@inproceedings{Rosen2002_1,
        Abstract = {Until now, descriptions in the literature of capture systems for multi-channel visible-spectrum imaging (MVSI) have been dominated by a pair of designs. The first of these designs is extremely general. It acquires images through a large number of filtered channels each with a narrow spectral bandpass. Disadvantages are associated with low light throughput per channel and a torrent of image data. A second popular approach offers higher light throughput and lower data demands because it depends upon a limited number of wide-bandwidth channels chosen with prior knowledge of scene contents. Unfortunately, this second approach is customized to scene contents so it is not a general solution. Hybrid approaches are introduced here that combine the generality of a many-narrow- channels solution with the lower data demands of a customized, wide-band system.},
        Address = {Poitiers, University of Poitiers, France},
        Author = {Mitchell R. Rosen and Mark D. Fairchild and Noboru Ohta},
        Booktitle = {Proc. of the First European Conference on Color in Graphics, CGIV (First European Conference on Color in Graphics, Imaging and Vision)},
        Keywords = {spectral color processing and analysis},
        Month = {April},
        Number = {},
        Organization = {IS&T},
        Pages = {497--502},
        Title = {An Introduction to Data-Efficient Spectral Imaging},
        Url = {http://www.art-si.org/PDFs/Processing/CGIV02_Rosen.pdf},
        Volume = {},
        Year = {2002}