21.4.4.3 HIV, HIV/AIDS Cell Analysis

Nanni, L.[Loris],
Comparison among feature extraction methods for HIV-1 protease cleavage site prediction,
PR(39), No. 4, April 2006, pp. 711-713.
Elsevier DOI HIV-1 protease; Feature extraction; Fusion of classifiers 0604
BibRef

Lumini, A.[Alessandra], Nanni, L.[Loris],
Identifying splice-junction sequences by hierarchical multiclassifier,
PRL(27), No. 12, September 2006, pp. 1390-1396.
Elsevier DOI 0606
BibRef
Earlier: A2, A1:
Support Vector Machines for HIV-1 Protease Cleavage Site Prediction,
IbPRIA05(II:413).
Springer DOI 0509
Hierarchical multiclassifier; Machine learning; Splice-junction BibRef

Lepore, N., Brun, C.C., Chou, Y.Y., Chiang, M.C., Dutton, R.A., Hayashi, K.M., Luders, E., Lopez, O.L., Aizenstein, H.J., Toga, A.W., Becker, J.T., Thompson, P.M.,
Generalized Tensor-Based Morphometry of HIV/AIDS Using Multivariate Statistics on Deformation Tensors,
MedImg(27), No. 1, January 2008, pp. 129-141.
IEEE DOI 0712
BibRef

Grau, I.[Isel], Nápoles, G.[Gonzalo], García, M.M.[María M.],
Predicting HIV-1 Protease and Reverse Transcriptase Drug Resistance Using Fuzzy Cognitive Maps,
CIARP13(II:190-197).
Springer DOI 1311
BibRef

Gopinath, A.[Ajay], Bovik, A.C.[Alan C.],
Generating a statistical shape model of the AIDS virus spike,
Southwest12(25-28).
IEEE DOI 1205
BibRef

Chapter on Medical Applications, CAT, MRI, Ultrasound, Heart Models, Brain Models continues in
3-D Cell Analysis .