nlpca Search Results


nlpca  (MathWorks Inc)
90
MathWorks Inc nlpca
Nlpca, supplied by MathWorks Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/nlpca/product/MathWorks Inc
Average 90 stars, based on 1 article reviews
nlpca - by Bioz Stars, 2026-04
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nonlinear pca toolbox  (MathWorks Inc)
90
MathWorks Inc nonlinear pca toolbox
Nonlinear Pca Toolbox, supplied by MathWorks Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/nonlinear pca toolbox/product/MathWorks Inc
Average 90 stars, based on 1 article reviews
nonlinear pca toolbox - by Bioz Stars, 2026-04
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nlpca toolbox  (MathWorks Inc)
90
MathWorks Inc nlpca toolbox
The z scores of the three rescaled logistic fit parameters are shown in a 3d scatterplot (blue dots). These points lie close to a curved 2d manifold (mesh grid), which was found by performing nonlinear principal component analysis <t>(NLPCA).</t> The flattened manifold is shown in (D). On this manifold, φ 1 seems to separate the environmental conditions as shown in by the marginal distribution over bacterial food sources. In contrast, the marginal distributions over the C. elegans strains shows separation in φ 2 . Marginal distributions were computed with a kernel density estimator implemented with the ksdensity function in <t>MATLAB.</t> The principal component weights for first two nonlinear principal components φ 1 and φ 2 for each C. elegans shown as a scatterplot. The colour of each point indicates that worm's development time, t dev , as indicated by the colour bar. The mean φ 1 and φ 2 for each condition are shown as a combination of symbols ( C. elegans strain) and colour (Bacterial food source). This separation in φ 1 and φ 2 can be quantified by computing the F‐statistic for a linear regression model taking genotype and environment as regressors. φ 1 regresses primarily on environment and φ 2 on genotype. Interestingly, both genotype and environment together are generally required to explain the variance in the three logistic fit parameters and the developmental time alone. To determine the effect of varying φ 1 on the shape of the growth curve, φ 2 was fixed to 0 and φ 1 was varied through a range, as indicated by the colour bar, with coordinates being converted back from the unit‐less quantities. In this case, there appears to be a trade‐off between fast growth (blue curves) and larger adult size (green curves). Similarly, when φ 1 is fixed and φ 2 varied, the resulting growth curves change from slower growth and smaller adult size (green) to faster growth and larger adult size (blue). Source data are available online for this figure.
Nlpca Toolbox, supplied by MathWorks Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/nlpca toolbox/product/MathWorks Inc
Average 90 stars, based on 1 article reviews
nlpca toolbox - by Bioz Stars, 2026-04
90/100 stars
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nonlinear principal component analysis (nlpca  (SPSS Inc)
90
SPSS Inc nonlinear principal component analysis (nlpca
The z scores of the three rescaled logistic fit parameters are shown in a 3d scatterplot (blue dots). These points lie close to a curved 2d manifold (mesh grid), which was found by performing nonlinear principal component analysis <t>(NLPCA).</t> The flattened manifold is shown in (D). On this manifold, φ 1 seems to separate the environmental conditions as shown in by the marginal distribution over bacterial food sources. In contrast, the marginal distributions over the C. elegans strains shows separation in φ 2 . Marginal distributions were computed with a kernel density estimator implemented with the ksdensity function in <t>MATLAB.</t> The principal component weights for first two nonlinear principal components φ 1 and φ 2 for each C. elegans shown as a scatterplot. The colour of each point indicates that worm's development time, t dev , as indicated by the colour bar. The mean φ 1 and φ 2 for each condition are shown as a combination of symbols ( C. elegans strain) and colour (Bacterial food source). This separation in φ 1 and φ 2 can be quantified by computing the F‐statistic for a linear regression model taking genotype and environment as regressors. φ 1 regresses primarily on environment and φ 2 on genotype. Interestingly, both genotype and environment together are generally required to explain the variance in the three logistic fit parameters and the developmental time alone. To determine the effect of varying φ 1 on the shape of the growth curve, φ 2 was fixed to 0 and φ 1 was varied through a range, as indicated by the colour bar, with coordinates being converted back from the unit‐less quantities. In this case, there appears to be a trade‐off between fast growth (blue curves) and larger adult size (green curves). Similarly, when φ 1 is fixed and φ 2 varied, the resulting growth curves change from slower growth and smaller adult size (green) to faster growth and larger adult size (blue). Source data are available online for this figure.
Nonlinear Principal Component Analysis (Nlpca, supplied by SPSS Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/nonlinear principal component analysis (nlpca/product/SPSS Inc
Average 90 stars, based on 1 article reviews
nonlinear principal component analysis (nlpca - by Bioz Stars, 2026-04
90/100 stars
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matlab r2010a  (MathWorks Inc)
90
MathWorks Inc matlab r2010a
The z scores of the three rescaled logistic fit parameters are shown in a 3d scatterplot (blue dots). These points lie close to a curved 2d manifold (mesh grid), which was found by performing nonlinear principal component analysis <t>(NLPCA).</t> The flattened manifold is shown in (D). On this manifold, φ 1 seems to separate the environmental conditions as shown in by the marginal distribution over bacterial food sources. In contrast, the marginal distributions over the C. elegans strains shows separation in φ 2 . Marginal distributions were computed with a kernel density estimator implemented with the ksdensity function in <t>MATLAB.</t> The principal component weights for first two nonlinear principal components φ 1 and φ 2 for each C. elegans shown as a scatterplot. The colour of each point indicates that worm's development time, t dev , as indicated by the colour bar. The mean φ 1 and φ 2 for each condition are shown as a combination of symbols ( C. elegans strain) and colour (Bacterial food source). This separation in φ 1 and φ 2 can be quantified by computing the F‐statistic for a linear regression model taking genotype and environment as regressors. φ 1 regresses primarily on environment and φ 2 on genotype. Interestingly, both genotype and environment together are generally required to explain the variance in the three logistic fit parameters and the developmental time alone. To determine the effect of varying φ 1 on the shape of the growth curve, φ 2 was fixed to 0 and φ 1 was varied through a range, as indicated by the colour bar, with coordinates being converted back from the unit‐less quantities. In this case, there appears to be a trade‐off between fast growth (blue curves) and larger adult size (green curves). Similarly, when φ 1 is fixed and φ 2 varied, the resulting growth curves change from slower growth and smaller adult size (green) to faster growth and larger adult size (blue). Source data are available online for this figure.
Matlab R2010a, supplied by MathWorks Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/matlab r2010a/product/MathWorks Inc
Average 90 stars, based on 1 article reviews
matlab r2010a - by Bioz Stars, 2026-04
90/100 stars
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Image Search Results


