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PANEVĖŽYS UNIVERSITY OF APPLIED SCIENCES

- COMPUTER NETWORK ADMINISTRATION -


[ STUDY PROGRAMME ]


Study language: English.


Study duration: 1.5 years (3 semesters). 78 credits are provided to achieve the study results of the study program: study subjects - 60 credits, final practice - 9 credits, final project - 9 credits.


Realizacion of studies: studies will be performed in a permanent / permanent session form.


Study methods: contact works (part of the studies will be carried out remotely), non-contact works, practice, final project design. Teaching by distance non-contact work in a virtual learning environment or using other information communication technologies.


Degree and professional qualification: Professional Bachelor of Computing.


Objective(s) of the study programme: to train informatics engineering professionals being able to design, implement and administrate company and organization computer networks, operate servers and organize the related engineering activities.


COMPUTER NETWORK ADMINISTRATION COLLEGE

STUDY PROGRAMME PLAN 

 

Modules (Subjects)

Term 1

Term 2

Term 3

Credits

I. General modules (subjects)

1.

Professional foreign language

3

6

 

9

2.

Sociology

3

 

 

3

II. Study field modules (subjects)

4.

Physics 

3

 

 

3

5.

Applied mathematics module

6

3

 

9

6.

Programming module

6

3

 

9

7.

Electronics

 

6

 

6

8.

Embedded systems

3

 

 

3

9.

Programming for mobile devices

 

3

 

3

10.

Technologies of cloud computing

 

3

 

3

11.

Internet of the things

 6

 

 

6

Practice

12.

Computer network administration practice

 

6

 

6

13.

Final practice

 

 

9

9

 

 

 

 

 

 

14

Final thesis

 

 

9

9

All in the programme:

30

30

18

78

 

STUDIED MODULES (SUBJECTS) DESCRIPTIONS

 

1 - Professional foreign language (9 ECTS Credits)

 

The subject course is assigned to the student, who has already obtained the language level not lower than B1, i.e. capable of communicating in conventional situations. The course comprises the specific language assigned to master the necessary professional vocabulary. Communicational language is also further developed. The content of the course allows the student to repeat and deepen the acquired grammar structures which is sufficient for verbal and written communication. Priority is set for the professional language material, therefore the student‘s language skills are being steadily developed and improved. The teaching material is consolidated by repetition and addition of new linguistic elements, grammar structures and professional lexis. 

 

2 - Sociology (3 ECTS Credits)

 

The course comprises the teaching material that provides students with the knowledge about theoretical and practical aspects of the science of sociology, sociological thinking, ability to analyse the social world, understand and relate social, economic, political and cultural environments, what is more, to analyse and estimate the phenomena of the society life, to educate introspection and crucial moments in the way of daily awareness are also formed in the course.

 

3 - Physics (3 ECTS Credits)

 

Students will able to understand the laws of kinematics, dynamics, thermodynamics, atomic physics, optics and to apply the laws of physics for solving practical tasks and to calculate the physical quantities characterizing the state of bodies. Using simple laboratory equipment,will able to measure the physical characteristics and dependencies of bodies, to assess the accuracy of measurements. The content of the course allows the student to check and illustrate the laws of physics, to draw conclusions about the causes of observed deviations from current laws.

 

4 - Applied mathematics module (9 ECTS Credits)

 

The module course is designed to provide students with the knowledge of higher mathematics to apply it in further studies and practical activity. Therefore, students solve linear equation systems and learn to perform operations with complex figures. They calculate limits, the derivatives of the functions of one and some variables. What is more, students apply integration in technical calculations, differential equations are done not only analytically, but also using numerical solving methods and they apply the key notions of set and graph theories. Students spread functions in Furze, Tailor and MacLean lines, apply them in approximate calculations, and solve linear programming (production and transportation) problems. They make up mathematical models of production problems and apply approximation methods in calculations. Moreover, students handle and systemize available data, process the collected data and hypothesize. Finally, they apply the software programs (Mathcad, Matlab, Excel), the knowledge from the set and graph theories, also, the main notions of combinatory, mathematical logics, including Bull‘s algebra, therefore, they apply the attained knowledge in their professional subjects.

