Cycle of education: 2019/2020
The name of the faculty organization unit: The faculty Mathematics and Applied Physics
The name of the field of study: Engineering and data analysis
The area of study: sciences
The profile of studing:
The level of study: first degree study
Type of study: full time
discipline specialities :
The degree after graduating from university: engineer
The name of the module department : Department of Complex Systems
The code of the module: 12318
The module status: mandatory for teaching programme
The position in the studies teaching programme: sem: 2 / W20 L30 / 5 ECTS / E
The language of the lecture: Polish
The name of the coordinator 1: Marek Bolanowski, PhD, Eng.
office hours of the coordinator: https://bolanowski.v.prz.edu.pl/konsultacje
The name of the coordinator 2: Andrzej Paszkiewicz, PhD, Eng.
office hours of the coordinator: https://paszkiewicz.v.prz.edu.pl/pl/konsultacje
The main aim of study: The main aim of education on the module is the presentation of selected issues in the field of architecture and the functioning of computer networks.
The general information about the module: The module provides the student familiar with the basics of the computer networks topologies, addressing mechanisms, switching, routing that are used in computer networks.
Teaching materials: http://so.prz.edu.pl
1 | M. Hajder, H. Loutskii, W. Stręciwilk | Informatyki. Wirtualna podróż w świat systemów i sieci komputerowych. | Wydawnictwo WSIiZ. | 2002. |
2 | D. E. Comer | Sieci komputerowe i intersieci | Helion. | 2012. |
3 | Andrew S. Tanenbaum | Sieci komputerowe | Helion. | 2004. |
1 | Alcatel-Lucent | OmniSwitch Network Configuration Guide | Alcatel-Lucent. | 2016 |
1 | J. Casad | TCP/IP w 24 godziny | TCP/IP w 24 godziny. | 2018 |
Formal requirements: The student should know the basic issues in the field of computer systems. The student satisfies the formal requirements set out in the study regulations.
Basic requirements in category knowledge: Student should have knowledge of mathematical, computer systems used to formulate and solve engineering tasks related to computer science.
Basic requirements in category skills: The student should be able to use know ledge of methematical to describe and carry out simple engineering (computer science) tasks.
Basic requirements in category social competences: The student should be able to w ork individually and in a team, presenting its results in a group and as a report.
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 | Explains the importance of individual elements of computer network architecture, types and parameters of topology, and classifies computer networks | lecture, laboratory | Written exam |
K_W06+ K_W07+ K_U17+ K_K01+ |
P6S_KK P6S_UW P6S_WG |
02 | Creates an IP addressing scheme and assigns addresses to individual network devices. | Lecture, Laboratory | Written exam, short test, performance observation |
K_W06+ K_W08+ K_U12++ |
P6S_UW P6S_WG |
03 | Explains the importance of the various layers of the ISO / OSi and TCP / IP model | Lecture, Laboratory | Written exam |
K_W06+ K_U12++ K_U17++ K_K01+ |
P6S_KK P6S_UW P6S_WG |
04 | Explains the principle of VLAN operation, switch function and switching methods. | Lecture, laboratory | Written exam, short test, performance observation |
K_W06+ K_W08+ K_U12+++ K_U17++ K_U24+ K_K01+ K_K03+ |
P6S_KK P6S_KO P6S_KR P6S_UK P6S_UO P6S_UW P6S_WG |
05 | Knows how the spanning tree protocols work. | Lecture, Laboratory | Written exam, short test, performance observation |
K_W06+ K_W08+ K_U12+++ K_U17++ K_U24+ K_K01+ K_K03+ |
P6S_KK P6S_KO P6S_KR P6S_UK P6S_UO P6S_UW P6S_WG |
06 | Explains the construction and application of individual transmission media. | Lecture laboratory | Written exam |
K_W06+ K_W07++ K_U12+++ K_U17++ K_K01+ |
P6S_KK P6S_UW P6S_WG |
07 | Explains the essence of routing and configures static and dynamic routing on devices. | Lecture, Laboratory | Written exam, short test, performance observation |
K_W06+ K_W08+ K_U12+++ K_U17++ K_U24+ K_K01+ K_K03+ |
P6S_KK P6S_KO P6S_KR P6S_UK P6S_UO 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).
