A critical feature of any computer system is its interface with the user. This has led to the development of user interface technologies such as mouse, touchscreen and penbased input devices. Since handwriting is one of the most familiar communication media, pen-based interfaces combined with automatic handwriting recognition offers a very easy and natural input method. Pen-based interfaces are also essential in mobile computing because they are scalable. Recent advances in pen-based hardware and wireless communication have been influential factors in the renewed interest in on-line recognition systems. On-line handwriting recognition is fundamentally a pattern classification task; the objective is to take an input pattern, the handwritten signal collected on-line via a digitizing device, and classify it as one of a pre-specified set of words (i.e., the system's lexicon). Because exact recognition is very difficult, a lexicon is used to constrain the recognition output to a known vocab...

In this paper the Damerau-Levenshtein string difference metric is generalized in two ways to more accurately compensate for the types of errors that are present in the script recognition domain. First, the basic dynamic programming method for computing such a measure is extended to allow for merges, splits and two-letter substitutions. Second, edit operations are refined into categories according to the effect they have on the visual "appearance" of words. A set of recognizer-independent constraints is developed to reflect the severity of the information lost due to each operation. These constraints are solved to assign specific costs to the operations. Experimental results on 2,335 corrupted strings and a lexicon of 21,299 words show higher correcting rates than with the original form. Keywords: string distance, string matching, spelling error correction, word recognition and correction, text editing, script recognition and post-processing 1 INTRODUCTION Since the goal of text recog...