Difference between revisions of "Forward error correction"

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(Created page with "In telecommunication, information theory, and coding theory, '''forward error correction''' (FEC) or '''channel coding''' is a technique used for controlling error...")
 
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In [[telecommunication]], [[information theory]], and [[coding theory]], '''forward error correction''' (FEC) or '''channel coding''' is a technique used for controlling errors in data transmission over unreliable or noisy communication channels.
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In [[telecommunication]], [[information theory]], and [[coding theory]], '''forward error correction''' (FEC) or '''channel coding''' is a technique used for [[Error detection and correction|controlling errors]] in [[data transmission]] over unreliable or noisy communication channels.
  
 
== Description ==
 
== Description ==
  
The central idea is the sender encodes the message in a redundant way by using an error-correcting code (ECC). The American mathematician Richard Hamming pioneered this field in the 1940s and invented the first error-correcting code in 1950: the Hamming (7,4) code.
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The central idea is the sender encodes the message in a redundant way by using an error-correcting code (ECC). The American mathematician Richard [[Hamming pioneered]] this field in the 1940s and invented the first error-correcting code in 1950: the Hamming (7,4) code.
  
 
The redundancy allows the receiver to detect a limited number of errors that may occur anywhere in the message, and often to correct these errors without retransmission. FEC gives the receiver the ability to correct errors without needing a reverse channel to request retransmission of data, but at the cost of a fixed, higher forward channel bandwidth. FEC is therefore applied in situations where retransmissions are costly or impossible, such as one-way communication links and when transmitting to multiple receivers in multicast. FEC information is usually added to mass storage devices to enable recovery of corrupted data, and is widely used in modems.
 
The redundancy allows the receiver to detect a limited number of errors that may occur anywhere in the message, and often to correct these errors without retransmission. FEC gives the receiver the ability to correct errors without needing a reverse channel to request retransmission of data, but at the cost of a fixed, higher forward channel bandwidth. FEC is therefore applied in situations where retransmissions are costly or impossible, such as one-way communication links and when transmitting to multiple receivers in multicast. FEC information is usually added to mass storage devices to enable recovery of corrupted data, and is widely used in modems.
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* [[Burst error-correcting code]]
 
* [[Burst error-correcting code]]
 
* [[Code rate]]
 
* [[Code rate]]
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* [[Data transmission]]
 
* [[Erasure codes]]
 
* [[Erasure codes]]
 
* [[Error detection and correction]]
 
* [[Error detection and correction]]

Revision as of 12:08, 19 September 2016

In telecommunication, information theory, and coding theory, forward error correction (FEC) or channel coding is a technique used for controlling errors in data transmission over unreliable or noisy communication channels.

Description

The central idea is the sender encodes the message in a redundant way by using an error-correcting code (ECC). The American mathematician Richard Hamming pioneered this field in the 1940s and invented the first error-correcting code in 1950: the Hamming (7,4) code.

The redundancy allows the receiver to detect a limited number of errors that may occur anywhere in the message, and often to correct these errors without retransmission. FEC gives the receiver the ability to correct errors without needing a reverse channel to request retransmission of data, but at the cost of a fixed, higher forward channel bandwidth. FEC is therefore applied in situations where retransmissions are costly or impossible, such as one-way communication links and when transmitting to multiple receivers in multicast. FEC information is usually added to mass storage devices to enable recovery of corrupted data, and is widely used in modems.

FEC processing in a receiver may be applied to a digital bit stream or in the demodulation of a digitally modulated carrier. For the latter, FEC is an integral part of the initial analog-to-digital conversion in the receiver. The Viterbi decoder implements a soft-decision algorithm to demodulate digital data from an analog signal corrupted by noise. Many FEC coders can also generate a bit-error rate (BER) signal which can be used as feedback to fine-tune the analog receiving electronics. The noisy-channel coding theorem establishes bounds on the theoretical maximum information transfer rate of a channel with some given noise level. Some advanced FEC systems come very close to the theoretical maximum.

The maximum fractions of errors or of missing bits that can be corrected is determined by the design of the FEC code, so different forward error correcting codes are suitable for different conditions.

See also

External links