General information:
Code:
UBPJO-093
Name:
Computer networks
Profile of education:
Academic (A)
Lecture language:
English
Semester:
Spring
Responsible teacher:
dr inż. Czekierda Łukasz (luke@agh.edu.pl)
Academic teachers:
dr inż. Czekierda Łukasz (luke@agh.edu.pl)
Module summary

Description of learning outcomes for module
MLO code Student after module completion has the knowledge/ knows how to/is able to Connections with FLO Method of learning outcomes verification (form of completion)
Skills
M_U001 Basic onfiguration of computer networks Activity during classes,
Execution of laboratory classes
M_U002 Basic network troubleshooting skills Execution of laboratory classes
Knowledge
M_W001 Understanding of layered models in networking Examination
M_W002 Understanding of routing and routing protocols' operation Examination
M_W003 Addressing in computer networks Examination
FLO matrix in relation to forms of classes
MLO code Student after module completion has the knowledge/ knows how to/is able to Form of classes
Lecture
Audit. classes
Lab. classes
Project classes
Conv. seminar
Seminar classes
Pract. classes
Zaj. terenowe
Zaj. warsztatowe
Others
E-learning
Skills
M_U001 Basic onfiguration of computer networks - - + - - - - - - - -
M_U002 Basic network troubleshooting skills - - + - - - - - - - -
Knowledge
M_W001 Understanding of layered models in networking + - - - - - - - - - -
M_W002 Understanding of routing and routing protocols' operation + - - - - - - - - - -
M_W003 Addressing in computer networks + - - - - - - - - - -
Module content
Lectures:
  1. Introduction. OSI/ISO and TCP/IP models
  2. Physical layer of the OSI/ISO model
  3. Data link layer of the ISO/OSI model. Ethernet.
  4. Network layer of the OSI/ISO model.
  5. IP addressing. Static routing
  6. Dynamic routing in IP networks
  7. Transport layer of the OSI/ISO model
Laboratory classes:
  1. Physical layer of the ISO/OSI model
  2. Basics of Ethernet
  3. VLANs and Spanning Tree Protocol
  4. Introduction to IP. ARP. DHCP
  5. Static routing in IP networks
  6. Configuraion of RIP – a distance-vector dynamic routing protocol
  7. Configuration of OSPF – a link state dynamic routing protocol
Student workload (ECTS credits balance)
Student activity form Student workload
Summary student workload 100 h
Module ECTS credits 4 ECTS
Examination or Final test 2 h
Participation in lectures 14 h
Participation in laboratory classes 14 h
Realization of independently performed tasks 20 h
Preparation for classes 50 h
Additional information
Method of calculating the final grade:

50%: grade for laboratories
50%: grade for the exam

Prerequisites and additional requirements:

Prerequisites and additional requirements not specified

Recommended literature and teaching resources:

Selected RFC documents.

Scientific publications of module course instructors related to the topic of the module:

Additional scientific publications not specified

Additional information:

None