Metadata Topic Harmonization and Semantic Search for Linked‐Data‐Driven Geoportals: A Case Study Using ArcGIS Online

Hu, Yingjie; Janowicz, Krzysztof; Prasad, Sathya; Gao, Song

doi:10.1111/tgis.12151

Cited by 38 publications

(27 citation statements)

References 35 publications

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“…GeoNames is a gazetteer that contains over 10,000,000 places throughout the world. Due to its high coverage, GeoNames has often been used to support geographic information retrieval and enrichment (Passant, ; Hu, Janowicz, Prasad, & Gao, ; Pasley, Clough, Purves, & Twaroch, ). Each place in GeoNames is categorized into one of nine major feature types and then further subdivided into one of 645 minor feature types.…”

Section: Gazetteer Datasetsmentioning

confidence: 99%

Spatial signatures for geographic feature types: examining gazetteer ontologies using spatial statistics

Zhu

Janowicz

et al. 2016

Transactions in GIS

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Digital gazetteers play a key role in modern information systems and infrastructures. They facilitate (spatial) search, deliver contextual information to recommended systems, enrich textual information with geographical references, and provide stable identifiers to interlink actors, events, and objects by the places they interact with. Hence, it is unsurprising that gazetteers, such as GeoNames, are among the most densely interlinked hubs on the Web of Linked Data. A wide variety of digital gazetteers have been developed over the years to serve different communities and needs.These gazetteers differ in their overall coverage, underlying data sources, provided functionality, and geographic feature type ontologies. Consequently, place types that share a common name may differ substantially between gazetteers, whereas types labeled differently may, in fact, specify the same or similar places. This makes data integration and federated queries challenging, if not impossible. To further complicate the situation, most popular and widely adopted geo-ontologies are lightweight and thus under-specific to a degree where their alignment and matching become nothing more than educated guesses. The most promising approach to addressing this problem, and thereby enabling the meaningful integration of gazetteer data across feature types, seems to be a combination of topdown knowledge representation with bottom-up data-driven techniques such as feature engineering and machine learning. In this work, we propose to derive indicative spatial signatures for geographic feature types by using spatial statistics. We discuss how to create such signatures by feature engineering and demonstrate how the signatures can be applied to better understand the differences and commonalities of three major gazetteers, namely DBpedia Places, GeoNames, and TGN.

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Section: Gazetteer Datasetsmentioning

confidence: 99%

Spatial signatures for geographic feature types: examining gazetteer ontologies using spatial statistics

Zhu

Janowicz

et al. 2016

Transactions in GIS

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“…There are many open access KBs, such as Yago, DBpedia, and WordNet, that have been widely used for place name disambiguation [19], semantic search [20], knowledge discovery [21], and so on. A well-known application of KBs is Watson [22], a question-answering computer system that uses multiple information sources (including ontologies, encyclopedias, dictionaries, and other material) to build knowledge.…”

Section: Methodsmentioning

confidence: 99%

A Knowledge-Based Filtering Method for Open Relations among Geo-Entities

Qiu

Gao

et al. 2019

IJGI

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Knowledge graphs (KGs) are crucial resources for supporting geographical knowledge services. Given the vast geographical knowledge in web text, extraction of geo-entity relations from web text has become the core technology for construction of geographical KGs; furthermore, it directly affects the quality of geographical knowledge services. However, web text inevitably contains noise and geographical knowledge can be sparsely distributed, both of which greatly restrict the quality of geo-entity relationship extraction. We propose a method for filtering geo-entity relations based on existing knowledge bases (KBs). Accordingly, ontology knowledge, fact knowledge, and synonym knowledge are integrated to generate geo-related knowledge. Then, the extracted geo-entity relationships and the geo-related knowledge are transferred into vectors, and the maximum similarity between vectors is the confidence value of one extracted geo-entity relationship triple. Our method takes full advantage of existing KBs to assess the quality of geographical information in web text, which is helpful to improve the richness and freshness of geographical KGs. Compared with the Stanford OpenIE method, our method decreased the mean square error (MSE) from 0.62 to 0.06 in the confidence interval [0.7, 1], and improved the area under the receiver operating characteristic (ROC) curve (AUC) from 0.51 to 0.89.

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“…Another approach to this challenge has been applied through document-clustering and dimension-reduction techniques such as Latent Semantic Analysis (LSA) [15] and Latent Dirichlet allocation (LDA) [16]. Li, Goodchild [7] developed a geospatial semantic search algorithm integrating LSA in the broad domain of Earth science, and Hu, Janowicz [17] performed topic modeling using LDA in geospatial portals. The advantage of these solutions lies in their automaticity and human and language independence.…”

Section: Related Workmentioning

confidence: 99%

“…Attempts have been made to improve the keyword based ranking by performing semantic analysis, but other aspects of the data that can be related to users' search interest are overlooked such as when the data was released [7,17]. Martins and Calado [19] apply machine learning to rank newspaper documents of geographic query.…”

Section: Related Workmentioning

confidence: 99%

A Smart Web-Based Geospatial Data Discovery System with Oceanographic Data as an Example

Jiang

Yang

et al. 2018

IJGI

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Discovering and accessing geospatial data presents a significant challenge for the Earth sciences community as massive amounts of data are being produced on a daily basis. In this article, we report a smart web-based geospatial data discovery system that mines and utilizes data relevancy from metadata user behavior. Specifically, (1) the system enables semantic query expansion and suggestion to assist users in finding more relevant data; (2) machine-learned ranking is utilized to provide the optimal search ranking based on a number of identified ranking features that can reflect users' search preferences; (3) a hybrid recommendation module is designed to allow users to discover related data considering metadata attributes and user behavior; (4) an integrated graphic user interface design is developed to quickly and intuitively guide data consumers to the appropriate data resources. As a proof of concept, we focus on a well-defined domain-oceanography and use oceanographic data discovery as an example. Experiments and a search example show that the proposed system can improve the scientific community's data search experience by providing query expansion, suggestion, better search ranking, and data recommendation via a user-friendly interface.

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Metadata Topic Harmonization and Semantic Search for Linked‐Data‐Driven Geoportals: A Case Study Using ArcGIS Online

Cited by 38 publications

References 35 publications

Spatial signatures for geographic feature types: examining gazetteer ontologies using spatial statistics

Spatial signatures for geographic feature types: examining gazetteer ontologies using spatial statistics

A Knowledge-Based Filtering Method for Open Relations among Geo-Entities

A Smart Web-Based Geospatial Data Discovery System with Oceanographic Data as an Example

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