Patent ID: 8270542

Claim:
A method, executed in an apparatus for reading information including, for evaluating a quality of a read signal in a situation where the read signal corresponding to recorded data coded by a (1, 7) run length limited modulation method is decoded by a partial response (CO, C1, C2, C1, CO) maximum likelihood method, wherein each of C0, C1 and C2 is an arbitrary integer, and wherein the read signal is decoded by a maximum likelihood decoding method, in which a most probable state transition path is selected from a number n, where n is an integer equal to or greater than two, of state transition paths that represent n probable transitions from a first state Sk−j, where k is an integer equal to or greater than three, j is an integer equal to or greater than two and k is greater than or equal to j, at a time k−j into a second state Sk at a time k, the method comprising steps of: (a) detecting, based on a result of the maximum likelihood decoding method, m probable state transition paths corresponding to state transition patterns having a smallest Euclidean distance, the m probable state transition paths based on predetermined combinations of the first and second states Sk−j and Sk that define the n probable state transition paths in a predetermined period j between the times k−j and k; (b) calculating, by using the apparatus for reading information, a standard deviation σ of IPa−Pbl−Pstd in the predetermined period .j, where Pa and Pb are indices indicating respective probabilities of state transition of first and second state transition paths in the predetermined period j, the first state transition path being estimated to be either one of the most probable path or the second most probable path, and the second state transition path being estimated to be the other of the most probable path or the second most probable path, among the m probable state transition paths that are defined by the predetermined combinations that have been detected in the step (a), and where Pstd is a sum of squares of differences each between an ideal sample value shown by the first state transition path and an ideal sample value shown by the second state transition path; and (c) evaluating reliability of the decoded signal by using a value σ/2Pstd which is obtained by normalizing the calculated standard deviation σ by twice the value of Pstd.