In magnetic recording channels, a standard code architecture consists of an outer Reed-Solomon code in concatenation with an inner parity code. The inner parity code is used to detect and correct commonly occurring error events. Generally, a parity code with short block length performs better, as multiple error events within one block and, consequently, miscorrection are less likely
This paper proposes a general and systematic code design method to efficiently combine constrained c...
... arithmetic coding based continuous error detection (CED) scheme is applied to high-order partial...
Abstract—In this paper, we propose a linear programming (LP) decoding scheme for binary error-erasur...
In magnetic recording, a standard code architecture consists of an outer Reed–Solomon code in concat...
In this project, we consider a low-complexity coding scheme that is constructed by concatenating in ...
University of Minnesota Ph.D. dissertation. April 2009. Major: Electrical Engineering. Advisor: Prof...
With the increasing areal density in magnetic recording systems, perpendicular recording has replace...
Low-density parity check (LDPC) codes have experienced tremendous popularity due to their capacity-a...
Key Words: high density recording channel, low density parity check codes, maximum transition run co...
A magnetic tape device or system can store erasure encoded data that generates a multi-dimensional e...
We have developed an advanced detection approach with parity-check (PC) codes and post-processing fo...
We have developed an advanced detection approach with parity-check (PC) codes and post-processing fo...
In data storage systems, the error correction code (ECC) failure rate (EFR) serves as the ultimate m...
The hard-disk storage industry is at a critical time as the current technologies are incapable of ac...
Abstract—This paper evaluates two-dimensional turbo product codes based on single-parity check codes...
This paper proposes a general and systematic code design method to efficiently combine constrained c...
... arithmetic coding based continuous error detection (CED) scheme is applied to high-order partial...
Abstract—In this paper, we propose a linear programming (LP) decoding scheme for binary error-erasur...
In magnetic recording, a standard code architecture consists of an outer Reed–Solomon code in concat...
In this project, we consider a low-complexity coding scheme that is constructed by concatenating in ...
University of Minnesota Ph.D. dissertation. April 2009. Major: Electrical Engineering. Advisor: Prof...
With the increasing areal density in magnetic recording systems, perpendicular recording has replace...
Low-density parity check (LDPC) codes have experienced tremendous popularity due to their capacity-a...
Key Words: high density recording channel, low density parity check codes, maximum transition run co...
A magnetic tape device or system can store erasure encoded data that generates a multi-dimensional e...
We have developed an advanced detection approach with parity-check (PC) codes and post-processing fo...
We have developed an advanced detection approach with parity-check (PC) codes and post-processing fo...
In data storage systems, the error correction code (ECC) failure rate (EFR) serves as the ultimate m...
The hard-disk storage industry is at a critical time as the current technologies are incapable of ac...
Abstract—This paper evaluates two-dimensional turbo product codes based on single-parity check codes...
This paper proposes a general and systematic code design method to efficiently combine constrained c...
... arithmetic coding based continuous error detection (CED) scheme is applied to high-order partial...
Abstract—In this paper, we propose a linear programming (LP) decoding scheme for binary error-erasur...