Characteristic 3D EMA Tongue Shapes for Five Consonants Read more about Characteristic 3D EMA Tongue Shapes for Five Consonants
Investigating the efficacy of nonlinear dimensionality reduction schemes in classifying gene and protein expression studies. Read more about Investigating the efficacy of nonlinear dimensionality reduction schemes in classifying gene and protein expression studies.
Integrated diagnostics: a conceptual framework with examples. Read more about Integrated diagnostics: a conceptual framework with examples.
Supervised regularized canonical correlation analysis: integrating histologic and proteomic data for predicting biochemical failures. Read more about Supervised regularized canonical correlation analysis: integrating histologic and proteomic data for predicting biochemical failures.
Evaluating feature selection strategies for high dimensional, small sample size datasets. Read more about Evaluating feature selection strategies for high dimensional, small sample size datasets.
MULTI-MODAL DATA FUSION SCHEMES FOR INTEGRATED CLASSIFICATION OF IMAGING AND NON-IMAGING BIOMEDICAL DATA. Read more about MULTI-MODAL DATA FUSION SCHEMES FOR INTEGRATED CLASSIFICATION OF IMAGING AND NON-IMAGING BIOMEDICAL DATA.
Computer-aided prognosis: predicting patient and disease outcome via quantitative fusion of multi-scale, multi-modal data. Read more about Computer-aided prognosis: predicting patient and disease outcome via quantitative fusion of multi-scale, multi-modal data.
Supervised regularized canonical correlation analysis: integrating histologic and proteomic measurements for predicting biochemical recurrence following prostate surgery. Read more about Supervised regularized canonical correlation analysis: integrating histologic and proteomic measurements for predicting biochemical recurrence following prostate surgery.
Variable importance in nonlinear kernels (VINK): classification of digitized histopathology. Read more about Variable importance in nonlinear kernels (VINK): classification of digitized histopathology.
Cell orientation entropy (COrE): predicting biochemical recurrence from prostate cancer tissue microarrays. Read more about Cell orientation entropy (COrE): predicting biochemical recurrence from prostate cancer tissue microarrays.
