Extracting a largest redundancy-free XML storage structure from an acyclic hypergraph in polynomial time

Abstract: Given a hypergraph and a set of embedded functional dependencies, we investigate the problem of determining the conditions under which we can efficiently generate redundancy-free XML storage structures with as few scheme trees as possible. Redundancy-free XML structures guarantee both economy in storage space and the absence of update anomalies, and having the least number of scheme trees requires the fewest number of joins to navigate among the data elements. We know that the general problem is intractable. T… Show more

“…Some efforts have been devoted to solve the redundancy problem (Xu, Shi, & Peng, 2010;Pankowski & Pika, 2008;Chiu, Devadithya, Wei, & Slominski, 2005;Geer, 2005) and the initial results have been achieved. The research (Mok, Fong, & Embley, 2010) gives a hypergraph and a set of embedded functional dependencies to generate redundancyfree XML storage structures with as few scheme trees as possible. And the redundancy-free XML structures guarantee both economy in storage space and the absence of update anomalies.…”

On an Enhancement of XML Applied for Mobile E-Commerce

“…Some efforts have been devoted to solve the redundancy problem (Xu, Shi, & Peng, 2010;Pankowski & Pika, 2008;Chiu, Devadithya, Wei, & Slominski, 2005;Geer, 2005) and the initial results have been achieved. The research (Mok, Fong, & Embley, 2010) gives a hypergraph and a set of embedded functional dependencies to generate redundancyfree XML storage structures with as few scheme trees as possible. And the redundancy-free XML structures guarantee both economy in storage space and the absence of update anomalies.…”

On an Enhancement of XML Applied for Mobile E-Commerce

Design Non-recursive and Redundant-Free XML Conceptual Schema with Hypergraph (Extended Abstract)

When conceptual model meets grammar: A dual approach to XML data modeling