How ontologies and machine learning work together [Use Case]

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Explore SciBite’s full suite of solutions to unlock the potential of your data.

Solutions Overview

Ontology Management

Text Analytics + Semantic Enrichment

Semantic Search

Datasets Our Partners Data Science and Professional Services (DSPS)

Use Cases

Discover how SciBite’s powerful solutions are supporting scientists and researchers.

Use Cases Overview

Bioassay Registration Departmental Search Drug Safety Electronic Laboratory Notebooks

Enterprise Fair Data LLMs & GenAI Knowledge Graphs Target Validation + Drug Repositioning

Gartner report

Gartner® The Pillars of a Successful Artificial Intelligence Strategy

Access report

Read report

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Explore SciBite’s full suite of solutions to unlock the potential of your data.

Discover more about us

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We build powerful partnerships with world-leading organizations.

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SciBite / Knowledge Hub / Resources / How ontologies and machine learning work together [Use Case]

How ontologies and machine learning work together [Use Case]

Fog in a misty morning green pine forest

The struggle to effectively utilise the increasing volumes of data available is a common challenge in the Life Sciences research industry. Artificial Intelligence (AI) is frequently touted as a potential solution to extract valuable insights from large volumes of heterogeneous data. However, tangible successes to date have been relatively few.

Areas bearing the greatest demonstrable success often utilise machine learning (ML), yet even these are at the mercy of the quality of the source data. Scientifically naive systems struggle to deal with the complexity and variability of unstructured scientific language. In a recent survey of over 16,700 data scientists, the most commonly cited challenge to undertaking machine learning was “dirty data”.

SciBite harmonises data by exploiting ontologies to automate semantic enrichment and annotation, whilst also coping with ambiguities such as synonyms, typographic errors or cryptic data, such as project codes, cell line IDs, and internal drug abbreviations.

To learn more, download the full use case.

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