Traveling Sales Person - Family of functions¶
pgr_TSP - When input is given as matrix cell information.
pgr_TSPeuclidean - When input are coordinates.
The travelling salesperson problem (TSP) asks the following question:
Given a list of cities and the distances between each pair of cities, which is the shortest possible route that visits each city exactly once and returns to the origin city?
The traveling sales person problem was studied in the 18th century by mathematicians Sir William Rowam Hamilton and Thomas Penyngton Kirkman.
A discussion about the work of Hamilton & Kirkman can be found in the book Graph Theory (Biggs et al. 1976).
It is believed that the general form of the TSP have been first studied by Kalr Menger in Vienna and Harvard. The problem was later promoted by Hassler, Whitney & Merrill at Princeton. A detailed description about the connection between Menger & Whitney, and the development of the TSP can be found in On the history of combinatorial optimization (till 1960)
To calculate the number of different tours through \(n\) cities:
Given a starting city,
There are \(n-1\) choices for the second city,
And \(n-2\) choices for the third city, etc.
Multiplying these together we get \((n-1)! = (n-1) (n-2) . . 1\).
Now since the travel costs do not depend on the direction taken around the tour:
this number by 2
This problem is an NP-hard optimization problem.
Metric Algorithm is used
Implementation generates solutions that are twice as long as the optimal tour in the worst case when:
Graph is undirected
Graph is fully connected
Graph where traveling costs on edges obey the triangle inequality.
On an undirected graph:
The traveling costs are symmetric:
Traveling costs from
vare just as much as traveling from
TSP optional parameters¶
The first visiting vertex
Last visiting vertex before returning to
Indices and tables