Digital To Digital Conversion in Computer Network Last Updated : 15 May, 2023 Comments Improve Suggest changes Like Article Like Report In this article we will be discussing about digital-to-digital transmission in computer network i.e., how a digital data or information is converted into digital signal. The digital-to-digital encoding can be done by a technique called line coding. Line CodingThe process of converting the digital data into digital signal is called as line coding which helps the receiver to get the original bits. The data that is in the form of text, numbers, audio, or video is represented internally as series of 1s and 0s. Line coding therefore transforms a set of bits into a digital signal. The sender side encrypts digital data into digital signals, while the receiving side decodes the digital signal to regenerate the digital data. The primary goal of utilizing line coding is to prevent the overlapping of pulses and distortions. The digital signal is discreet in nature. Example is sending data from computer to printer. There are basically three different types of line coding technique: UnipolarPolarBipolarUnipolarIn Unipolar encoding, only one polarity is used i.e., bit 1 is used to represent positive voltage and bit 0 is used to represent zero voltage or idle line. It is also known as Unipolar-Non-return-to-zero. Signaling of this kind is also referred to as on-off signaling. Problem in Unipolar DC Component: When we find out the average amplitude of a unipolar signal, then the value would always be non-zero because of which it creates DC component. And the signal having DC component is not able to travel through the medium which cannot handle DC component.Synchronization: When a signal is constant, the receiver cannot distinguish between the start and finish of each bit. For that the receiver has to rely on a timer to track the starting of each bit.Unipolar encodingPolarThe polar encoding is of four types. In polar encoding two levels of voltage amplitude is used. The DC component issue of unipolar encoding is minimized, and the average voltage level on the line is decreased. Polar Non-Return to Zero (Polar NRZ): In polar encoding, positive voltage is represented by bit 1 and negative voltage is represented by bit 0. Here two levels of voltage are used to represent binary values. If the line is idle, then there is no transition. With each inversion, the receiver is able to synchronize the timer's start to the transmission's real arrival. Again, Polar Non-Return to Zero (Polar NRZ) has two types: NRZ-L and NRZ-I.NRZ-L: Changes its voltage level when different bit is encountered.NRZ-I: Changes its voltage level when bit 1 is encountered.Advantages of Polar NRZ This provides synchronization as whenever a 1 bit is encountered, the signal changes. Return to Zero (RZ): This encoding technique uses three different voltage level to represent binary values. Bit 1 is used to represent positive voltage, bit 0 is used to represent negative voltage and zero voltage for none. During the second half of each bit, this signal enters a resting state(zero).Problems in Return to Zero This occupies more bandwidth as it requires two signal changes to encode one bit. Return to Zero (RZ)Manchester Encoding: In Manchester encoding negative to positive transition represents binary 1 and positive to negative represents binary 0. Use the inversion at the middle of each bit interval. That means bit period is represented by two equal size intervals. Here the logic level of bit is represented by the first interval and the inverse logic level is represented by the second interval.Manchester encodingDifferential Manchester: In Differential Manchester, the inversion at the middle of the bit is used. Transition is represented by binary 0 and no transition is represented by binary 1.Different ManchesterBipolar EncodingIn Bipolar encoding, three types of different voltage level is used that is positive, negative and zero. The zero level is used to represent binary 0, positive and negative voltage represents alternatives 1's to prevent DC component. Alternate Mark Inversion (AMI) and Pseudoternary are the types of bipolar encoding. Bipolar Encoding Table: Comparison of Different Digital-to-Digital Line Encoding TechniquesLine Encoding Technique DescriptionAdvantages DisadvantagesUnipolarUses only one level of voltage for bit 0 and bit 1 Easy to implement DC component problem, synchronization issuePolar NRZ Uses two levels of voltage for bit 0 and bit 1, no transition for idle line Provides synchronization, DC component issue minimized May encounter problem with long sequences of 0's or 1'sRZUses three levels of voltage for bit 0, bit 1 and idle line, signal enters resting state during second half of bit Provides synchronization Occupies more bandwidthManchesterUses transition from positive to negative and negative to positive to represent bit 0 and bit 1 respectively, bit period represented by two equal intervals Provides synchronization, self-clocking Occupies more bandwidthDifferential Manchester Uses transition at the middle of the bit interval to represent bit 0, no transition for bit 1, bit period represented by