Sem. | TK | The content | realized in | MEK |
---|---|---|---|---|
2 | TK01 | W01, L01 | ||
2 | TK02 | W02, L02 | MEK01 | |
2 | TK03 | W03, L02-03 | MEK02 | |
2 | TK04 | W04, L04 | MEK03 | |
2 | TK05 | W05, L05, L07 | MEK01 | |
2 | TK06 | W06, L06 | MEK04 | |
2 | TK07 | W07, L08 | MEK05 | |
2 | TK08 | W08, L09 | MEK06 | |
2 | TK09 | W09-10, L10-15 | MEK07 |
The type of classes | The work before classes | The participation in classes | The work after classes |
---|---|---|---|
Lecture (sem. 2) | contact hours:
20.00 hours/sem. |
complementing/reading through notes:
20.00 hours/sem. Studying the recommended bibliography: 20.00 hours/sem. |
|
Laboratory (sem. 2) | The preparation for a Laboratory:
30.00 hours/sem. |
contact hours:
30.00 hours/sem. |
|
Advice (sem. 2) | The preparation for Advice:
2.00 hours/sem. |
The participation in Advice:
2.00 hours/sem. |
|
Exam (sem. 2) | The preparation for an Exam:
15.00 hours/sem. |
The written exam:
1.00 hours/sem. |
The type of classes | The way of giving the final grade |
---|---|
Lecture | The lecture ends with a written exam. |
Laboratory | the basis for obtaining a pass is the student's presence in classes, performing tasks being the subject of classes, obtaining positive grades from passes and submitting a report to the teacher at the end of each class. The final evaluation is the resultant average grade from entrances and grades obtained during laboratories. |
The final grade | Final assessment is issued as a w eighted average two thirds of lecture and third grades in laboratory. |
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
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. Bazan; G. Budzik; J. Cebulski; M. Dębski; T. Dziubek; J. Józwik; A. Kawalec; M. Kiełbicki; Ł. Kochmański; I. Kuric; M. Oleksy; A. Paszkiewicz; P. Poliński; P. Turek | Geometrical Accuracy of Threaded Elements Manufacture by 3D Printing Process | 2023 |
3 | A. Bełzo; M. Bolanowski; A. Dzierwa; A. Paszkiewicz; M. Salach | Application of VR Technology in the Process of Training Engineers | 2023 |
4 | A. Paszkiewicz; B. Pawłowicz; M. Salach; K. Siwiec; K. Strzępek; B. Trybus | Quantitative and Qualitative Analysis of Agricultural Fields Based on Aerial Multispectral Images Using Neural Networks | 2023 |
5 | 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 |
6 | 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 |
7 | M. Bolanowski; A. Paszkiewicz; G. Piecuch; D. Rączka; M. Salach; T. Żabiński | Estimation of Tool Life in the Milling Process—Testing Regression Models | 2023 |
8 | 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 |
9 | 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 |
10 | M. Bolanowski; H. Mazur; A. Paszkiewicz | Use of Traffic Sampling in Anomaly Detection for High-Throughput Network Links | 2023 |
11 | 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 |
12 | 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 |
13 | 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 |
14 | G. Budzik; A. Nikodem; A. Paszkiewicz; M. Salach; D. Strzałka; M. Witek; H. Wójcik | VR Education Support System—A Case Study of Digital Circuits Design | 2022 |
15 | G. Budzik; J. Cebulski; M. Dębski; T. Dziubek; J. Jóźwik; A. Kawalec; M. Kiełbicki; Ł. Kochmański; I. Kuric; M. Oleksy; A. Paszkiewicz; P. Poliński; P. Turek | Strength of threaded connections additively produced from polymeric materials | 2022 |
16 | G. Budzik; K. Bulanda; D. Filip; J. Jabłoński; A. Łazorko; M. Oleksy; A. Paszkiewicz; Ł. Przeszłowski; J. Sęp; S. Snela; P. Turek; S. Wolski | Manufacturing Polymer Model of Anatomical Structures with Increased Accuracy Using CAx and AM Systems for Planning Orthopedic Procedures | 2022 |
17 | G. Budzik; M. Oleksy; R. Oliwa; A. Paszkiewicz; Ł. Przeszłowski; B. Sobolewski; M. Wieczorowski; J. Woźniak | The Place of 3D Printing in the Manufacturing and Operational Process Based on the Industry 4.0 Structure | 2022 |
18 | G. Budzik; T. Dziubek; P. Fudali; A. Paszkiewicz; Ł. Przeszłowski; J. Woźniak | Analysis of the quality of products manufactured with the application of additive manufacturing technologies with the possibility of applying the Industry 4.0 conception | 2022 |
