Abstract. This paper investigates the problem of using free-text queries as an alternative means for searching`behind' web forms. We introduce a novel speci cation language for specifying free-text interfaces, and report the results of a user study where we evaluated our prototype in a travel planner scenario. Our results show that users prefer this free-text interface over the original web form and that they are about 9% faster on average at completing their search tasks.Keywords: query processing, free-text interfaces, query translation. IntroductionThe internet contains a large amount of information that is only accessible through complex web forms. Journey planners, real estate websites, online auction and shopping websites, and other websites commonly require the user to ll out a form consisting of a number of elds in a graphical interface. The user should rst interpret the form and then translate his information need to the appropriate elds. Filling out these forms can be slow because they require mixed interaction with both the mouse and keyboard. A natural language interface (NLI) alleviates these problems by allowing the user to enter his information need in a single textual statement. Rather than navigating between and entering information in the components of the web form, the user can focus on formulating his information need in an intuitive way. NLIs require or assume syntactically well-formed sentences as input, in essence restricting the range of textual input.However, describing all possible natural language statements and dealing with query ambiguity can be a time-consuming process [1 4]. Therefore, we introduce a free-text interface (FTI) which allows the user to freely input text without any restrictions. In this paper, we describe and evaluate a prototype system for specifying FTIs to access information behind complex web forms. The system has been designed to specify exible FTIs with relatively little e ort. This work is a stepping stone for further investigation of a single textual interface to access the deep web [5]. Ideally, we wish to use these techniques to build a distributed search system which can search multiple resources, including information behind complex web forms, simultaneously. The contributions of this paper are as follows: i) we introduce a speci cation language for describing free-text interfaces (FTIs) to complex web forms; ii) as a proof of concept, we show that this language can be e ectively used to describe a exible FTI to a travel planner web form; and iii) we demonstrate that users can search faster with an FTI than
Abstract. We investigated the use of free-text queries as an alternative means for searching 'behind' web forms. We conducted a user study where we evaluated our prototype free-text interface in a travel planner scenario. Our results show that users prefer this free-text interface over the original web form and that they are about 9% faster on average at completing their search tasks.
We report how users interact with an experimental system that transforms single-field textual input into a multi-field query for an existing travel planner system. The experimental system was made publicly available and we collected over 30,000 queries from almost 12,000 users. From the free-text query log, we examined how users formulated structured information needs into free-text queries. The query log analysis shows that there is great variety in query formulation, over 400 query templates were found that occurred at least 4 times. Furthermore, with over 100 respondents to our questionnaire, we provide both quantitative and qualitative evidence indicating that end-users significantly prefer a single field interface over a multi-field interface when performing structured search.
Building a federated search engine based on a large number existing web search engines is a challenge: implementing the programming interface (API) for each search engine is an exacting and time-consuming job. In this demonstration we present SearchResultFinder, a browser plugin which speeds up determining reusable XPaths for extracting search result items from HTML search result pages. Based on a single search result page, the tool presents a ranked list of candidate extraction XPaths and allows highlighting to view the extraction result. An evaluation with 148 web search engines shows that in 90% of the cases a correct XPath is suggested.
Abstract. We describe a novel and flexible method that translates freetext queries to structured queries for filling out web forms. This can benefit searching in web databases which only allow access to their information through complex web forms. We introduce boosting and discounting heuristics, and use the constraints imposed by a web form to find a solution both efficiently and effectively. Our method is more efficient and shows improved performance over a baseline system.
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