Three novel combinatorial theorems for the insertion/deletion channel

Although the insertion/deletion problem has been studied for more than fifty years, many results still remain elusive. The goal of this work is to present three novel theorems with a combinatorial flavor that shed further light on the structure and nature of insertions/deletions. In particular, we give an exact result for the maximum number of common supersequences between two sequences, extending older work by Levenshtein. We then generalize this result for sequences that have different lengths. Finally, we compute the exact neighborhood size for the binary circular (alternating) string C_n = 0101 ... 01. In addition to furthering our understanding of the insertion/deletion channel, these theorems can be used as building blocks in other applications. One such application is developing improved lower bounds on the sizes of insertion/deletion-correcting codes.