The z scores of the three rescaled logistic fit parameters are shown in a 3d scatterplot (blue dots). These points lie close to a curved 2d manifold (mesh grid), which was found by performing nonlinear principal component analysis (NLPCA). The flattened manifold is shown in (D). On this manifold, φ 1 seems to separate the environmental conditions as shown in by the marginal distribution over bacterial food sources. In contrast, the marginal distributions over the C. elegans strains shows separation in φ 2 . Marginal distributions were computed with a kernel density estimator implemented with the ksdensity function in MATLAB. The principal component weights for first two nonlinear principal components φ 1 and φ 2 for each C. elegans shown as a scatterplot. The colour of each point indicates that worm's development time, t dev , as indicated by the colour bar. The mean φ 1 and φ 2 for each condition are shown as a combination of symbols ( C. elegans strain) and colour (Bacterial food source). This separation in φ 1 and φ 2 can be quantified by computing the F‐statistic for a linear regression model taking genotype and environment as regressors. φ 1 regresses primarily on environment and φ 2 on genotype. Interestingly, both genotype and environment together are generally required to explain the variance in the three logistic fit parameters and the developmental time alone. To determine the effect of varying φ 1 on the shape of the growth curve, φ 2 was fixed to 0 and φ 1 was varied through a range, as indicated by the colour bar, with coordinates being converted back from the unit‐less quantities. In this case, there appears to be a trade‐off between fast growth (blue curves) and larger adult size (green curves). Similarly, when φ 1 is fixed and φ 2 varied, the resulting growth curves change from slower growth and smaller adult size (green) to faster growth and larger adult size (blue). Source data are available online for this figure.

Journal: Molecular Systems Biology

Article Title: Canalisation and plasticity on the developmental manifold of Caenorhabditis elegans

doi: 10.15252/msb.202311835

Figure Lengend Snippet: The z scores of the three rescaled logistic fit parameters are shown in a 3d scatterplot (blue dots). These points lie close to a curved 2d manifold (mesh grid), which was found by performing nonlinear principal component analysis (NLPCA). The flattened manifold is shown in (D). On this manifold, φ 1 seems to separate the environmental conditions as shown in by the marginal distribution over bacterial food sources. In contrast, the marginal distributions over the C. elegans strains shows separation in φ 2 . Marginal distributions were computed with a kernel density estimator implemented with the ksdensity function in MATLAB. The principal component weights for first two nonlinear principal components φ 1 and φ 2 for each C. elegans shown as a scatterplot. The colour of each point indicates that worm's development time, t dev , as indicated by the colour bar. The mean φ 1 and φ 2 for each condition are shown as a combination of symbols ( C. elegans strain) and colour (Bacterial food source). This separation in φ 1 and φ 2 can be quantified by computing the F‐statistic for a linear regression model taking genotype and environment as regressors. φ 1 regresses primarily on environment and φ 2 on genotype. Interestingly, both genotype and environment together are generally required to explain the variance in the three logistic fit parameters and the developmental time alone. To determine the effect of varying φ 1 on the shape of the growth curve, φ 2 was fixed to 0 and φ 1 was varied through a range, as indicated by the colour bar, with coordinates being converted back from the unit‐less quantities. In this case, there appears to be a trade‐off between fast growth (blue curves) and larger adult size (green curves). Similarly, when φ 1 is fixed and φ 2 varied, the resulting growth curves change from slower growth and smaller adult size (green) to faster growth and larger adult size (blue). Source data are available online for this figure.

Article Snippet: The NLPCA implementation we use is from NLPCA toolbox for MATLAB (Scholz et al , ) and uses a multilayer perceptron architecture with a hyperbolic tangent activation function in the hidden layers.

Techniques:

Journal: Molecular Systems Biology

Article Title: Canalisation and plasticity on the developmental manifold of Caenorhabditis elegans

doi: 10.15252/msb.202311835

Figure Lengend Snippet:

Article Snippet: The NLPCA implementation we use is from NLPCA toolbox for MATLAB (Scholz et al , ) and uses a multilayer perceptron architecture with a hyperbolic tangent activation function in the hidden layers.

Techniques: Software