Anes Bendimerad, Romain Mathonat, Youcef Remil, Mehdi Kaytoue
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Leveraging FCA, we represent data structures as objects, analyze the\nconcept lattice, and present two strategies-top-down and bottom-up-to unify\nthese structures and establish a common schema. Our methodology yields\nsignificant results, enabling the identification of common concepts in the data\nstructures, such as resources along with their underlying shared fields\n(timestamp, type, usedRatio, etc.). Moreover, the number of distinct data\nstructure field names is reduced by 54 percent (from 190 to 88) in the studied\nsubset of our data lake. We achieve a complete coverage of 80 percent of data\nstructures with only 34 distinct field names, a significant improvement from\nthe initial 121 field names that were needed to reach such coverage. The paper\nprovides insights into the Infologic ecosystem, problem formulation,\nexploration strategies, and presents both qualitative and quantitative results.","PeriodicalId":501123,"journal":{"name":"arXiv - CS - Databases","volume":"24 1","pages":""},"PeriodicalIF":0.0000,"publicationDate":"2024-08-11","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Exploiting Formal Concept Analysis for Data Modeling in Data Lakes\",\"authors\":\"Anes Bendimerad, Romain Mathonat, Youcef Remil, Mehdi Kaytoue\",\"doi\":\"arxiv-2408.13265\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"Data lakes are widely used to store extensive and heterogeneous datasets for\\nadvanced analytics. However, the unstructured nature of data in these\\nrepositories introduces complexities in exploiting them and extracting\\nmeaningful insights. This motivates the need of exploring efficient approaches\\nfor consolidating data lakes and deriving a common and unified schema. This\\npaper introduces a practical data visualization and analysis approach rooted in\\nFormal Concept Analysis (FCA) to systematically clean, organize, and design\\ndata structures within a data lake. We explore diverse data structures stored\\nin our data lake at Infologic, including InfluxDB measurements and\\nElasticsearch indexes, aiming to derive conventions for a more accessible data\\nmodel. Leveraging FCA, we represent data structures as objects, analyze the\\nconcept lattice, and present two strategies-top-down and bottom-up-to unify\\nthese structures and establish a common schema. Our methodology yields\\nsignificant results, enabling the identification of common concepts in the data\\nstructures, such as resources along with their underlying shared fields\\n(timestamp, type, usedRatio, etc.). Moreover, the number of distinct data\\nstructure field names is reduced by 54 percent (from 190 to 88) in the studied\\nsubset of our data lake. We achieve a complete coverage of 80 percent of data\\nstructures with only 34 distinct field names, a significant improvement from\\nthe initial 121 field names that were needed to reach such coverage. 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Exploiting Formal Concept Analysis for Data Modeling in Data Lakes
Data lakes are widely used to store extensive and heterogeneous datasets for
advanced analytics. However, the unstructured nature of data in these
repositories introduces complexities in exploiting them and extracting
meaningful insights. This motivates the need of exploring efficient approaches
for consolidating data lakes and deriving a common and unified schema. This
paper introduces a practical data visualization and analysis approach rooted in
Formal Concept Analysis (FCA) to systematically clean, organize, and design
data structures within a data lake. We explore diverse data structures stored
in our data lake at Infologic, including InfluxDB measurements and
Elasticsearch indexes, aiming to derive conventions for a more accessible data
model. Leveraging FCA, we represent data structures as objects, analyze the
concept lattice, and present two strategies-top-down and bottom-up-to unify
these structures and establish a common schema. Our methodology yields
significant results, enabling the identification of common concepts in the data
structures, such as resources along with their underlying shared fields
(timestamp, type, usedRatio, etc.). Moreover, the number of distinct data
structure field names is reduced by 54 percent (from 190 to 88) in the studied
subset of our data lake. We achieve a complete coverage of 80 percent of data
structures with only 34 distinct field names, a significant improvement from
the initial 121 field names that were needed to reach such coverage. The paper
provides insights into the Infologic ecosystem, problem formulation,
exploration strategies, and presents both qualitative and quantitative results.