A plane table (plain table prior to 1830) is a device used in surveying site mapping, exploration mapping, coastal navigation mapping, and related disciplines to provide a solid and level surface on which to make field drawings, charts and maps. The early use of the name plain table reflected its simplicity and plainness rather than its flatness.
The earliest mention of a plane table dates to 1551 in Abel Foullon's "Usage et description de l'holomètre", published in Paris. However, since Foullon's description was of a complete, fully developed instrument, it must have been invented earlier.
The plane table became a popular instrument for surveying. Its use was widely taught. Some considered it a substandard instrument compared to other devices such as the theodolite, since it was relatively easy to use. By allowing the use of graphical methods rather than mathematical calculations, it could be used by those with less education than other instruments. The addition of a camera to the plane table, as was done from 1890 by Sebastian Finsterwalder in conjunction with a phototheodolite, established photogrammetry in spatial and temporal surveying.
A plane table consists of a smooth table surface mounted on a sturdy base. The connection between the table top and the base permits one to level the table precisely, using bubble levels, in a horizontal plane. The base, a tripod, is designed to support the table over a specific point on land. By adjusting the length of the legs, one can bring the table level regardless of the roughness of the terrain.
In use, a plane table is set over a point and brought to precise horizontal level. A drawing sheet is attached to the surface and an alidade is used to sight objects of interest. The alidade, in modern examples of the instrument a rule with a telescopic sight, can then be used to construct a line on the drawing that is in the direction of the object of interest.
By using the alidade as a surveying level, information on the topography of the site can be directly recorded on the drawing as elevations. Distances to the objects can be measured directly or by the use of stadia marks in the telescope of the alidade.
- Turner, Gerard L'E., Scientific Instruments 1500-1900, An Introduction, University of California Press, 1998 ISBN 0-85667-491-5. This is an updated version of his earlier Antique Scientific Instruments Blandford Press Ltd. 1980, ISBN 0-7137-1068-3
- Kiely, Edmond, Surveying Instruments: Their history and classroom use, Bureau of Publications, Teachers College, Columbia University, 1947. page 228
- Turner, Anthony, Early Scientific Instruments, Europe 1400-1800, Sotheby's Publishing, 1987, ISBN 0-85667-319-6. page 81
- Vai, Gian Battista, Caldwell, W. G. E. The Origins of Geology in Italy Google books online copy
- Laussedat, Amié, Recherches sur les instruments, les méthodes et le dessin topographiques, Paris, 1898-1902, two volumes
- Raymond Davis, Francis Foote, Joe Kelly, Surveying, Theory and Practice, McGraw-Hill Book Company, 1966 LC 64-66263
- Telescopic Plane Table Alidade in the collection of the Smithsonian National Museum of American History. This image shows the bubble levels on the base.