Automatic Invocation Linking For Collaborative Web-Based Corpora

Collaborative online encyclopedias or knowledge bases such as Wikipedia and Planet Math are becoming increasingly popular because of their open access, comprehensive and interlinked content, rapid and continual updates, and community interactivity. To understand a particular concept in these knowledge bases, a reader needs to learn about related and underlying concepts. In this chapter, we introduce the problem of invocation linking for collaborative encyclopedia or knowledge bases, review the state of the art for invocation linking including the popular linking system of Wikipedia, discuss the problems and challenges of automatic linking, and present the NNexus approach, an abstraction and generalization of the automatic linking system used by PlanetMath.org. The chapter emphasizes both research problems and practical design issues through discussion of real world scenarios and hence is suitable for both researchers in web intelligence and practitioners looking to adopt the techniques. Below is a brief outline of the chapter.Problem and Motivation. We first introduce the problem of invocation linking for online collaborative encyclopedia or knowledge bases. An online encyclopedia consists of multiple entries. An invocation link is a hyperlink from a term or phrase in an entry representing a concept to another entry that defines the concept. It allows a reader easily "jump" to requisite concepts in order to fully understand the current one. We refer to the term or phrase being linked from as link source and the entry being linked to as link target. The problem of invocation linking is how to add these invocation links in an online encyclopedia in order to build a semantic concept network.State of the Arts. We review the state of arts for the invocation linking in current online encyclopedia and knowledge bases. The existing approaches can he mainly classified into: I) manual linking where both the link source and link target are explicitly defined by the user (such as blog software), 2) semi-automatic linking where the link source are explicitly marked by the user but the link target is determined automatically (such as Wikipedia), and 3) automatic linking where both the link source and link target are determined automatically. We discuss the representative systems for each approach and illustrate their advantages and disadvantages. We will also review potential technologies such as web search and recommender systems and discuss their applicability for invocation linking.Automatic Invocation Linking. We advocate in this chapter the automatic linking approach as we believe that the manual and semi-automatic approaches are an unnecessary burden on contributors, and in addition, require continuous re-inspection of the entire corpus by writers or other maintainers for a growing and dynamic corpus. We discuss the challenges and design goals for developing such an automatic linking system including linking quality, efficiency and scalability, and generalization to multiple corpus.NNexus Approach. In particular, we present the NNexus system, an automatic linking system that we have developed as an abstraction and generalization of the linking component of PlanetMath (planetmath.org), PlanetPhysics(planetphysics.org), and other sites. We discuss a number of key features and design ideas of NNexus in addressing the challenges for invocation linking. NNexus provides an effective linking scheme utilizing metadata to automatically identify link sources and link targets. It achieves good linking quality with a classification-based link steering approach and an interactive entry filtering component. It achieves good efficiency and scalability by its efficient data structures as well as a mechanism for efficiently updating the links between entries that are related to newly defined or modified concepts in the corpus. Finally, its implementation utilizes OWL and has a simple interface, which allows for an almost unlimited number of online corpora to interconnect for automatic linking.Conclusions and Open Issues. We close the chapter by discussing a set of interesting issues and open problems for invocation linking.