two equal intervals Provides synchronization, self-clocking More complex encoding and decoding processBipolarUses three levels of voltage for bit 0, bit 1 and idle line, alternative 1's to prevent DC component Provides synchronization, no DC component More complex encoding and decoding process Comment More infoAdvertise with us Next Article Line Coding R rimab647 Follow Improve Article Tags : Computer Networks Computer Networks-Network Layer Similar Reads Data Communication Tutorial Data communication plays an important role in today's interconnected world and enables the exchange of information between devices and networks. Whether you're sending an email, making a video call, or browsing the web, data communication ensures that information flows smoothly. This Data Communicat 5 min read Basics of Data CommunicationData Communication - Definition, Components, Types, ChannelsTransferring data over a transmission medium between two or more devices, systems, or places is known as data communication. Nowadays, computing and telecommunications depend heavily on this data transmission, which makes a variety of applications conceivable, including email, video chatting, the In 7 min read Types of Computer NetworksA computer network is a system that connects many independent computers to share information (data) and resources. The integration of computers and other different devices allows users to communicate more easily. It is a collection of two or more computer systems that are linked together. A network 11 min read Transmission Modes in Computer Networks (Simplex, Half-Duplex and Full-Duplex)Transmission modes also known as communication modes, are methods of transferring data between devices on buses and networks designed to facilitate communication. They are classified into three types: Simplex Mode, Half-Duplex Mode, and Full-Duplex Mode. In this article, we will discuss Transmission 6 min read Difference Between Serial and Parallel TransmissionData transmission is how computers and other devices send information to each other. There are two main ways to do this Serial and Parallel Transmission. In Serial Transmission, data is sent one bit at a time like sending a single line of people through a door. In Parallel Transmission data is sent 4 min read How Data Encapsulation and De-encapsulation Works?Data encapsulation and de-encapsulation are fundamental concepts in computer networking and communication protocols. These processes are essential for transferring data across networks efficiently and securely. What is Data Encapsulation?Encapsulation is the process of adding additional information 4 min read OSI ModelNetwork Layer ServicesThe network layer is a part of the communication process in computer networks. Its main job is to move data packets between different networks. It helps route these packets from the sender to the receiver across multiple paths and networks. Network-to-network connections enable the Internet to funct 6 min read Transport Layer responsibilitiesThe transport Layer is the second layer in the TCP/IP model and the fourth layer in the OSI model. It is an end-to-end layer used to deliver messages to a host. It is termed an end-to-end layer because it provides a point-to-point connection rather than hop-to-hop, between the source host and destin 5 min read TCP/IP Model The TCP/IP model (Transmission Control Protocol/Internet Protocol) is a four-layer networking framework that enables reliable communication between devices over interconnected networks. It provides a standardized set of protocols for transmitting data across interconnected networks, ensuring efficie 7 min read Data and SignalsFrequency Domain Filters and its TypesFrequency Domain Filters are used for smoothing and sharpening of image by removal of high or low frequency components. Sometimes it is possible of removal of very high and very low frequency. Frequency domain filters are different from spatial domain filters as it basically focuses on the frequency 2 min read Difference Between Bit Rate and Baud RateBoth Bit rate and Baud rate are generally used in data communication to measure the speed of data. Bit rate refers to the number of bits transmitted per second in a communication system, while baud rate refers to the number of signal units or symbols transmitted per second. In some cases, multiple b 3 min read Transmission of SignalsTransmission Impairment in Data CommunicationIn communication system, analog signals travel through transmission media, which tends to deteriorate the quality of analog signal, which means that the signal at the beginning of the medium is not the same as the signal at the end of the medium. The imperfection causes signal impairment. Below are 3 min read What is Bandwidth? Definition, Working, Importance, UsesPre-Requisite: Introduction to Bandwidth Network bandwidth is the maximum capacity of a wired or wireless communications link to deliver data via a network connection in a given amount of time. Bandwidth is typically defined as the number of bits, kilobits, megabits, or gigabits that may be sent in 8 min read Digital To Digital Conversion in Computer NetworkIn this article we