Matches in Nanopublications for { ?s <https://w3id.org/sciencelive/o/terms/followsEligibilityCriteria> ?o ?g. }
Showing items 1 to 3 of
3
with 100 items per page.
- studyAssessmentDataset followsEligibilityCriteria "Exploratory scoping review with inclusive screening. INCLUSION: Studies applying quantum computing methods to biodiversity or ecological research; Studies on biodiversity/ecology topics that could potentially benefit from quantum computing approaches; Studies on quantum algorithms relevant to environmental modeling, optimization, or data analysis; Peer-reviewed articles, preprints, and conference papers; Publications from 2015-2025; English language publications. EXCLUSION: Clearly off-topic papers (neither quantum computing nor biodiversity related); Conference abstracts only; Non-English publications; Retracted papers. NOTE: Screening used subjective judgment to identify papers with potential relevance to the intersection of quantum computing and biodiversity, including biodiversity studies that might benefit from quantum approaches even without explicit quantum computing content." assertion.
- studyAssessmentDataset followsEligibilityCriteria "test..." assertion.
- studyAssessmentDataset followsEligibilityCriteria "Exploratory scoping review with inclusive screening. INCLUSION: Studies applying quantum computing methods to biodiversity or ecological research; Studies on biodiversity/ecology topics that could potentially benefit from quantum computing approaches; Studies on quantum algorithms relevant to environmental modeling, optimization, or data analysis; Peer-reviewed articles, preprints, and conference papers; Publications from 2015-2025; English language publications. EXCLUSION: Clearly off-topic papers (neither quantum computing nor biodiversity related); Conference abstracts only; Non-English publications; Retracted papers. NOTE: Screening used subjective judgment to identify papers with potential relevance to the intersection of quantum computing and biodiversity, including biodiversity studies that might benefit from quantum approaches even without explicit quantum computing content." assertion.