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DATA COMMUNICATION AND NETWORKS

DATA COMMUNICATION AND NETWORKS 1. Define the term Computer Networks. A Computer network is a number if computers interconnected by one or more transmission paths. The transmission path often is the telephone line, due to its convenience and universal preserve. 2. Define Data Communication. Data Communication is the exchange of data (in the form of Os and 1s) between two devices via some form of transmission medium (such as a wire cable). 3. What is the fundamental purpose behind data Communication? The purpose of data communication is to exchange information between two agents. 4. List out the types of data Communication. Data Communication is considered Local – if the communicating device are in the same building. Remote – if the device are farther apart. 5. Define the terms data and information. Data: is a representation of facts, concepts and instructions presented in a formalized manner suitable for communication, interpretation or processing by human beings or by automatic means. Information: is currently assigned to data by means by the conventions applied to those data. 6. What are the fundamental characteristics on which the effectiveness of data communication depends on? The effectiveness of a data communication system depends on three characteristics. 1. Delivery: The system must deliver data to the correct destination. 2. Accuracy: The system must deliver data accurately. 3. Timeliness: The system must deliver data in a timely manner. 7. Give components of data communication. 1. 2. 3. 4. Message – the message is the information to be communicated. Sender – the sender is the device that sends the data message. Receiver – the receiver is the device that receive the message. Medium – the transmission medium is the physical path by which a message travels from sender to receiver. 5. Protocol – A protocol is a set of rules that govern data communication. 8. Define Network. A Network is a set of devices (nodes) connected by media links. A node can be a computer, printer, or any other device capable of sending and / or receiving data generated by other nodes on the network. 9. What are the advantage of distributed processing? 1. 2. 3. 4. 5. Security / Encapsulation Distributed database Faster problem solving Security through redundancy Collaborative processing 10. What are the three criteria necessary for an effective and efficient network? 1. Performance 2. Reliability 3. Security 11. Name the factors that affect the performance of a network -performance of a network depends on a number of factors, 1. 2. 3. 4. Number of users Type of transmission medium Capabilities of the connected hardware Efficiency of software. 12. Name of the factors that affect the performance of a network. 1. Frequency of failure 2. Recovery time of a network after a failure. 3. Catastrophe. 13. Name the factors that affect the security of a network. Network security issues include protecting data from unauthorized access and viruses. 14. Define PROTOCOL A protocol is a set of rules (conventions) that govern all aspects of data communication. 15. Give the key elements of protocol. • • Syntax: refers to the structure or format of the data, meaning the order in which they are presented. Semantics: refers to the meaning of each section of bits. 1. Timing: refers to two characteristics. 2. When data should be sent and 3. How fast they can be sent. 16. Define line configuration and give its types. - Line configuration refers to the way two or more communication devices attach to a link. There are two possible line configurations: i. Point to point and ii. Multipoint. - 17. Define topology and mention the types of topologies. Topology defines the physical or logical arrangement of links in a network Types of topology : - Mesh Star Tree Bus Ring 18. Define Hub. In a star topology, each device has a dedicated point to point link only to a central controller usually called a hub. 19. Give an advantage for each type of network topology. 1. Mesh topology: * Use of dedicated links guarantees that each connection can carry its own data load, thus eliminating traffic problems. * Robust and privacy / security. 2. Star topology: * Less expensive than mesh. * Needs only one link and one input and output port to connect it any number of others. * Robustness. 3. Tree topology: * same as those of a star. 4. Bus topology: * Ease of installation. * Uses less cabling than mesh, star or tree topologies. 5. Ring topology: * A ring is relatively easy to install and reconfigure. * Each device is linked only to its immediate neighbors. • Fault isolation is simplified. 20. Define transmission mode and its types. Transmission mode defines the direction of signal flow between two linked devices. Transmission modes are of three types. - Simplex Half duplex Full duplex. 