CAREER: Knowledge Representation and Re-Use for Exploratory and Collaborative Search

  • Capra, Robert R. (PI)

Project Details

Description

Modern search systems work well when looking for specific information, but do little to support exploratory searches that extend across multiple search sessions and have investigation and learning as primary goals. Current search systems provide few ways for users to capture, re-use, and resume their search efforts, little support for discovering structural information about a topic, and few methods for coordination and knowledge sharing among searchers. As a result, users often begin searches isolated from knowledge about the domain and effective search processes that others have already discovered, and groups working collaboratively on a search must invest considerable manual effort to communicate and coordinate their efforts using channels outside the search system. This research will develop and evaluate novel techniques and interfaces to allow users to capture, save, share, and re-use structured information about search tasks, search processes, and domain information. A central innovation in this research will be the integration of template structures (including lists, hierarchies, two-dimensional grids, and concept maps) into the user interface and underlying search system in order help users save and organize the information they discover. This structured information will then be used by the system to help support the future searches of individuals and groups of users working collaboratively.

This research will answer questions about how search systems can incorporate methods to capture, share, and re-use knowledge developed during searches to help improve the future search activities of individuals, collaborating groups, and other searchers working on similar tasks. The research will explore new search algorithms and interfaces that leverage structured information about the search to help users with task resumption, coordination of collaborative efforts, discovery of topic structures, and knowledge sharing. The results will provide insights about users' needs for exploratory searches and how systems can best support them. Specifically, five objectives will be addressed. (1) User studies will be conducted to understand how information structures are naturally created and used in different types of search tasks. (2) An experimental search system will be designed and implemented to support the creation, capture, and use of structured search information to help users with exploratory search tasks. (3) Using the experimental search system, studies will be conducted to understand the benefits of different types of template structures for the purpose of saving information for different types of search tasks (e.g., learning, planning, decision-making, collecting). (4) Additional studies will be conducted to understand how existing structured search information can be used to help support individual users in task resumption, collaborating groups of users in coordinating their efforts, and as a form of search assistance for users working on similar tasks. (5) The final objective of this work will investigate methods for identifying and ranking searches that are related to the current search based on the structured search information and other search interaction data. This research will significantly improve the tools and methods for exploratory and collaborative search, and will provide empirical results to guide future search user interfaces and system development. The outcomes of this project will have substantial transformative impact in helping users to discover new information and topic structures, make sense of the information they find, and build from the prior search efforts of others. Results and software developed as part of the project will be disseminated through papers published in top-tier conferences and journals, and will be made available on the project website (http://ils.unc.edu/searchstructures/).

StatusFinished
Effective start/end date1/2/1631/1/23

Funding

  • National Science Foundation: US$546,159.00

ASJC Scopus Subject Areas

  • Artificial Intelligence
  • Computer Science(all)

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