will be discussing about digital-to-digital transmission in computer network i.e., how a digital data or information is converted into digital signal. The digital-to-digital encoding can be done by a technique called line coding. Line CodingThe process of converting the digital da 5 min read Line CodingThe process of converting binary data into a sequence of bits of the digital signal is known as Line coding. It is also known as digital PAM formats. Need of Line coding: We always come across different types of data such as text, numbers, graphical images, audio, and video. These all data are store 2 min read Analog to Digital ConversionDigital Signal: A digital signal is a signal that represents data as a sequence of discrete values; at any given time it can only take on one of a finite number of values. Analog Signal: An analog signal is any continuous signal for which the time varying feature of the signal is a representation of 6 min read Digital to Analog ConversionDigital Signal - A digital signal is a signal that represents data as a sequence of discrete values; at any given time it can only take on one of a finite number of values. Analog Signal - An analog signal is any continuous signal for which the time varying feature of the signal is a representation 3 min read Quadrature Amplitude ModulationQuadrature Amplitude Modulation (QAM) is a modulation technique that can be utilized in Analog modulation concepts and digital modulation concepts. It is a combination of ASK and PSK. So, in this article, we will discuss QAM, Analog QAM, Digital QAM, and many more. Quadrature Amplitude Modulation:Qu 5 min read Analog to Analog Conversion (Modulation)Analog Signal: An analog signal is any continuous signal for which the time varying feature of the signal is a representation of some other time varying quantity i.e., analogous to another time varying Signal. Analog to Analog Conversion - Analog-to-analog conversion, or modulation, is the represent 3 min read What is Modulation?Modulation can be digital or analog, the input wave of the analog signal varies continuously like a sine wave. Modulation can be defined as the process of converting data into waves by adding information to a carrier signal. Such a signal can be transmitted electronically or optically, but it must h 6 min read MultiplexingMultiplexing (Channel Sharing) in Computer NetworkMultiplexing means multiple sources but one link. An alternative approach is a Direct point-to-point connection, but it has several problems as it requires an I/O port for each device, a need line for each device, and also a large amount of wiring needed if on different floors. Instead, if we use a 9 min read Types of Multiplexing in Data CommunicationsImagine you have several friends who all want to send letters to the same person at the same time. Instead of sending each letter individually, which would take a lot of time and effort, you put all the letters into one big envelope and send that. When the big envelope arrives, the letters are taken 6 min read Frequency Division and Time division multiplexingMultiplexing is used in cases where the signals of lower bandwidth and the transmitting media is having higher bandwidth. In this case, the possibility of sending a number of signals is more. In this, the signals are combined into one and are sent over a link that has greater bandwidth of media than 4 min read Transmission MediaTypes of Transmission MediaTransmission media is the physical medium through which data is transmitted from one device to another within a network. These media can be wired or wireless. The choice of medium depends on factors like distance, speed, and interference. In this article, we will discuss the transmission media. In t 9 min read Twisted-pair CableTwisted-pair Cable is a transmission media. Transmission media refers to the physical path or medium used to transmit data between devices. It can be divided into two parts: Guided Media and Unguided Media. In guided media, the signal is contained within the physical limits of the transmission mediu 4 min read What is Coaxial Cable ?Coaxial cable is typically used by cable operators, telephone companies, and internet providers to transmit data, video, and voice communications to customers. Its installation and implementation are easy but it is less efficient than optical fiber also it provides moderately low bandwidth in compar 6 min read Fiber Optics and TypesFiber Optics or Optical Fiber is a technology that transmits data as a light pulse along a glass or plastic fiber. An Optical Fiber is a cylindrical fiber of glass that is hair-thin in size or any transparent dielectric medium. The fiber which is used for optical communication is waveguides made of 6 min read Difference between Twisted pair cable, Co-axial cable and Optical fiber cableA computer cable is a medium used to transmit data between devices such as computers, servers, routers, and switches. Cables physically connect these devices, enabling them to communicate within a network. In computer networking, it is very important to know the distinctions between the different ty 8 min read Radio WavesRadio waves are a special type