21. What is LAN? Local Area Network (LAN) is a network that uses technology designed to span a small geographical area. For e.g. an Ethernet is a LAN technology suitable for use in a single building. 22. What is WAN? Wide Area Network (WAN) is a network that uses technology designed to span a large geographical area. For e.g. a satellite network is a WAN because a satellite can relay communication across an entire continent. WANs have higher propagation delay than LANs. 23. What is MAN? * A Metropolitan Area Network (MAN) is a network that uses technology designed to extend over an entire city. * For e.g. a company can use a MAN to connect the LANs in all its offices throughout a city. 24. Define Peer to peer processes. The processes on each machine that communicate at a given layer are called peer to peer processes. 25. What is half duplex mode? A transmission mode in which each station can both transmit and receive, but not at the same time. 26. What is full duplex mode? A transmission mode in which both stations can transmit and receive simultaneously. 27. What is internet? • • When two or more networks are connected they become an internetwork or internet. The most notable internet is called the Internet. 28. What is Internet ? The Internet is a communication system that has brought a wealth of information to out fingertips and organized it for our use. Internet – Worldwide network. 29. List the layers of OSI model. - Physical Data Link Network Transport Session Presentation Application. 30. Define OSI model. The open system Interconnection model is a layered framework for the design of network system that allows for communication across all types of computer systems. 31. Which OSI layers are the network support layers? - Physical Data link Network layers. 32. Which OSI layers are the user support layers? - Session Presentation Application. 33. What are the responsibilities of physical layer, data link layer, network layer, transport layer, session layer, presentation layer, application layer. a. Physical layer – Responsible for transmitting individual bits from one node to the next. b. Data link layer – Responsible for transmitting frames from one node to the next. c. Network layer – Responsible for the delivery of packets from the original source to the final destination. d. Transport layer – Responsible for delivery of a message from one process to another. e. Session layer – To establish, manage and terminate sessions. f. Presentation layer – Responsible to translate, encrypt and compress data. g. Application layer – Responsible for providing services to the user. To allow access to network resources. 34. What is the purpose of dialog controller? The session layer is the network dialog controller. It establishes, maintains and synchronizes the interaction between communicating systems. 35. Name some services provided by the application layer. Specific services provided by the application layer include the following. - Network virtual terminal. File transfer, access and management (FTAM). Mail services. Directory services. 36. Define Network Virtual Terminal. Network Virtual Terminal – OSI remote login protocol. It is an imaginary terminal with a set of standard characteristics that every host understands. 37. Define the term transmission medium. The transmission medium is the physical path between transmitter and receiver in a data transmission system. The characteristics and quality of data transmission are determined both the nature of signal and nature of the medium. 38. What are the types of transmission media? Transmission media are divided into two categories. They are as follows: I. Guided transmission media II. Unguided transmission media 39. How do guided media differ from unguided media? A guided media is contained within physical boundaries, while an unguided medium is boundless. 40. What are the three major classes of guided media? Categories of guided media. a. Twisted – pair cable. b. Coaxial cable. c. Fiber – optic cable. 41. What is a coaxial cable? A type of cable used for computer network as well as cable television. The name arises from the structure in which a metal shield surrounds a center wire. The shield protects the signal on the inner wire from electrical interference. 42. A light beam travels to a less dense medium. What happens to the beam in each of the following cases: 1. The incident angle is less than the critical angle. 2. The incident angle is equal to the critical angle. 3. The incident angle is greater than the critical angle. 1. The incident angle is less than the critical angle. the ray refracts and moves closer to the surface. 2. The incident angle is equal to the critical angle. the light bends along the interface. 3. The incident angle is greater than the critical angle. the ray reflects and travels again in the denser substance. 43. What is reflection? When the angle of incident becomes greater than the critical angel, a new phenomenon occurs called reflection. 