A method of projection spectroscopy for N-dimensional NMR experiments with
the following steps. Data recording comprising: a) selection of
N-dimensional NMR experiments out of a group of N-dimensional
experiments, selection of the dimensionalities (D.sub.i) of the
projections and unconstrained selection of j sets of projection angles,
with j.gtoreq.2; b) recording of discrete sets of j projections from the
N-dimensional NMR experiments at the selected projection angles; c) peak
picking and creating a peak list for each of the j projection spectra is
characterized by d) automated identification of peaks in the projection
spectra that arise from the same resonance in the N-dimensional spectrum
(N.gtoreq.3) using vector algebra to exploit geometrical properties of
projections in the N-dimensional space, and computation of a
N-dimensional peak list using vector algebra to exploit geometrical
properties of projections in the N-dimensional space. A reliable method
of automated projection spectroscopy without restrictions on projection
angles and dimensionality is thereby realized.