The aim of studying and bibliography

The main aim of study: The main aim of education is the presentation selected issues related to the design of computer systems that are use in the building of computer systems and networks

The general information about the module: The module introduces the student with the basic properties of computer systems and networks, and methods of their design. The realization of this takes place during the lectures, laboratory exercises and student projects

Bibliography required to complete the module

Bibliography used during lectures

1	Priscilla Oppenheimer	Top-Down Network Design	Cisco Systems..	2004
2	M. Hajder, H. Loutskii, W. Stręciwilk	Informatyka. Wirtualna podróż w świat systemów i sieci komputerowych	Wydawnictwo WSIiZ, WSE i WSZiA..	2002
3	Jose Duato, Sudhakar Yalamanchili, Lionel Ni	Interconnection Networks	Morgan Kufmann..	2003
4	Adam Józefiok	CCNA 200-125 : zostań administratorem sieci komputerowych Cisco	Gliwice : Helion.	2018

Bibliography used during classes/laboratories/others

1	Adam Józefiok	CCNA 200-125 : zostań administratorem sieci komputerowych Cisco	Gliwice : Helion.	2018
2	Opracowanie zbiorowe	Alcaltel-Lucent Omni Switch Network Configuration Guide	Alcatel-Lucent.	2016
3	Opracowania Zbiorowe	Dokumentacja systemów operacyjnych Windows i Linux	.	2018

Basic requirements in category knowledge/skills/social competences

Formal requirements: The student should know the basic concepts in the field of IT, operating systems and computer networks. The student satisfies the formal requirements set out in the study regulations.

Basic requirements in category knowledge: A student should know (know the basic concepts) in the range of computer network systems used to formulate and solve simple engineering tasks

Basic requirements in category skills: The student should be able to use knowledge of computer systems and networks to describe the problems, searching for information, formulation of design tasks, diagnosing simple problems

Basic requirements in category social competences: Basic skills in team work

Module outcomes

MEK	The student who completed the module	Types of classes / teaching methods leading to achieving a given outcome of teaching	Methods of verifying every mentioned outcome of teaching	Relationships with KEK	Relationships with PRK
01	He knows and describes the attitudes of information systems including networks and computer systems	lecture, laboratory, poject	presentation of the project, observation, exam, written test	K_W06+ K_W07+ K_U06+ K_U12+ K_U17+ K_U24+ K_K01+	P6S_KK P6S_UK P6S_UO P6S_UW P6S_WG
02	Explains the principles of formulating design assumptions and requirements for computer systems and networks	lecture, laboratory, poject	presentation of the project, observation, exam, written test,	K_W06+ K_W07+ K_U07+ K_U08+ K_U12+ K_U16+ K_U17+ K_U24+ K_U25+ K_K01+	P6S_KK P6S_UK P6S_UO P6S_UU P6S_UW P6S_WG
03	Designs and implements a basic services and protocols in computer systems and networks	Lecture, project, laboratory	presentation of the project, observation, exam, written test	K_W06+ K_W08+ K_U08+ K_U12+ K_U17+ K_U24+ K_K03+	P6S_KO P6S_KR P6S_UK P6S_UO P6S_UW P6S_WG
04	Builds a simple computer networks and configure a simple operating system services	lecture, laboratory, poject	presentation of the project, observation, exam, written test	K_W06+ K_W08+ K_U08+ K_U12+ K_U24+ K_K03+	P6S_KO P6S_KR P6S_UK P6S_UO P6S_UW P6S_WG
05	He knows and can describe the basic techniques, the methodologies used in the design, and can to apply them	interactive lecture, team project, laboratory	presentation of the project, observation, exam, written test	K_W06+ K_W07+ K_W08+ K_U06+ K_U07+ K_U08+ K_U12+ K_U24+ K_U25+ K_K01+	P6S_KK P6S_UK P6S_UO P6S_UU P6S_UW P6S_WG

Attention: Depending on the epidemic situation, verification of the achieved learning outcomes specified in the study program, in particular credits and examinations at the end of specific classes, can be implemented remotely (real-time meetings).