44. Discuss the modes for propagation light along optical channels. There are two modes for propagating light along optical channels. Single mode and multimode. Multimode can be implemented in two forms: step index or graded index. 45. What is the purpose of cladding in an optical fiber? Discuss its density relative to the core. A glass or plastic is surrounded by a cladding of less dense glass or plastic. The difference in density of the two materials must be such that a beam of light moving through the core is reflected off the cladding instead of being refracted into it. 46. Name the advantage of optical fiber over twisted pair and coaxial cable. Higher bandwidth. Less signal attenuation. Immunity to electromagnetic interference. Resistance to corrosive materials. More immune to tapping. Light weight. 47. What is the disadvantage of optical fiber as a transmission medium? Installation / Maintenance. Unidirectional. Cost – More expensive than those of other guided media. 48. What does the term modem stands for ? Modem stands for modulator / demodulator. 49. What is the function of a modulator? A modulator converts a digital signal into an analog signal using ASK, FSK, PSK or QAM. 50. What is the function of a demodulator? A de modulator converts an analog signal into a digital signal. 51. What is an Intelligent modems? Intelligent modems contain software to support a number of additional functions such as automatic answering and dialing. 52. What are the factor that affect the data rate of a link? The data rate of a link depends on the type of encoding used and the bandwidth of the medium. 53. Define Line coding. Line coding is the process of converting binary data, a sequence of bits, to a digital signal. 54. For n devices in a network, what is the number of cable links necessary for mesh, ring, bus and star networks. Number of links for mesh topology : n (n – 1) / 2. Number of links for ring topology : n – 1. Number of links for bus topology : one backbone and n drop lines. Number of links for star topology : n. 55. Write the design issues of datalink layer? 1) 2) 3) 4) Services provided to network layer. Framing Error control Flow control 56. What is datalink? When a datalink control protocol is used the transmission medium between systems is referred to as a datalink. 57. What is the main function of datalink layer? The datalink layer transforms the physical layer, a raw transmission facility to a reliable link and is responsible for node to node delivery. 58. What is a datalink protocol? Datalink protocol is a layer of control present in each communicating device that provides functions such as flow control, error detection and error control. 59. What is meant by flow control? Flow control is a set of procedures used to restrict the amount of data that the sender can send before waiting for an acknowledgement. 60. How is error controlled in datalink controlled protocol? In a datalink control protocol, error control is activated by retransmission of damaged frame that have not been acknowledged by other side which requests a retransmission. 61. Discuss the concept of redundancy in error detection. Error detection uses the concept of redundancy, which means adding extra bits for detecting errors at the destination. 62. What are the three types of redundancy checks used in data communications? - Vertical Redundancy Check (VRC) Longitudinal Redundancy Check (LRC) Cyclic Redundancy Check (CRC) 63. How can the parity bit detect a damaged data unit? In parity check, (a redundant bit) a parity bit is added to every data unit so that the total number of 1s is even for even parity checking function (or odd for odd parity). 64. How can we use the Hamming code to correct a burst error? By rearranging the order of bit transmission of the data units, the Hamming code can correct burst errors. 65. Briefly discuss Stop and Wait method of flow control? In Stop and Wait of flow control, the sender sends one frame and waits for an acknowledgement before sending the next frame. 66. In the Hamming code for a data unit of m bits how do you compute the number of redundant bits ‘r’ needed? In the Hamming code, for a data unit of m bits, use the formula 2r > = m + r + 1 to determine r, the number of redundant bits needed. 67. What are three popular ARQ mechanisms? - Stop and wait ARQ, Go – Back – N ARQ and Selective Report ARQ. 68. How does ARQ correct an error? Anytime an error is detected in an exchange, a negative acknowledgment (NAK) is returned and the specified frames are retransmitted. 69. What is the purpose of the timer at the sender site in systems using ARQ? The sender starts a timer when it sends a frame. If an acknowledgment is not received within an allotted time period, the sender assumes that the frame was lost or damaged and resends it. 70. What is damaged frame? A damaged frame is recognizable frame that does arrive, but some of the bits are in error (have been altered during transmission) 71. What is HDLC? HDLC is a bit oriented datalink protocol designed to support both half-duplex and full duplex communication over point to point and multiport link. 72. Give data transfer modes of HDLC? 1. NRM – Normal Response Mode 2. ARM – Asynchronous Response Mode 3. ABM - Asynchronous Balanced Mode 73. How many types of frames HDLC uses? 1. U-Frames 2. I-Frames 3. S-Frame 74. State phases involved in the operation of HDLC? 1. Initialization 2. Data transfer 3. Disconnect 75. What is the meaning of ACK frame? ACK frame is an indication that a station has received something from another. 