engineering solutions on the society and universe, awareness for the developmental considerations with contemporary problems of humanity. | 5 |
|
COURSE EVALUATION METHOD
|
| Method | Quantity | Percentage |
| Homework |
2
|
5
|
| Midterm Exam(s) |
1
|
35
|
| Quiz |
2
|
5
|
| Laboratory |
1
|
5
|
| Final Exam |
1
|
40
|
| Total Percent: | 100% |
|
ECTS (ALLOCATED BASED ON STUDENT WORKLOAD)
|
| Activities | Quantity | Duration(Hours) | Total Workload(Hours) |
| Course Duration (Including the exam week: 16x Total course hours) | 16 | 5 | 80 |
| Hours for off-the-classroom study (Pre-study, practice) | 16 | 2 | 32 |
| Mid-terms | 1 | 5 | 5 |
| Assignments | 0 | ||
| Final examination | 1 | 8 | 8 |
| Other | 0 | ||
|
Total Work Load:
|
125 | ||
|
Total Work Load/25(h):
|
5 | ||
|
ECTS Credit of the Course:
|
5 | ||