of energy that travels through space, carrying information without needing wires. They have the longest wavelengths in the electromagnetic spectrum, meaning they stretch out much farther than other waves like visible light or X-rays. These waves can be incredibly long, 9 min read Infrared light for TransmissionInfrared light for Transmission :Infrared is the frequency of light that is not visible to the eyes .The frequency of the waves lies between three hundred gigacycles to four hundred THz. In this, the radiation is in the region of the electromagnetic spectrum . Infrared could be a communication mediu 3 min read Difference between Guided and Unguided MediaNetwork media or transmission media refer to the physical pathways through which data is transmitted from one device to another within a network. These ways can be wired or wireless. The selection of media depends on factors like distance, speed, and interference. In this article, we will discuss th 4 min read Error Detection and CorrectionError Detection in Computer NetworksError is a condition when the receiver's information does not match the sender's. Digital signals suffer from noise during transmission that can introduce errors in the binary bits traveling from sender to receiver. That means a 0 bit may change to 1 or a 1 bit may change to 0. Data (Implemented eit 7 min read Forward Error Correction in Computer NetworksForward Error Correction (FEC) is a technique used to minimize errors in data transmission over communication channels. In real-time multimedia transmission, re-transmission of corrupted and lost packets is not useful because it creates an unacceptable delay in reproducing : one needs to wait until 3 min read Vertical Redundancy Check (VRC) or Parity CheckVertical Redundancy Check is also known as Parity Check. In this method, a redundant bit also called parity bit is added to each data unit. This method includes even parity and odd parity. Even parity means the total number of 1s in data is to be even and odd parity means the total number of 1s in d 3 min read Longitudinal Redundancy Check (LRC)/2-D Parity CheckLongitudinal Redundancy Check (LRC) is also known as 2-D parity check. In this method, data which the user want to send is organised into tables of rows and columns. A block of bit is divided into table or matrix of rows and columns. In order to detect an error, a redundant bit is added to the whole 2 min read Hamming Code in Computer NetworkHamming code is an error-correcting code used to ensure data accuracy during transmission or storage. Hamming code detects and corrects the errors that can occur when the data is moved or stored from the sender to the receiver. This simple and effective method helps improve the reliability of commun 10 min read Concepts of hamming distanceHamming Distance Problem: In general, it is assumed that it is more likely to have fewer errors than more errors. This “worst-case†approach to coding is intuitively appealing within itself. Nevertheless, it is closely connected to a simple probabilistic model where errors are introduced into the me 2 min read Error Detection Code - ChecksumChecksum is the error detection method used by upper-layer protocols and is considered to be more reliable than Longitudinal Redundancy Check (LRC), Vertical Redundancy Check (VRC), and Cyclic Redundancy Check (CRC). This method uses a Checksum Generator on the sender side and a Checksum Checker on 4 min read ChannelizationFrequency Division Multiple Access (FDMA) TechniquesIn Frequency-Division Multiple Access the channel bandwidth is subdivided into a variety of sub-channels. FDMA is used for voice and data transmission. During this method the general channel bandwidth is shared by multiple users, therefore a variety of users can transmit their data simultaneously. N 5 min read CDMA Full FormCDMA stands for Code Division Multiple Access. It is basically a channel access method and is also an example of multiple access. Multiple access basically means that information by several transmitters can be sent simultaneously onto a single communication channel. There are multiple users which ar 4 min read What is Ethernet?A LAN is a data communication network connecting various terminals or computers within a building or limited geographical area. The connection between the devices could be wired or wireless. Although Ethernet has been largely replaced by wireless networks, wired networking still uses Ethernet more f 9 min read Bridges (local Internetworking device)Prerequisites - Network Devices, Types of switches Bridge is a local internetworking device that is used to connect two or more network segments together. A bridge operates at the Data Link Layer (Layer 2) of the OSI model and uses the MAC addresses of devices to make forwarding decisions. Bridges w 6 min read Introduction of Gigabit EthernetThe committee began working on a faster Ethernet, quickly dubbed gigabit Ethernet. The goal was to increase performance while maintaining all Ethernet standards. Gigabit Ethernet had to provide service with both unicast and broadcast using the same 48-bit address scheme and also maintaining the same 3 min read Like