Title :
Iterative equalization-detection algorithm using trellis-based equalizer and RSC code for high density optical recording systems
Author :
Lee, Jun ; Lee, Jaejin
Author_Institution :
Dept. of Electron. Eng., Dongguk Univ., Seoul, South Korea
fDate :
8/1/2000 12:00:00 AM
Abstract :
This paper proposes an iterative equalization and detection algorithm using trellis-based equalizer and recursive systematic convolutional code without modulation coding for high density optical recording systems. The results show that the partial response approach cannot have the desired performance because of the severe intersymbol interference and jitter noise as the density is increased, but the proposed scheme can. The densities simulated are S=4.6 and S=7. The code rates tested are 8/9 and 16/17, and the block size of random interleaver is 624bits. The RSC code polynomial is (7,5)
Keywords :
convolutional codes; equalisers; iterative decoding; optical storage; polynomials; RSC code; RSC code polynomial; block size; code rates; high density optical recording systems; intersymbol interference; iterative equalization-detection algorithm; jitter noise; partial response approach; performance; random interleaver; recursive systematic convolutional code; trellis-based equalizer; Convolutional codes; Detection algorithms; Equalizers; Intersymbol interference; Iterative algorithms; Jitter; Modulation coding; Optical noise; Optical recording; Testing;
Journal_Title :
Consumer Electronics, IEEE Transactions on
