chapter9(error detection and correction)
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Error Detection and Correction
Prof. Choong Seon HONGError Detection and Correction#Kyung Hee University
9 Error Detection and Correction9.1 Types of Errors9.2 Detection9.3 Error Correction#Kyung Hee University
Error Detection and CorrectionData can be corrupted during transmission. For reliable communication, error must be detected and correctedare implemented either at the data link layer or the transport layer of the OSI model#Kyung Hee University
9.1 Type of Errors
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Type of Errors(contd)Single-Bit Error~ is when only one bit in the data unit has changed (ex : ASCII STX - ASCII LF)
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Type of Errors(contd)Multiple-Bit Error~ is when two or more nonconsecutive bits in the data unit have changed(ex : ASCII B - ASCII LF)
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Type of Errors(contd)Burst Error~ means that two or more consecutive bits in the data unit have changed
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9.2 Detection Error detection uses the concept of redundancy, which means adding extra bits for detecting errors at the destination#Kyung Hee University
Detection(contd)Redundancy
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Detection(contd)Detection methodsVRC(Vertical Redundancy Check)LRC(Longitudinal Redundancy)CRC(Cyclical redundancy Check)Checksum
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Detection(contd)VRC(Vertical Redundancy Check)A parity bit is added to every data unit so that the total number of 1s(including the parity bit) becomes even for even-parity check or odd for odd-parity check VRC can detect all single-bit errors. It can detect multiple-bit or burst errors only the total number of errors is odd.#Kyung Hee University
Detection(contd)Even parity VRC concept
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Contoh VRC1110111 1101111 1110010 1101100 1100100 w o r l d11101110 11011110 11100100 11011000 11001001 Data ditransmisikanReceiver11111110 11011110 11101100 11011000 11001001
Data errorTransmiter6644476544#Kyung Hee University
Detection(contd)LRC(Longitudinal Redundancy Check)Parity bits of all the positions are assembled into a new data unit, which is added to the end of the data block
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Detection(contd)CRC(Cyclic Redundancy Check)~ is based on binary division.
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Detection(contd)CRC generator~ uses modular-2 division.
Binary Divisionin aCRC Generator
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Detection(contd)Binary Divisionin aCRC Checker
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Detection(contd)PolynomialsCRC generator(divisor) is most often represented not as a string of 1s and 0s, but as an algebraic polynomial.
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Detection(contd)A polynomial representing a divisor
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Detection(contd)Standard polynomials
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Detection(contd)Checksum~ used by the higher layer protocols~ is based on the concept of redundancy(VRC, LRC, CRC .)#Kyung Hee University
Detection(contd)Checksum Generator
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4+9=1313-9=44-4=0#Kyung Hee University
Detection(contd)To create the checksum the sender does the following:The unit is divided into K sections, each of n bits.Section 1 and 2 are added together using ones complement.Section 3 is added to the result of the previous step.Section 4 is added to the result of the previous step.The process repeats until section k is added to the result of the previous step.The final result is complemented to make the checksum.#Kyung Hee University
Detection(contd)data unit and checksum
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Detection(contd)
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9.3 Error Correction~ can be handled in two ways
when an error is discovered, the receiver can have the sender retransmit the entire data unit.
a receiver can use an error-correcting code, which automatically corrects certain errors.#Kyung Hee University
Error Correction(contd)Single-Bit Error Correctionparity bitThe secret of error correction is to locate the invalid bit or bits For ASCII code, it needs a three-bit redundancy code(000-111)#Kyung Hee University
Error Correction(contd)Redundancy Bits~ to calculate the number of redundancy bits (R) required to correct a given number of data bit (M)
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Error Correction(contd)If the total number of bits in a transmittable unit is m+r, then r must be able to indicate at least m+r+1 different states 2r m + r + 1
ex) For value of m is 7(ASCII) , the smallest r value that can satisfy this equation is 4 24 7 + 4 + 1#Kyung Hee University
Error Correction(contd)Relationship between data and redundancy bitsNumber of Data Bits(m)Number of Redundancy Bits(r)Total Bits(m+r)12345672333444356791011#Kyung Hee University
Error Correction(contd)Hamming Code~ developed by R.W.Hammingpositions of redundancy bits in Hamming code
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Error Correction(contd)each r bit is the VRC bit for one combination of data bitsr1 = bits 1, 3, 5, 7, 9, 11r2 = bits 2, 3, 6, 7, 10, 11r4 = bits 4, 5, 6, 7r8 = bits 8, 9, 10, 11#Kyung Hee University
Error Correction(contd)Redundancy bits calculation(contd)
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Error Correction(contd)Redundancy bits calculation
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Error Correction(contd)Calculating the r valuesCalculating Even Parity
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Error Correction(contd)Error Detection and Correction
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Error Correction(contd)Error detection using Hamming Code
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Error Correction(contd)Multiple-Bit Error Correction redundancy bits calculated on overlapping sets of data units can also be used to correct multiple-bit errors.Ex) to correct double-bit errors, we must take into consideration that two bits can be a combination of any two bits in the entire sequence#Kyung Hee University
SoalDiketahui 3 buah data 001100100011000110011Ditanya:Berapa data yang akan dikirimkan jika menggunakan metode deteksi kesalahan parity ganjil1.VRC 2.LRC 3.Checksum#Kyung Hee University
Jawaban
Data yang dikirimkan dg metode VRC Ganjil ( 1) (2) (3)00110010 00011001 01100111Cara LRC Data Yang dikirimkan dg metode LRC Ganjil(1)(2)(3)(LRC)0011001 0001100 0110011 1011001
0011001 (1)0001100 (2)0110011 (3)1011001 (LRC)
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ChecksumSender
Data yang dikirimkan dengan metode Checksum(1)(2)(3)(Checksum)0011001 0001100 0110011 0100111
Receiver
0011001 (1)0001100 (2)0110011 (3)1011000 ( sum) 0100111 (Checksum)
0011001 (1)0001100 (2)0110011 (3)0100111 (Checksum)1111111 ( sum)0000000 (Benar)
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Soal CRC1)Diketahui data 111011001 Pembagi 1011 (Soal absen Ganjil) 11011 (absen Genap)2) Diketahui data X7+X6+X5+X+1 Pembagi X2+x+1Berapa data yang akan dikirimkan jika menggunakan metode deteksi kesalahan CRC
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Jawaban Soal Ganjil
CRC GeneratorCRC CheckerData Yang dikirim 111011001110DataCRC#Kyung Hee University
Soal No 2
CRC Generator#Kyung Hee University
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