The syllabus of the module

Sem.	TK	The content	realized in	MEK
3	TK01	Organizational classes. Determining the form of passing the classes and the scope of the material. Familiarizing with the principles of project implementation and presentation, rules of work in the laboratory	W01, P, L
3	TK02	Introduction, the basis of the design process	W02, P, L	MEK01 MEK02
3	TK03	Architecture of computer systems and computer network topologies and their parameters	W03, P, L	MEK01 MEK02
3	TK04	The analysis of business needs, constraints of the design process	W04, P, L	MEK02 MEK03 MEK05
3	TK05	The analysis of technical goals of the designed system	W05, P, L	MEK02 MEK03 MEK05
3	TK06	Design of network and computer systems, mechanisms for addressing network design, routing design, the rules of routing and switching protocol choose	W06, P, L	MEK03 MEK04
3	TK07	Design and implementation of basic security mechanisms in network and computer systems	W07, P, L	MEK03 MEK04 MEK05
3	TK08	Strategies to manage networks and computer systems and methods of their implementation, rules of equipment selection and the creation of specifications for the project	W08, P	MEK01 MEK05
3	TK09	Evaluation of the design process, testing the constructed system, the life cycle	W09-10,P	MEK01 MEK05

The student's effort

The type of classes	The work before classes	The participation in classes	The work after classes
Lecture (sem. 3)	The preparation for a test: 5.00 hours/sem.	contact hours: 20.00 hours/sem.	complementing/reading through notes: 2.00 hours/sem. Studying the recommended bibliography: 5.00 hours/sem.
Laboratory (sem. 3)	The preparation for a Laboratory: 3.00 hours/sem.	contact hours: 15.00 hours/sem.
Project/Seminar (sem. 3)	The preparation for projects/seminars: 5.00 hours/sem.	contact hours: 15.00 hours/sem..	Doing the project/report/ Keeping records: 5.00 hours/sem. The preparation for the presentation: 2.00 hours/sem.
Advice (sem. 3)		The participation in Advice: 1.00 hours/sem.
Credit (sem. 3)	The preparation for a Credit: 9.00 hours/sem.	The written credit: 1.00 hours/sem.

The way of giving the component module grades and the final grade

The type of classes	The way of giving the final grade
Lecture	Writen exam
Laboratory	The basis for obtaining grade is the presence of the student in all classes and execution of tasks. The student must submit a report at the end of classes. The final evaluation is the resultant average grade reports and grades obtained during laboratories.
Project/Seminar	Each student performs the design task in groups of up to 3 person. Students report the/presenting progress of design work on the design classes and consultation activities. The project is evaluated on the basis of the final presentation.
The final grade	The final grade is given as arithmetic mean of the final exam, project and laboratory

Sample problems

Required during the exam/when receiving the credit
(-)

Realized during classes/laboratories/projects
(-)

Others
(-)

Can a student use any teaching aids during the exam/when receiving the credit : no

