LaSalle Programmes

USEFUL INFORMATION, RESOURCES & SERVICES FOR STUDENTSUSEFUL LINKS AND DOCUMENTS ADITIONAL & SUPPORTING INFORMATION

SECTION I: GENERAL INFORMATION ABOUT THE COURSE

Course Code	Course Name	Year	Semester	Theoretical	Practical	Credit	ECTS
50613METOZ-BLP0164	System Analysis and Design	2	Spring	2	0	2	3

Course Type :	Compulsory
Cycle:	Associate TQF-HE:5. Master`s Degree QF-EHEA:Short Cycle EQF-LLL:5. Master`s Degree
Language of Instruction:	Turkish
Prerequisities and Co-requisities:	N/A
Mode of Delivery:	Face to face
Name of Coordinator:	Dr. Öğr. Üyesi CANSU ŞAHİN KÖLEMEN
Dersin Öğretim Eleman(lar)ı:	Dr. Öğr. Üyesi CANSU ŞAHİN KÖLEMEN
Dersin Kategorisi:	Programme Specific

SECTION II: INTRODUCTION TO THE COURSE

Course Objectives & Content

Course Objectives:

To provide students with the ability to analyze their information systems and produce feasibility reports, and to prepare a project by completing the design with the help of data flow diagrams and decision tables.

Course Content:

System Analysis and Design course "Systems Approach and Analysis "information on the basic concepts of It is designed with the goal of providing. system Following the approach introduced information systems design, analysis, planning and basic techniques and methodologies for establishing will be presented. System Architecture, Requirements Analysis, Modeling, User Interface Design Project Planning and Management will be covered.

Course Learning Outcomes (CLOs)

Course Learning Outcomes (CLOs) are those describing the knowledge, skills and competencies that students are expected to achieve upon successful completion of the course. In this context, Course Learning Outcomes defined for this course unit are as follows:



Knowledge *(Described as Theoritical and/or Factual Knowledge.)*
1) Know the concept of system and basic concepts in general system theory.
2) Information system and information system types; have a good understanding of information system development process concepts.
3) System analyst duties and abilities; preliminary examination and feasibility analysis; preparing and presenting a system proposal; system implementation; have basic information about the transition process to the new system.
4) Gains the ability to analyze and design the system.
Skills *(Describe as Cognitive and/or Practical Skills.)*
Competences *(Described as "Ability of the learner to apply knowledge and skills autonomously with responsibility", "Learning to learn"," Communication and social" and "Field specific" competences.)*

Weekly Course Schedule

Week	Subject	Materials Sharing *
		Related Preparation	Further Study
1)	Orientation
2)	Introduction to System Analysis and Design
3)	Feasibility Analysis and Requirement Determination
4)	Advanced System and Analysis Concept
5)	System Design
6)	Input Design
7)	Output Design
8)	Midterm
9)	Database Design
10)	Software Development and Testing
11)	Implementing the Software
12)	System Maintenance and Support
13)	Document Flow Tables, Data dictionary
14)	Decision Tables, Decision Trees
15)	Homework Presentations
16)	Final exam

*These fields provides students with course materials for their pre- and further study before and after the course delivered.

SECTION III: RELATIONSHIP BETWEEN COURSE UNIT AND COURSE LEARNING OUTCOMES (CLOs)

(The matrix below shows how the course learning outcomes (CLOs) associates with programme learning outcomes (both KPLOs & SPLOs) and, if exist, the level of quantitative contribution to them.)

Relationship Between CLOs & PLOs

(KPLOs and SPLOs are the abbreviations for Key & Sub- Programme Learning Outcomes, respectively. )

CLOs/PLOs	KPLO 1						KPLO 2						KPLO 3										KPLO 4				KPLO 5
CLOs/PLOs	1	2	3	4	5	6	1	2	3	4	5	6	1	2	3	4	5	6	7	8	9	10	1	2	3	4	1	2	3	4	5	6	7	8	9
CLO1
CLO2
CLO3
CLO4

