AbstractCommunication is one of the vast and rapidly growing fields of engineering. Increasing the efficiency of communication by overcoming the external electromagnetic sources and noise is a challenging task. Various error detection and correction methods are introduced to reduce the loss of data while transmission. This paper proposes a novel method which use Cyclic Redundancy Check(CRC) for the error detection and the generated CRC error is corrected by using Hybrid Matrix Code(HMC) and they are coded in verilog HDL and simulated using Xilinx ISE Design suite 14.2. This proposed method can provide maximum error detection and correction capability with reduction in delay
International audienceIn this paper, we propose a novel method for correcting multiple errors in dat...
Error correction and error detection techniques are often used in wireless transmission systems. A c...
Known for its high efficiency in detecting error on transmitted data, CRC (Cyclic Redundancy Check) ...
AbstractCommunication is one of the vast and rapidly growing fields of engineering. Increasing the e...
Cyclic Redundancy Check is one of the most powerful methods of error detection in blocks for ...
Abstract- This paper introduces a way to authenticate the data transmitted over the network using Cy...
ABSTRACT:CRC refers to cyclic redundancy check bits used for error detection purpose. Normally the f...
Data transmitted from one location to the other has to be transferred reliably. Usually, error contr...
In today world use high speed computers.Communication between one computer and another orbetween the...
This paper focuses on developing a generalized CRC code where the user can vary the size of the gene...
This study investigates the capabilities of Cyclic Redundancy Checks(CRCs) to detect burst and rando...
Abstract — Error detection is important whenever there is a non-zero chance of data getting corrupte...
Cyclic Redundancy Check (CRC), code for error detection finds many applications in the field of digi...
A description of the problems encountered in the data communications field and the various solutions...
Cyclic redundancy checks (CRCs) are widely used in error-prone channels to detect corruption of data...
International audienceIn this paper, we propose a novel method for correcting multiple errors in dat...
Error correction and error detection techniques are often used in wireless transmission systems. A c...
Known for its high efficiency in detecting error on transmitted data, CRC (Cyclic Redundancy Check) ...
AbstractCommunication is one of the vast and rapidly growing fields of engineering. Increasing the e...
Cyclic Redundancy Check is one of the most powerful methods of error detection in blocks for ...
Abstract- This paper introduces a way to authenticate the data transmitted over the network using Cy...
ABSTRACT:CRC refers to cyclic redundancy check bits used for error detection purpose. Normally the f...
Data transmitted from one location to the other has to be transferred reliably. Usually, error contr...
In today world use high speed computers.Communication between one computer and another orbetween the...
This paper focuses on developing a generalized CRC code where the user can vary the size of the gene...
This study investigates the capabilities of Cyclic Redundancy Checks(CRCs) to detect burst and rando...
Abstract — Error detection is important whenever there is a non-zero chance of data getting corrupte...
Cyclic Redundancy Check (CRC), code for error detection finds many applications in the field of digi...
A description of the problems encountered in the data communications field and the various solutions...
Cyclic redundancy checks (CRCs) are widely used in error-prone channels to detect corruption of data...
International audienceIn this paper, we propose a novel method for correcting multiple errors in dat...
Error correction and error detection techniques are often used in wireless transmission systems. A c...
Known for its high efficiency in detecting error on transmitted data, CRC (Cyclic Redundancy Check) ...