Title :
Adaptive Coding and Prediction of Sources With Large and Infinite Alphabets
Author :
Ryabko, Boris Y. ; Astola, Jaakko ; Gammerman, Alex
Author_Institution :
Inst. of Comput. Technol., Siberian State Univ. of Telecommun. & Inf., Novosibirsk
Abstract :
The problem of predicting a sequence x1,x2,. . . generated by a discrete source with unknown statistics is considered. Each letter xt+1 is predicted using the information on the word x1x2 hellip xt only. This problem is of great importance for data compression, because of its use to estimate probability distributions for PPM algorithms and other adaptive codes. On the other hand, such prediction is a classical problem which has received much attention. Its history can be traced back to Laplace. We address the problem where the sequence is generated by an independent and identically distributed (i.i.d.) source with some large (or even infinite) alphabet and suggest a class of new methods of prediction.
Keywords :
adaptive codes; prediction theory; probability; source coding; adaptive coding; data compression; i.i.d. source; independent identically distributed source; infinite alphabets; probability distributions; source prediction; Adaptive coding; Data compression; Entropy; Helium; History; Information theory; Probability distribution; Random processes; Source coding; Statistical distributions; Adaptive coding; Laplace problem of succession; Shannon entropy; lossless data compression; prediction of random processes; source coding;
Journal_Title :
Information Theory, IEEE Transactions on
DOI :
10.1109/TIT.2008.926385