 

5 - Programming module (9 ECTS Credits)

 

The module course is designed to familiarize students with the fundamentals of forming algorithms and programming in the Ruby language. Therefore, students are taught: to design and create programs in high-level languages, use the Ruby environment, its modules and libraries; to use object-oriented programming technology in practice; they are familiarized with the conception of the agent modelling and its link with the objectoriented programming, with the fundamentals of the programming language C++ in the Builder environment and the principles of object-oriented programming; students are taught to design the user interface C++ with the help of the Builder component library,  they are familiarized with graphic C++ tools, can prepare programs for distribution and create assistance systems; students are also familiarized with the fundamentals of programming in the Java environment, they learn to design the user interface with the help of the Java component library, are familiarized with graphic Java tools and can design database controlling programs in the Java environment and create Java applets in WEB pages. 

 

6 - Electronics (6 ECTS Credits)

 

Students will acquire knowledge of the basics of electronics and can applied it‘s for operation of electronic devices. The student will be able to analyze the parameters, characteristics and troubleshootings of electronic components and circuits in computer systems. Will be able to manage and analyze standard, special technical documentation. Design logic and electrical schematics of typical digital circuits will study too. 

 

7 - Embedded systems (3 ECTS Credits)   

 

Embedded systems study subject aims is to provide knowledge about electronic systems controlled by microprocessors or microcontrollers. Real-time systems are being created by using 

PIC, AVR, STM microchips. Arduino, Raspberry Pi and other  microcomputers boards are using too. Students develops applications for Embedded systems using Assembler, C++, Java, Python programming languages. Finally, students will be able to design PCB of electronics system, create an apps, develop and debug it. 

 

8 - Programming for mobile devices (3 ECTS Credits)     

 

Students will know the application possibilities of mobile web services in business processes; will know the basics of mobile device operating systems; will know the tools and developing software for smart devices. Will be able to design applications for Android OS (or iOS) according to the task. Will know the basics of Java and XML. Will be able to create applications in Android Studio (or X-Code) environment. Will be able to apply security measures for mobile devices. 

 

9 - Technologies of cloud computing (3 ECTS Credits)

 

The subject course is designed to familiarize students with the cloud computing architecture and service types; acquires knowledges for cloud computing solutions using the existing popular cloud platforms and services via Python programming language; develops virtual machines and control its, analyze the common platforms of cloud computing service providers. 

 

10 - Internet of the things (6 ECTS Credits)

 

Students will be able to  install IoT technology hardware and software, select, debug, and program microprocessor systems. The studies subject is to analyze the functional units based on Arduino, STM 32 and Rasberi_PI, their hardware and software. Teaches the design, implementation and debugging of networked intelligent control systems which are operating on wired or wireless networks

 

11 - Computer network administration practice (6 ECTS Credits)

 

Computer network administration practice is organized in the Cisco laboratory. The practice is assigned for consolidating the knowledge which is attained during the lectures of the fundamentals of computer networks.  Therefore, students attain practical skills while designing computer networks and selecting the hardware and the software. Finally, they are able to remove technical failures and debug computer networks. 

 

12 - Final practice (9 ECTS Credits)

 

The main objective of the practice is to provide students with the opportunity to apply the theoretical knowledge and professional competences that they have gained during studies in practice; acquire practical skills of professional work about IT engineering processes which are carried out in the company, moreover, to collect the data which will be important for their graduation project. 

 

13 - Final thesis (9 ECTS Credits)

 

Graduation project is the student’s individual work which demonstrates the study learning outcomes the graduate has achieved. The project shows the graduate‘s abilities to organize and apply theoretical and practical skills. The CNA student carries out the research studies of data flows, selects and grounds logic network schemes, computer hardware and software, installs servers, designs networks for smart devices, microprocessor network devices, creates software and mobile applications. 

 

 


 

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8.

Embedded systems

3

 

 

3

9.

Programming for mobile devices

 

3

 

3

10.

Technologies of cloud computing

 

3

 

3

11.

Internet of the things

 6

 

 

6

Practice

12.

Computer network administration practice

 

6

 

6

13.

Final practice

 

 

9

9

 

 

 

 

 

 

14

Final thesis

 

 

9

9

All in the programme:

30

30

18

78

Modules (Subjects)

Term 1

Term 2

Term 3

Credits

I. General modules (subjects)

1.

Professional foreign language

3

6

 

9

2.

Sociology

3

 

 

3

II. Study field modules (subjects)

4.

Physics 

3

 

 

3

5.

Applied mathematics module

6

3

 

9

6.

Programming module

6

3

 

9

7.

Electronics

 

6

 

6

8.

Embedded systems

3

 

 

3

9.

Programming for mobile devices

 

3

 

3

10.

Technologies of cloud computing

 

3

 

3

11.

Internet of the things

 6

Decroly 2013
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