Level of Contribution of the Course to PLOs

No Effect	1 Lowest	2 Low	3 Average	4 High	5 Highest

	Programme Learning Outcomes	Contribution Level (from 1 to 5)
1)	Explains the basic, theoretical and practical knowledge related to the field of computer programming.	4
	1.1 Knows the basic concepts in the field of information technologies.	4
	1.2 Defines the problems that s/he may face in the field of computer programming.	5
	1.3 Have the analytical thinking skills required by computer programming.	4
	1.4 Defines the fundamentals of programming and algorithm information.	1
	1.5 Defines the basics of web design.
	1.6 Have knowledge about the basic concepts and management of computer networks.
2)	Knows the techniques, tools and information technologies necessary to develop applications related to the field.	2
	2.1 Knows the technical and modern tools necessary for applications related to computer programming.
	2.2 Knows the editors, compilers and platforms used in program development.
	2.3 Have the necessary program information to edit the visuality of the web page and to develop the web page.
	2.4 Have knowledge about tools used for database design and management.
	2.5 Knows game and mobile application development platforms.
	2.6 Follows technological innovations in software and hardware.	2
3)	Produces solutions by using the theoretical knowledge learned.	5
	3.1 Develops programs using analytical thinking skills by using software languages.
	3.2 Performs the installation and management of computer networks.
	3.3 Performs coding using game development platforms.
	3.4 Gains the ability to analyze and design information systems.	5
	3.5 Makes graphic design and animation applications.
	3.6 Realizes web design, software and programming.
	3.7 Installs and manages operating systems.
	3.8 Develops database applications.
	3.9 Learns visual and object-oriented programming.
	3.10 Produces solutions to problems encountered in computer programming and develops methods to solve the problems encountered.	5
4)	Applies the theoretical knowledge learned in business life for a semester.
	4.1 Experiences all processes in business life.
	4.2 Takes part in activities related to the field of education in a business operating in the field.
	4.3 Questions the application with theoretical knowledge.
	4.4 Compiles the knowledge and experience gained in the field.
5)	Acquires the competencies defined as the institutional outcomes of Beykoz University on the basic level, inline with the expectations of business world and the society.	2
	5.1 Acquires competency of analyzing and solving the problems.	2
	5.2 Has awareness for ethical and social responsibility.
	5.3 Takes responsibility as a team member in works and operations of his/her field.	1
	5.4 Is aware of written, verbal communication and interaction.
	5.5 Follows the developments of advanced technology and digital transformation.
	5.6 Acquires the awareness for lifelong learning.
	5.7 Has awareness about citizenship competency.
	5.8 Evaluates the developments of his/her field with the understanding of an entrepreneur.
	5.9 Acquires communication in a Foreign Language (English) competence defined on the level of at least A2 in European Language Portfolio. (In programs whose medium of instruction is English, on the level of B1).

SECTION IV: TEACHING-LEARNING & ASSESMENT-EVALUATION METHODS OF THE COURSE

Teaching & Learning Methods of the Course

(All teaching and learning methods used at the university are managed systematically. Upon proposals of the programme units, they are assessed by the relevant academic boards and, if found appropriate, they are included among the university list. Programmes, then, choose the appropriate methods in line with their programme design from this list. Likewise, appropriate methods to be used for the course units can be chosen among those defined for the programme.)

Teaching and Learning Methods defined at the Programme Level	Teaching and Learning Methods Defined for the Course
Lectures
Discussion
Case Study
Problem Solving
Demonstration
Views
Laboratory
Reading
Homework
Project Preparation
Thesis Preparation
Peer Education
Seminar
Technical Visit
Course Conference
Brain Storming
Questions Answers
Individual and Group Work
Role Playing-Animation-Improvisation
Active Participation in Class

Assessment & Evaluation Methods of the Course

(All assessment and evaluation methods used at the university are managed systematically. Upon proposals of the programme units, they are assessed by the relevant academic boards and, if found appropriate, they are included among the university list. Programmes, then, choose the appropriate methods in line with their programme design from this list. Likewise, appropriate methods to be used for the course units can be chosen among those defined for the programme.)

Aassessment and evaluation Methods defined at the Programme Level	Assessment and Evaluation Methods defined for the Course
Midterm
Presentation
Final Exam
Quiz
Report Evaluation
Homework Evaluation
Oral Exam
Thesis Defense
Jury Evaluation
Practice Exam
Evaluation of Implementation Training in the Workplace
Active Participation in Class
Participation in Discussions

Relationship Between CLOs & Teaching-Learning, Assesment-Evaluation Methods of the Course

(The matrix below shows the teaching-learning and assessment-evaluation methods designated for the course unit in relation to the course learning outcomes.)

LEARNING & TEACHING METHODS

COURSE LEARNING OUTCOMES

ASSESMENT & EVALUATION METHODS

CLO1

CLO2

CLO3

CLO4

-Lectures

-Midterm

-Discussion

-Presentation

-Case Study

-Final Exam

-Problem Solving

-Quiz

-Demonstration

-Report Evaluation

-Views

-Homework Evaluation

-Laboratory

-Oral Exam

-Reading

-Thesis Defense

-Homework

-Jury Evaluation

-Project Preparation

-Practice Exam

-Thesis Preparation

-Evaluation of Implementation Training in the Workplace

-Peer Education

-Active Participation in Class

-Seminar

- Participation in Discussions

-Technical Visit

-Course Conference

-Brain Storming

-Questions Answers

-Individual and Group Work

-Role Playing-Animation-Improvisation