Some applications of computer graphics require a vivid illusion of reality. These include the spatial organization of machine parts, conceptual architectural design, simulation of mechanisms, and industrial design. There has been moderate success in the automatic generation of wire frame, cardboard model, polyhedra, and quadric surface line drawings. The capability of the machine to generate vivid sterographic pictures has been demonstrated. There are, however considerable reasons for developing techniques by which line drawings of solids can be shaded, especially the enhancement of the sense of solidity and depth. Figures 1 and 2 illustrate the value of shading and shadow casting in spatial description. In the line drawing there is no clue as to the relative position of the flat plane and the sheet metal console. When shadows are rendered, it is clear that the plane is below and to the rear of the console, and the hollow nature of the sheet metal assembly is emphasized. Shading can specify the tone or color of a surface and the amount of light falling upon that surface from one or more light sources. Shadows when sharply defined tend to suggest another viewpoint and improves surface definition. When controlled, shading can also emphasize particular parts of the drawing. If techniques for the automatic determination of chiaroscuro with good resolution should prove to be competitive with line drawings, and this is a possibility, machine generated photographs might replace line drawings as the principal mode of graphical communication in engineering and architecture.

Note: OCR errors may be found in this Reference List extracted from the full text article. ACM has opted to expose the complete List rather than only correct and linked references.

	1	Timothy E. Johnson, Sketchpad III: a computer program for drawing in three dimensions, Proceedings of the May 21-23, 1963, spring joint computer conference, May 21-23, 1963, Detroit, Michigan  [doi>10.1145/1461551.1461592]
	2	A Appel The visibility problem and machine rendering of solids IBM Research Report RC 1618 May 20 1966
	3	P Loutrel Determination of hidden edges in polyhedral figures: convex case Technical Report 400-145, Laboratory for Electroscience Research NYU September 1966
	4	Arthur Appel, The notion of quantitative invisibility and the machine rendering of solids, Proceedings of the 1967 22nd national conference, p.387-393, January 1967, Washington, D.C., United States  [doi>10.1145/800196.806007]
	5	Ruth A. Weiss, BE VISION, A Package of IBM 7090 FORTRAN Programs to Draw Orthographic Views of Combinations of Plane and Quadric Surfaces, Journal of the ACM (JACM), v.13 n.2, p.194-204, April 1966  [doi>10.1145/321328.321330]
	6	H R Puckett Computer method for perspective drawing journal of spacecraft and rockets Vol I No 1 pp 44--48 1964
	7	W. S. Holmes , H. R. Leland , G. E. Richmond, Design of a photo interpretation automaton, Proceedings of the December 4-6, 1962, fall joint computer conference, p.27-35, December 04-06, 1962, Philadelphia, Pennsylvania  [doi>10.1145/1461518.1461521]
	8	Richard W. Conn, Digitized photographs for illustrated computer output, Proceedings of the April 18-20, 1967, spring joint computer conference, April 18-20, 1967, Atlantic City, New Jersey  [doi>10.1145/1465482.1465498]
	9	Lunar Orbiter Surveys the Moon Sky and Telescope Vol 32 No 4 October 1966 pp 192--197
	10	L G Roberts Machine perception of three-dimensional solids Technical Report No 315 Lincoln Laboratory MIT May 1963
	11	G Lasher Mixed state of type-I superconducting films in a perpendicular magnetic filed The Physical Review Vol 154 No 2 pp 345--348 Feb 10 1967
	12	John L. Pfaltz , Azriel Rosenfeld, Computer representation of planar regions by their skeletons, Communications of the ACM, v.10 n.2, p.119-122, Feb. 1967  [doi>10.1145/363067.363120]
	13	A J Cole Plane and stereographic projections of convex polyhedra from minimal information The Computer Journal
	14	Chris Wylie , Gordon Romney , David Evans , Alan Erdahl, Half-tone perspective drawings by computer, Proceedings of the November 14-16, 1967, fall joint computer conference, November 14-16, 1967, Anaheim, California  [doi>10.1145/1465611.1465619]
	15	P Loutrell Phd Thesis NYU September 1967 NYU September 1967