The contents of the module are associated with the research profile: yes

1	M. Bolanowski; C. Ćwikła; M. Ganzha; M. Hodoň; M. Paprzycki; A. Paszkiewicz	Multifunctional clustering based on the LEACH algorithm for edge-cloud continuum ecosystem	2024
2	A. Bełzo; M. Bolanowski; A. Dzierwa; A. Paszkiewicz; M. Salach	Application of VR Technology in the Process of Training Engineers	2023
3	K. Bogacka; M. Bolanowski; A. Danilenka; A. Dąbrowska; M. Ganzha; M. Kobus; M. Paprzycki; A. Paszkiewicz; K. Rachwał; P. Sowiński	Frugal Heart Rate Correction Method for Scalable Health and Safety Monitoring in Construction Sites	2023
4	M. Bolanowski; A. Kraska; A. Paszkiewicz; M. Salach; J. Więcek	Network Aspects of Remote 3D Printing in the Context of Industry as a Service IDaaS	2023
5	M. Bolanowski; A. Paszkiewicz; G. Piecuch; D. Rączka; M. Salach; T. Żabiński	Estimation of Tool Life in the Milling Process—Testing Regression Models	2023
6	M. Bolanowski; A. Paszkiewicz; G. Piecuch; M. Salach; K. Tomecki; T. Żabiński	System Architecture for Diagnostics and Supervision of Industrial Equipment and Processes in an IoE Device Environment	2023
7	M. Bolanowski; G. Budzik; N. Cierpicki; M. Ganzha; M. Paprzycki; A. Paszkiewicz; M. Salach; J. Woźniak; D. Wydrzyński	Use of virtual reality to facilitate engineer training in the aerospace industry	2023
8	M. Bolanowski; H. Mazur; A. Paszkiewicz	Use of Traffic Sampling in Anomaly Detection for High-Throughput Network Links	2023
9	M. Bolanowski; M. Ganzha; A. Gerka; M. Paprzycki; A. Paszkiewicz	Application of Genetic Algorithm to Load Balancing in Networks with a Homogeneous Traffic Flow	2023
10	M. Bolanowski; M. Ganzha; J. Kumar; C. Palau; M. Paprzycki; A. Paszkiewicz; W. Pawłowski; J. Samriya; B. Solarz-Niesłuchowski; I. Úbeda; K. Wasielewska-Michniewska	Towards 6G-Enabled Edge-Cloud Continuum Computing – Initial Assessment	2023
11	A. Bădică; C. Bădică; M. Bolanowski; S. Fidanova; M. Ganzha; S. Harizanov; M. Ivanovic; I. Lirkov; M. Paprzycki; A. Paszkiewicz; K. Tomczyk	Cascaded Anomaly Detection with Coarse Sampling in Distributed Systems	2022
12	M. Bolanowski; C. Ćwikła; M. Ganzha; C. Palau; M. Paprzycki; A. Paszkiewicz; I. Úbeda	Network Load Balancing for Edge-Cloud Continuum Ecosystems	2022
13	M. Bolanowski; G. Budzik; M. Ganzha; F. Konstantinidis; C. Palau; M. Paprzycki; A. Paszkiewicz; M. Salach; H. Wójcik	Implementation of UI Methods and UX in VR in Case of 3D Printer Tutorial	2022
14	M. Bolanowski; M. Ganzha; I. Lacalle; C. Palau; M. Paprzycki; A. Paszkiewicz; P. Sowiński; K. Żak	Eficiency of REST and gRPC Realizing Communication Tasks in Microservice-Based Ecosystems	2022
15	M. Bolanowski; M. Ganzha; M. Kumar; J. Kumar Samriya; M. Paprzycki; A. Paszkiewicz	An Energy Aware Clustering Scheme for 5G-Enabled Edge Computing Based IoMT Framework	2022
16	M. Bolanowski; P. Krogulski	Rapid remote access system for heterogeneous laboratory resources	2022
17	M. Bolanowski; A. Kraska; A. Paszkiewicz	Integration of the elements of a distributed IT system with a computer network core using island topology	2021
18	M. Bolanowski; A. Paszkiewicz	Sustainable development in the field of IoT-focused network engineer education based on simulation tools	2021
19	M. Bolanowski; A. Paszkiewicz; B. Rumak	Coarse Traffic Classification for High-Bandwidth Connections in a Computer Network Using Deep Learning Techniques	2021
20	M. Bolanowski; G. Budzik; M. Kiełbicki; Ł. Kochmański; A. Paszkiewicz; P. Poliński; M. Przytuła; J. Woźniak	Incremental processing of polymer materials using the INDUSTRY 4.0 network structure	2021
21	M. Bolanowski; G. Budzik; P. Dymora; P. Kubiak; A. Paszkiewicz; M. Salach	Methodology of Implementing Virtual Reality in Education for Industry 4.0	2021
22	M. Bolanowski; A. Paszkiewicz	Software for Integration of Manufacturing Resources in the Hybrid Cloud Model for Industry 4.0	2020
23	M. Bolanowski; G. Budzik; M. Oleksy; A. Paszkiewicz; T. Pisz; Ł. Przeszłowski; P. Sowa	Remote Design and Manufacture through the Example of a Ventilator	2020
24	M. Bolanowski; G. Budzik; M. Oleksy; A. Paszkiewicz; Ł. Przeszłowski	Process of Creating an Integrated Design and Manufacturing Environment as Part of the Structure of Industry 4.0	2020
25	M. Bolanowski; A. Paszkiewicz; P. Zapała	Phase Transitions in Wireless MESH Networks and Their Application in Early Detection of Network Coherence Loss	2019
26	M. Bolanowski; G. Budzik; D. Mazur; M. Oleksy; A. Paszkiewicz	Analysis of possible SDN use in the rapid prototyping process as part of the Industry 4.0	2019
27	M. Bolanowski; G. Budzik; M. Oleksy; A. Paszkiewicz	Przemysł 4.0 cz. II. Uwarunkowania w obszarze technologii wytwarzania i architektury systemu informatycznego w przetwórstwie tworzyw polimerowych	2019
28	M. Bolanowski; P. Dymora; B. Kowal; M. Mazurek; M. Salach	Raport dotyczący: analizy uwarunkowań technicznych wdrażania technologii VR w dydaktyce na kierunkach automatyka i robotyka oraz informatyka prowadzonych przez WEiI z potencjalnymi zastosowaniami dla Przemysłu 4.0	2019