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Encryption Techniques and Systems (5 cr)

Code: TTC6540-3001

General information


Enrollment

01.08.2022 - 25.08.2022

Timing

28.09.2022 - 16.12.2022

Number of ECTS credits allocated

5 op

Virtual portion

3 op

Mode of delivery

40 % Face-to-face, 60 % Online learning

Unit

School of Technology

Campus

Lutakko Campus

Teaching languages

  • English

Seats

0 - 35

Degree programmes

  • Bachelor's Degree Programme in Information and Communications Technology

Teachers

  • Monika Wolfmayr

Objectives

The objective of the course
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By conducting the course, the student masters both the principles and practice of cryptography based network security.


Course Competences
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EUR-ACE: Knowledge and understanding 
EUR-ACE: Engineering practice 


The learning objectives of the course
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The student masters the most essential areas in data encryption: concepts, theory, the used technical implementations and systems. In addition, the student masters the principles of encryption techniques and is able to design and implement an encryption system based on requirement specification considering the existing restrictions of chosen techniques. The student is also capable of producing documentation of the implemented solution and giving a presentation of the implementation.

Content

The course contains the commonly used encryption algorithms with design and implementation of encryption systems. In addition, encryption use cases suitable for certain systems are practiced. Encryption systems are programmed during the course. Documentation of implemented solutions is created, and the implementation is presented.

The course consist of following:
-Terminology of cryptography
-Classical encryption algorithms
-Advanced symmetric and asymmetric ciphers
-Relevant data integrity algorithms
-Key management and distribution

Time and location

Recommended literature:
- William Stalling, Cryptography and Network Security, Principles and practise. Publisher Pearson
More reading
- Bruce Schneier, Applied Cryptography. Publisher Wiley
- Jean-Philippe Aumasson, Serious Cryptography, A Practical Introduction to Modern Encryption. Publisher No starch press San Fransisco

Lecture materials are provided by the lecturer. Lecture material consists of PDF presentations based on course book.

Learning materials and recommended literature

If available, there will be visiting lecturer from industry or governmental organisation.

Teaching methods

Course is implemented by lectures and assignments. Course can be conducted virtually based on lecture materials and assignments except the lecture of visitor from industry and presentation of course assignments.

Assessment is based on assignments during the course. There is no exam in the course. Assignments are theoretical and practical exercises based on items from lectures. In addition, there is a practical course assignment and a research to be made. All the assignments are assessed based on generated implementation and documentations.

Alternative completion methods

There is no exam in the course. Assessment is based on assignments during the course. Assignments are theoretical and practical exercises based on items from lectures. In addition, there is a practical course assignment and a research to be made. All the assignments are assessed based on generated implementation and documentations.

Student workload

27h/cr, totally 135h

Further information for students

Course will be assessed based on following assignment during the course:
- Lecture assignment1
- Lecture assignment2
- Lecture assignment3
- Lecture assignment4
- Research
- Course assignment

Evaluation scale

0-5

Evaluation criteria, satisfactory (1-2)

Sufficient 1: The student can identify most common encryption techniques and solutions for network and computer infrastructure. The student is able to implement an encryption system based on given requirements. The student is capable of listing the requirements in documentation and presenting their assignment.

Satisfactory 2: The student understands most of the used encryption techniques and solutions for network and computer infrastructure. The student is able to design and implement a suitable encryption system based on given requirement specification considering general restrictions of given techniques. The student is capable of explaining the requirements to documentation and giving a presentation of his/her assignment.

Evaluation criteria, good (3-4)

Good 3: The student can select mostly used encryption techniques and solutions for network and computer infrastructure. The student is able to design and implement a suitable encryption system based on requirement specification considering known restrictions of chosen techniques. The student’s reflection on his/her learning is analytical. Generated documents meet the requirements and the student is capable of giving a presentation of his/her assignment.

Very good 4: The student is able to evaluate encryption techniques and solutions for network and computer infrastructure. The student is able to design and implement encryption system based on evaluated requirement specifications considering the assessed restrictions of chosen techniques. The student is able to reflect on their learning as planned. Generated documents are comprehensive and the student is capable of giving a fluent presentation of his/her assignment.

Evaluation criteria, excellent (5)

Excellent 5: The student is able to analytically conclude encryption technique and solutions for network and computer infrastructure. The student is able to design and implement an encryption system with produced requirement specification considering categorised restrictions of chosen techniques. The student is capable of producing analysed reflection on their learning. Generated documents are comprehensive and the student is capable of producing a fluent and analytical presentation of their assignment.

Prerequisites

Knowledge of digital technology, cyber security concepts, standards, algorithms, network protocols and layered structure of telecommunication. Capability of programming and basic knowledge of Linux environment are required.