76. What is CSMA? Carrier Sense Multiple Access is a protocol used to sense whether a medium is busy before attempting to transmit. 77. Explain CSMA/CD Carrier Sense Multiple Access with collision detection is a protocol used to sense whether a medium is busy before transmission but is has the ability to detect whether a transmission has collided with another. 78. State advantage of Ethernet? 1. Inexpensive 2. Easy to install 3. Supports various wiring technologies 79. What is fast Ethernet? It is the high speed version of Ethernet that supports data transfer rates of 100 Mbps. 80. What is bit stuffing and why it is needed in HDLC? Bit stuffing is the process of adding one extra 0 whenever there are five consecutive 1s in the data so that the receiver does not mistake the data for a flag. Bit stuffing is needed to handle data transparency. 81. What is a bridge? Bridge is a hardware networking device used to connect two LANs. A bridge operates at data link layer of the OSI reference model. 82. What is a repeater? Repeater is a hardware device used to strengthen signals being transmitted on a networks. 83. Define router? A network layer device that connects networks with different physical media and translates between network architectures. 84. State the functions of bridge? 1. Frame filtering and forwarding 2. Learning the address 3. Routing 85. List any two functions which a bridge cannot perform? - Bridge cannot determine most efficient path. - Traffic management function. 86. What is hub? Networks require a central location to bring media segment together. These central locations are called hubs. 87. State important types of hubs. 1. Passive hub 2. Active hub 3. Intelligent hub 88. Mention the function of hub. 1. 2. 3. 4. Facilitate adding/deleting or moving work stations Extend the length of network It provides centralize management services Provides multiple interfaces. 89. What is the main function of gateway. A gateway is a protocol converter 90. A gateway operates at which layer. Gateway operates at all seven layers of OSI model. 91. Which factors a gateway handles? Data rate, data size, data format 92. What is meant by active hub? A central hub in a network that retransmits the data it receives. 93. What is the function of ACK timer? ACK timer is used in flow control protocols to determine when to send a separate acknowledgment in the absence of outgoing frame. 94. What are the types of bridges? 1. Transparent bridge 2. Source Routing bridge Transparent bridge - Transparent bridge keep a suitable of addresses in memory to determine where to send data Source Routing bridge - Source Routing bridge requires the entire routing table to be included in the transmission and do not route packet intelligently. 95. What are transreceivers? Transreceivers are combination of transmitter and receiver. Transreceivers are also called as medium attachment unit (MAU) 96. What is the function of NIC? NIC is used to allow the computer to communicate on the network. It supports transmitting, receiving and controlling traffic with other computers on network. 97. Mention different random access techniques? 1. ALOHA 2. CSMA 3. CSMA/CD 98. What is the function of router? Routers relay packets among multiple interconnected networks. They route packets from one network to any number of potential destination networks on an internet. 99. How does a router differ from a bridge? Routers provide links between two separate but same type LANs and are most active at the network layer. Whereas bridges utilize addressing protocols and can affect the flow control of a single LAN; most active at the data link layer. 100. Identify the class and default subnet mask of the IP address 217.65.10.7. It belongs to class C. Default subnet mask – 255.255.255.192 101. What are the fields present in IP address? Netid and Hostid. Netid – portion of the ip address that identifies the network. Hostid – portion of the ip address that identifies the host or router on the networks. 102. What is flow control? How to keep a fast sender from swamping a slow receiver with data is called flow control. 103. What are the functions of transport layers? The transport layer is responsible for reliable data delivery. Functions of transport layer i. Transport layer breaks messages into packets ii. It performs error recovery if the lower layers are not adequately error free. iii.Function of flow control if not done adequately at the network layer. iv.Function of multiplexing and demultiplexing sessions together. v. This layer can be responsible for setting up and releasing connections across the network. 