Tienstra formula

This article may be confusing or unclear to readers. Please help clarify the article. There might be a discussion about this on the talk page. (December 2013) (Learn how and when to remove this message)

The Tienstra formula is used to solve the resection problem in surveying, by which the location of a given point is determined by observations of angles to known landmarks from the unknown point.

J. M. Tienstra (nl) (1895-1951) was a professor of the Delft university of Technology where he taught the use of barycentric coordinates in solving the resection problem. It seems most probable that his name became attached to the procedure for this reason, though when, and by whom, the formula was first proposed is unknown.^[1]

The resection problem consists in finding the location of an observer by measuring the angles subtended by lines of sight from the observer to three known points. Tienstra’s formula provides the most compact and elegant solution to this problem.^[2]

${\displaystyle E_p=\frac{K_1{E}_a+K_2{E}_b+K_3{E}_c}{K_1+K_2+K_3}}$

${\displaystyle N_p=\frac{K_1{N}_a+K_2{N}_b+K_3{N}_c}{K_1+K_2+K_3}}$

Where:

${\displaystyle K_1=\frac{1}{\cot (A)-\cot (\alpha )}}$

${\displaystyle K_2=\frac{1}{\cot (B)-\cot (\beta )}}$

${\displaystyle K_3=\frac{1}{\cot (C)-\cot (\gamma )}}$

• Ansermet A (1910) "Eine Auflösung des Rückwärtseinschneidens". Zeitschrift des Vereins Schweiz. Konkordatsgeometer, Jahrgang 8, pp. 88–91

• 3-Point Resection Solver Using Tienstra's Method

This engineering-related article is a stub. You can help Wikipedia by expanding it.

• v
• t
• e