PowerPoint Presentation 1 Telecomm Dept Faculty of EEE DCN HCMUT Data Communication and Networking Dr –Ing Vo Que Son Email sonvq@hcmut edu vn 2 Telecomm Dept Faculty of EEE DCN HCMUT Content Credit[.]
Data Communication and Networking Dr –Ing Vo Que Son Email: sonvq@hcmut.edu.vn Telecomm Dept Faculty of EEE DCN HCMUT Content Credit: Grading Policy: Midterm Exam: Experiment: Final Exam: 20% 20% 60% PI Assessment: a1 (ABET criteria) on Midterm and Final exams Reference: [1] Communication Networks, Leon-Garcia [2] Computer Networking: A Top Down Approach Featuring the Internet, J.F Kurose et al [3] Data Communication and Networking – Behrouz A Forouzan [4] Data Communications, Computer Networks and Open Systems, Fred Halsall [5] Lecture notes The course slides are also prepared in combination with the use of other information sources Telecomm Dept Faculty of EEE DCN HCMUT Course Outcomes and Program Outcome No Course learning outcomes (Theory) CDIO ABET L.O.1 Understanding background of transmission media and PHY 2.1, 2.2, 2.3 a1(P), e2(S) layer, and applying knowledge of physical interface standards in data transmission L.O.2 Deeply understanding basic data transmission techniques: 2.1 a1(P), e1(S) asynchronous and synchronous data transmission, error detection and correction, source coding L.O.3 Clearly understanding basic protocols of data link layer and 2.1, 2.3 a1(S), e1(S) can be able to build communication protocols in reality L.O.4 Understanding telco networks, IP networks and being able to apply in reality L.O.5 Be able to build simple data networks, and manage network devices 2.1, 2.3, 2.4, 4.1 2.2, 2.3, 3.1, 4.3 e2(S), e3(S) b2(S), b3(S) ABET Criteria a: An ability to apply knowledge of mathematics, science, and engineering - PI a1: Use probability and statistics to model situations in engineering Telecomm Dept Faculty of EEE DCN HCMUT Content Chapter 1: Medium and PHY Layer Wired and Wireless Media Physical layer standards: RS232, RS422, RS485 Line Coding Digital modulation/demodulation Channel parameters Gaussian noise and BER Chapter 2: Data Communications Asynchronous data transmission Synchronous data transmission Channel Coding Data Compression Telecomm Dept Faculty of EEE DCN HCMUT Content Chapter 3: Data Link Layer Protocols Flow Control Error Control Connection Management Data link layer Protocols Chapter 4: Communication Networks Introduction to communication networks 802.x standard and TCP/IP Model Ethernet, Token Pass, Token Ring IP Addressing: Classless and VLSM Network devices Switching and Routing STP, VLAN Telecomm Dept Faculty of EEE DCN HCMUT Content Chapter 5: Industrial Networks MODBUS CAN (Controller Area Network) SCADA (Supervisory Control And Data Acquisition) Telecomm Dept Faculty of EEE DCN HCMUT OSI Model What is OSI model? Open System Interconnection Why we have to use OSI model? System and Device Design Trouble-shooting OSI model: PHY layer MAC layer Network layer Session layer Presentation layer Application layer Telecomm Dept Faculty of EEE DCN HCMUT OSI Model: Layer Functions Telecomm Dept Faculty of EEE DCN HCMUT Communication in OSI model At each level, two entities (N-entity peers) interact by means of the N protocol by transmitting protocol data units (PDU) A service data unit (SDU) is a specific unit of data that has been passed down from an OSI layer to a lower layer, and which the lower layer has not yet encapsulated into a protocol data unit (PDU) An SDU is a set of data that is sent by a user of the services of a given layer, and is transmitted semantically unchanged to a peer service user The PDU at a layer N is the SDU of layer N1 In effect the SDU is the 'payload' of a given PDU All the data contained in the SDU becomes encapsulated within the PDU The layer N-1 adds headers or footers, or both, to the SDU, transforming it into a PDU of layer N-1 The added headers or footers are part of the process used to make it possible to get data from a source to a destination Telecomm Dept Faculty of EEE DCN HCMUT