104. What is segmentation? When the size of the data unit received from the upper layer is too long for the network layer datagrams or datalink frame to handle, the transport protocol divides it in to smaller, usuable blocks. The dividing process is called segmentation. 105. What is Transport Control Protocol (TCP)? The TCP/IP protocol that provides application programs with access to a connection oriented communication service. TCP offers reliable flow controlled delivery. More important TCP accommodates changing conditions in the Internet by adapting its retransmission scheme. 106. Define the term (i) Host (ii) IP a. Host : An end user’s computer connection to a network. In an internet each computer is classified as a host or a router. b. IP: Internet Protocol that defines both the format of packet used on a TCP/IP internet and the mechanism for routing a packet to its destination. 107. What is UDP? User Datagram Protocol is the TCP/IP protocol that provides application program with connectionless communication service. 108. What is the segment? The unit of data transfer between two devices using TCP is a segment. 109. What is a port? Applications running on different hosts communicate with TCP with the help of a concept called as ports. A port is a 16 bit unique number allocated to a particular application. 110. What is Socket? The communication structure needed for socket programming is called socket. A port identifies a single application on a single computer. Socket = IP address + Port number 111. How TCP differ from the sliding window protocols. TCP differs from the sliding window protocols in the following ways: 1. When using TCP, applications treat the data sent and received as an arbitrary byte stream. The sending TCP module divides the byte stream into a set of packets called segments, and sends individual segments within an IP datagram. - TCP decides where segment boundaries start and end. 2. The TCP sliding window operates at the byte level rather than the packet (or segment) level. The left and right window edges are byte pointers. 3. Segment boundaries may change at any time. TCP is free to retransmit two adjacent segments each containing 200 bytes of data as a single segment of 400 byte. 4. The size of the send and receive window change dynamically. 112. Explain how the TCP provides the reliability? A number of mechanisms provide the reliability. 1. Checksum 2. Duplicate data detection 3. Retransmission 4. Sequencing 5. Timers 113. What is a datagram socket? A structure designed to be used with connectionless protocols such as UDP. 114. What is congestion? When load on network is greater than its capacity, there is congestion of data packets. Congestion occurs because routers and switches have queues or buffers. 115. Define the term Jitter. Jitter is the variation in delay for packets belonging to the same flow. 116. What is Configuration management? Configuration management (CM) is a field of management that focuses on establishing and maintaining consistency of a system or product's performance and its functional and physical attributes with its requirements, design, and operational information throughout its life. 117. What is Fault management? Fault management is the set of functions that detect, isolate, and correct malfunctions in a telecommunications network, compensate for environmental changes, and include maintaining and examining error logs, accepting and acting on error detection notifications, tracing and identifying faults, carrying out sequences of diagnostics tests, correcting faults, reporting error conditions, and localizing and tracing faults by examining and manipulating database information. 118. What is Performance management? Performance management includes activities that ensure that goals are consistently being met in an effective and efficient manner. Performance management can focus on the performance of an organization, a department, employee, or even the processes to build a product or service, as well as many other areas. 119. What is Security management? Security Management is a broad field of management related to asset management, physical security and human resource safety functions. It entails the identification of an organization's information assets and the development, documentation and implementation of policies, standards, procedures and guidelines. 120. What is Accounting management? Accounting Management is the practical application of management techniques to control and report on the financial health of the organization. This involves the analysis, planning, implementation, and control of programs designed to provide financial data reporting for managerial decision making. This includes the maintenance of bank accounts, developing financial statements, cash flow and financial performance analysis. 