A New Methodology for Storing Consistent Fuzzy Geospatial Data in Big Data Environment

In this era of big data, as relational databases are inefficient, NoSQL databases are a workable solution for data storage. In this context, one of the key issues is the veracity and therefore the data quality. Indeed, as with classic data, geospatial big data are generally fuzzy even though they are stored as crisp data (perfect data). Hence, if data are geospatial and fuzzy, additional complexities appear because of the complex syntax and semantic features of such data. The NoSQL databases do not offer strict data consistency. Therefore, new challenges are needed to be overcome to develop efficient methods that simultaneously ensure the performance and the consistency in storing fuzzy geospatial big data. This paper presents a new methodology that tackles the storage issues and validates the fuzzy spatial entities' consistency in a document-based NoSQL system. Consequently, first, to better express the structure of fuzzy geospatial data in such a system, we present a logical model called Fuzzy GeoJSON schema. Second, for consistent storage, we implement a schema-driven pipeline based on the Fuzzy GeoJSON schema and semantic constraints.

Automated summary

In this paper, a new methodology is presented to address storage issues and validate the consistency of fuzzy spatial entities in a document-based NoSQL system. A logical model called Fuzzy GeoJSON schema is introduced to better represent the structure of fuzzy geospatial data, and a schema-driven pipeline based on this schema and semantic constraints is implemented for consistent storage.