19 | M. Bolanowski; C. Ćwikła; M. Ganzha; C. Palau; M. Paprzycki; A. Paszkiewicz; I. Úbeda | Network Load Balancing for Edge-Cloud Continuum Ecosystems | 2022 |
20 | 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 |
21 | 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 |
22 | 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 |
23 | M. Bolanowski; P. Krogulski | Rapid remote access system for heterogeneous laboratory resources | 2022 |
24 | A. Paszkiewicz | Modeling and Analysis of Anomalies in the Network Infrastructure Based on the Potts Model | 2021 |
25 | A. Paszkiewicz; B. Pawłowicz; M. Salach; B. Trybus | Traffic Intersection Lane Control Using Radio Frequency Identification and 5G Communication | 2021 |
26 | G. Budzik; K. Bulanda; M. Magniszewski; M. Oleksy; R. Oliwa; A. Paszkiewicz; Ł. Przeszłowski | Torsional strength tests of spline connections made of polymer materials (Rapid communication) | 2021 |
27 | G. Budzik; M. Dębski; T. Dziubek; A. Paszkiewicz; Ł. Przeszłowski; J. Woźniak | Methodology for the Quality Control Process of Additive Manufacturing Products Made of Polymer Materials | 2021 |
28 | G. Budzik; M. Kiełbicki; A. Paszkiewicz; P. Poliński; M. Przytuła | Analiza rozwiązań zdalnych aplikacji sterowania i monitoringu procesu druku 3D | 2021 |
29 | J. Dajda; W. Dzwinel; B. Hnatkowska; M. Idzik; P. Jabłecki; W. Kania; E. Majerz; M. Malawski; A. Pasternak; A. Paszkiewicz; W. Pawłowski; M. Sikora; M. Smołka; J. Sroka; F. Ślazyk; J. Świebocka-Więk; W. Thomas | Current Trends in Software Engineering Bachelor Theses | 2021 |
30 | M. Bolanowski; A. Kraska; A. Paszkiewicz | Integration of the elements of a distributed IT system with a computer network core using island topology | 2021 |
31 | M. Bolanowski; A. Paszkiewicz | Sustainable development in the field of IoT-focused network engineer education based on simulation tools | 2021 |
32 | M. Bolanowski; A. Paszkiewicz; B. Rumak | Coarse Traffic Classification for High-Bandwidth Connections in a Computer Network Using Deep Learning Techniques | 2021 |
33 | 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 |
34 | M. Bolanowski; G. Budzik; P. Dymora; P. Kubiak; A. Paszkiewicz; M. Salach | Methodology of Implementing Virtual Reality in Education for Industry 4.0 | 2021 |
35 | A. Paszkiewicz; J. Węgrzyn | Responsiveness of the Sensor Network to Alarm Events Based on the Potts Model | 2020 |
36 | G. Budzik; J. Jóźwik; M. Oleksy; A. Paszkiewicz; P. Turek; J. Woźniak; D. Żelechowski | Analysis of Wear of the Polymer Mold in the Production of Wax Casting Models of Aircraft Engine Blades | 2020 |
37 | G. Budzik; J. Jóźwik; Ł. Kochmański; M. Oleksy; A. Paszkiewicz; Ł. Przeszłowski; J. Sęp; P. Turek; D. Żelechowski | An Analysis of the Casting Polymer Mold Wear Manufactured Using PolyJet Method Based on the Measurement of the Surface Topography | 2020 |
38 | K. Iwaniec; A. Paszkiewicz | Evolutionary approach based on the ising model to analyze changes in the structure of the IT networks | 2020 |
39 | M. Bolanowski; A. Paszkiewicz | Software for Integration of Manufacturing Resources in the Hybrid Cloud Model for Industry 4.0 | 2020 |
40 | 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 |
41 | 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 |
42 | P. Dymora; A. Paszkiewicz | Performance Analysis of Selected Programming Languages in the Context of Supporting Decision-Making Processes for Industry 4.0 | 2020 |
43 | A. Paszkiewicz; R. Pękala; J. Węgrzyn | Możliwości zastosowania oprogramowania Scilab do projektowania i modelowania sieci komputerowych | 2019 |
44 | K. Iwaniec; A. Paszkiewicz | Use of ising model for analysis of changes in the structure of the IT network | 2019 |
45 | M. Bolanowski; A. Paszkiewicz; P. Zapała | Phase Transitions in Wireless MESH Networks and Their Application in Early Detection of Network Coherence Loss | 2019 |
46 | 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 |
47 | 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 |
48 | 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 |