1 / 183

Applied Telecommunications Systems and Technologies

Applied Telecommunications Systems and Technologies. Professor Michael Khader Tel 973-596-6078 Office: ITC 2106 Office Hours:. Lecture1. Communications Essentials. Overview. Basic Communications Model Data Communication Networking Protocols and Protocol Architecture

emily-ramsey
Download Presentation

Applied Telecommunications Systems and Technologies

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Applied Telecommunications Systems and Technologies Professor Michael Khader Tel 973-596-6078 Office: ITC 2106 Office Hours:

  2. Lecture1 Communications Essentials

  3. Overview

  4. Basic Communications Model Data Communication Networking Protocols and Protocol Architecture Files, text, communication The Public Telephone Network Transmission Media Data Representation and encoding Topics

  5. Source generates data to be transmitted Transmitter Converts data into transmittable signals Transmission System Carries data Receiver Converts received signal into data Destination Takes incoming data A Communications Model

  6. Simplified Communications Model - Diagram

  7. Transmission System Utilization Interfacing Signal Generation Synchronization Exchange Management Error detection and correction Addressing and routing Recovery Message formatting Security Network Management Key Communications Tasks

  8. Simplified Data Communications Model

  9. Point to point communication not usually practical Devices are too far apart Large set of devices would need impractical number of connections Solution is a communications network Networking

  10. Simplified Network Model

  11. Large geographical area Crossing public rights of way Rely in part on common carrier circuits Alternative technologies Circuit switching Packet switching Frame relay Asynchronous Transfer Mode (ATM) Wide Area Networks

  12. Dedicated communications path established for the duration of the conversation e.g. telephone network Circuit Switching

  13. Data sent out of sequence Small chunks (packets) of data at a time Packets passed from node to node between source and destination Used for terminal to computer and computer to computer communications Packet Switching

  14. Packet switching systems have large overheads to compensate for errors Modern systems are more reliable Errors can be caught in end system Most overhead for error control is stripped out Frame Relay

  15. ATM Evolution of frame relay Little overhead for error control Fixed packet (called cell) length Anything from 10Mbps to Gbps Constant data rate using packet switching technique Asynchronous Transfer Mode

  16. ISDN Designed to replace public telecom system Wide variety of services Entirely digital domain Integrated Services Digital Network

  17. Smaller scope Building or small campus Usually owned by same organization as attached devices Data rates much higher Usually broadcast systems Now some switched systems and ATM are being introduced Local Area Networks

  18. Used for communications between entities in a system Must speak the same language Entities User applications e-mail facilities terminals Systems Computer Terminal Remote sensor Protocols

  19. Syntax Data formats Signal levels Semantics Control information Error handling Timing Speed matching Sequencing Key Elements of a Protocol

  20. Task of communication broken up into modules For example file transfer could use three modules File transfer application Communication service module Network access module Protocol Architecture

  21. Simplified File Transfer Architecture

  22. Network Access Layer Transport Layer Application Layer A Three Layer Model

  23. Exchange of data between the computer and the network Sending computer provides address of destination May invoke levels of service Dependent on type of network used (LAN, packet switched etc.) Network Access Layer

  24. Reliable data exchange Independent of network being used Independent of application Transport Layer

  25. Support for different user applications e.g. e-mail, file transfer Application Layer

  26. Two levels of addressing required Each computer needs unique network address Each application on a (multi-tasking) computer needs a unique address within the computer The service access point or SAP Addressing Requirements

  27. Protocol Architectures and Networks

  28. Protocols in Simplified Architecture

  29. At each layer, protocols are used to communicate Control information is added to user data at each layer Transport layer may fragment user data Each fragment has a transport header added Destination SAP Sequence number Error detection code This gives a transport protocol data unit Protocol Data Units (PDU)

  30. Adds network header network address for destination computer Facilities requests Network PDU

  31. Operation of a Protocol Architecture

  32. Developed by the US Defense Advanced Research Project Agency (DARPA) for its packet switched network (ARPANET) Used by the global Internet No official model but a working one. Application layer Host to host or transport layer Internet layer Network access layer Physical layer TCP/IP Protocol Architecture

  33. Physical interface between data transmission device (e.g. computer) and transmission medium or network Characteristics of transmission medium Signal levels Data rates etc. Physical Layer

  34. Exchange of data between end system and network Destination address provision Invoking services like priority Network Access Layer

  35. Systems may be attached to different networks Routing functions across multiple networks Implemented in end systems and routers Internet Layer (IP)

  36. Reliable delivery of data Ordering of delivery Transport Layer (TCP)

  37. Support for user applications e.g. http, SMPT Application Layer

  38. TCP/IP Protocol Architecture Model

  39. Open Systems Interconnection Developed by the International Organization for Standardization (ISO) Seven layers A theoretical system delivered too late! TCP/IP is the de facto standard OSI Model

  40. Application Presentation Session Transport Network Data Link Physical OSI Layers

  41. OSI v TCP/IP

  42. Internet Society ISO ITU-T (formally CCITT) ATM forum Standards Organizations

  43. Types of Communications • Based on directional flow • simplex • half duplex • full duplex

  44. Communication classification • Based on devices and links configuration • point-to-point • A single link with two devices • multipoint • Multiple devices on a single link, On may by a broadcaster and others are receivers.

  45. Relationship between Files, Data, and Signals • Files are collection of characters from a code set (possibly ASCII) • When a file to be transmitted: • The characters are translated into 1’s and 0’s • An electrical signal representing the 1’s and 0’s is placed on the transmission medium • The receiver, converts the incoming electrical signal into 1’s and 0’s, then into characters that make up the original file.

  46. Synchronous & Asynchronous transmission • Asynchronous • A character in a message is transmitted as an individual entity, without regard to when the previous character was transmitted • Synchronous • All characters in a message are sent contiguously, framing characters indicate the beginning and end of the entire message

More Related