Uses of Class
org.openscience.cdk.qsar.AbstractAtomicDescriptor
Packages that use AbstractAtomicDescriptor
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Uses of AbstractAtomicDescriptor in org.openscience.cdk.qsar.descriptors.atomic
Subclasses of AbstractAtomicDescriptor in org.openscience.cdk.qsar.descriptors.atomicModifier and TypeClassDescriptionclassThis class returns the number of not-Hs substituents of an atom, also defined as "atom degree".classThis class returns the hybridization of an atom.classThis class returns the hybridization of an atom.classThis class returns the valence of an atom.classThis class returns the number of bonds on the shortest path between two atoms.classThis class returns the covalent radius of a given atom.classThis class returns the 3D distance between two atoms.classEffective polarizability of a heavy atom Parameters for this descriptor: Name Default Description no parametersclassInductive atomic hardness of an atom in a polyatomic system can be defined as the "resistance" to a change of the atomic charge.classInductive atomic softness of an atom in a polyatomic system can be defined as charge delocalizing ability.classThis class returns the ionization potential of an atom containing lone pair electrons.classDeprecated.classThis descriptor returns 1 if the protons is directly bonded to an aromatic system, it returns 2 if the distance between aromatic system and proton is 2 bonds, and it return 0 for other positions.classThis class evaluates if a proton is joined to a conjugated system.classThe calculation of pi partial charges in pi-bonded systems of an heavy atom was made by Saller-Gasteiger.classThe calculation of sigma partial charges in sigma-bonded systems of an heavy atom was made by Marsilli-Gasteiger.classThe calculation of total partial charges of an heavy atom is based on MMFF94 model.classThe calculation of total partial charges of an heavy atom is based on Partial Equalization of Electronegativity method (PEOE-PEPE) from Gasteiger.classThis class returns the period in the periodic table of an atom belonging to an atom container Parameters for this descriptor: Name Default Description no parametersclassPi electronegativity is given by X = a + bq + c(q*q) Parameters for this descriptor: Name Default Description maxIterations 0 Number of maximum iterationsclassThis class returns the proton affinity of an atom containing.classThe calculation of partial charges of an heavy atom and its protons is based on Gasteiger Marsili (PEOE).classThis class calculates G3R proton descriptors used in neural networks for H1 NMR shift [Aires-de-Sousa, J. et. al.. J. Chem. Inf. Mod.. 2002. 74].classThis class calculates GDR proton descriptors used in neural networks for H1 NMR shift [Aires-de-Sousa, J. et. al.. J. Chem. Inf. Mod.. 2002. 74].classThis class calculates GHR proton descriptors used in neural networks for H1 NMR shift [Aires-de-Sousa, J. et. al.. J. Chem. Inf. Mod.. 2002. 74].classThis class calculates GHR topological proton descriptors used in neural networks for H1 NMR shift [Aires-de-Sousa, J. et. al.. J. Chem. Inf. Mod.. 2002. 74].classThis class calculates GDR proton descriptors used in neural networks for H1 NMR shift [Aires-de-Sousa, J. et. al.. J. Chem. Inf. Mod.. 2002. 74].classAtomic descriptor that reflects that Gasteiger-Marsili sigma electronegativity.classThe stabilization of the positive charge (e.g.) obtained in the polar breaking of a bond is calculated from the sigma- and lone pair-electronegativity values of the atoms that are in conjugation to the atoms obtaining the charges.classThis class return the VdW radius of a given atom.