Graph based representations of density distribution and distances for self-organizing maps

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dc.contributor.author Kadim TaÅŸdemir
dc.date.accessioned 2025-10-06T17:53:10Z
dc.date.issued 2010
dc.description.abstract The self-organizing map (SOM) is a powerful method for manifold learning because of producing a 2-D spatially ordered quantization of a higher dimensional data space on a rigid lattice and adaptively determining optimal approximation of the (unknown) density distribution of the data. However a postprocessing visualization scheme is often required to capture the data manifold. A recent visualization scheme CONNvis which is shown effective for clustering uses a topology representing graph that shows detailed local data distribution within receptive fields. This brief proposes that this graph representation can be adapted to show local distances. The proposed graphs of local density and local distances provide tools to analyze the correlation between these two information and to merge them in various ways to achieve an advanced visualization. The brief also gives comparisons for several synthetic data sets. © 2010 IEEE. © 2010 Elsevier B.V. All rights reserved.
dc.identifier.doi 10.1109/TNN.2010.2040200
dc.identifier.issn 10459227
dc.identifier.issn 1045-9227
dc.identifier.issn 1941-0093
dc.identifier.uri https://www.scopus.com/inward/record.uri?eid=2-s2.0-77649274978&doi=10.1109%2FTNN.2010.2040200&partnerID=40&md5=88f0e1d9d3a3b9f2a30327914ff33836
dc.identifier.uri https://gcris.yasar.edu.tr/handle/123456789/10292
dc.language.iso English
dc.relation.ispartof IEEE Transactions on Neural Networks
dc.source IEEE Transactions on Neural Networks
dc.subject Graph Representation, Self-organizing Maps (soms), Topology, Visualization, Data Manifolds, Data Space, Density Distributions, Graph Representation, Graph-based Representations, Higher-dimensional, Local Data, Local Density, Manifold Learning, Optimal Approximation, Receptive Fields, Self-organizing Maps (soms), Synthetic Datasets, Conformal Mapping, Data Visualization, Topology, Visualization, Self Organizing Maps, Algorithm, Article, Artificial Neural Network, Computer Graphics, Computer Simulation, Human, Signal Processing, Algorithms, Computer Graphics, Computer Simulation, Humans, Neural Networks (computer), Signal Processing Computer-assisted
dc.subject Data manifolds, Data space, Density distributions, Graph representation, Graph-based representations, Higher-dimensional, Local data, Local density, Manifold learning, Optimal approximation, Receptive fields, Self-organizing maps (SOMs), Synthetic datasets, Conformal mapping, Data visualization, Topology, Visualization, Self organizing maps, algorithm, article, artificial neural network, computer graphics, computer simulation, human, signal processing, Algorithms, Computer Graphics, Computer Simulation, Humans, Neural Networks (Computer), Signal Processing Computer-Assisted
dc.title Graph based representations of density distribution and distances for self-organizing maps
dc.type Article
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gdc.collaboration.industrial false
gdc.description.endpage 526
gdc.description.startpage 520
gdc.description.volume 21
gdc.identifier.openalex W2107317146
gdc.identifier.pmid 20100673
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gdc.oaire.diamondjournal false
gdc.oaire.impulse 14.0
gdc.oaire.influence 4.731124E-9
gdc.oaire.isgreen true
gdc.oaire.keywords Computer Graphics
gdc.oaire.keywords Humans
gdc.oaire.keywords Computer Simulation
gdc.oaire.keywords Signal Processing, Computer-Assisted
gdc.oaire.keywords Neural Networks, Computer
gdc.oaire.keywords Algorithms
gdc.oaire.popularity 3.455579E-9
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gdc.oaire.sciencefields 0202 electrical engineering, electronic engineering, information engineering
gdc.oaire.sciencefields 02 engineering and technology
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gdc.opencitations.count 24
gdc.plumx.crossrefcites 22
gdc.plumx.mendeley 21
gdc.plumx.pubmedcites 2
gdc.plumx.scopuscites 24
oaire.citation.endPage 526
oaire.citation.startPage 520
person.identifier.scopus-author-id TaÅŸdemir- Kadim (55915282200)
publicationissue.issueNumber 3
publicationvolume.volumeNumber 21
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relation.isOrgUnitOfPublication.latestForDiscovery ac5ddece-c76d-476d-ab30-e4d3029dee37

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