Brachistochrone problem (TACO): Difference between revisions

Revision as of 20:28, 30 December 2015

This page contains a model of the classical Brachistochrone problem (Johann Bernoulli, 1696), see e.g. Wikipedia or <bibref>Betts1993</bibref>, in AMPL format, making use of the TACO toolkit for AMPL control optimization extensions. Note that you will need to include a generic AMPL/TACO support file, OptimalControl.mod. To solve this model, you require an optimal control or NLP code that uses the TACO toolkit to support the AMPL optimal control extensions.

AMPL

This is the source file brac_taco.mod

# ----------------------------------------------------------------
# Brachistochrone problem using AMPL and TACO
# (c) Christian Kirches, Sven Leyffer
# ----------------------------------------------------------------
include OptimalControl.mod;

var t;
var tf := 1.0, >= 0.1, <= 1.0;
let tf.scale := 0.5;		# improves convergence

var x := 0, >= 0, <= 1;
var y := 0, >= 0, <= 1;
var v := 0, >= 0, <= 8;

var a := 0.5, >= 0, <= 1.57079327;
let a.type := "u1";
let a.slope_min := -10.0;
let a.slope_max := +10.0;

param gravity := 32.174;   # in ft/s^2

minimize 

EndTime: eval (t,tf);
let EndTime.scale := 0.1;

subject to 

ODE_x: diff(x,t) = v*cos(a);
ODE_y: diff(y,t) = v*sin(a);
ODE_v: diff(v,t) = gravity*sin(a);
	
IVC_x: eval(x,0) = 0;
IVC_y: eval(y,0) = 0;
IVC_v: eval(v,0) = 0;	
TC_x:  eval(x,tf) = 1.0;

# treating IVCs as boundary constraints improves convergence
let IVC_x.type := "dpc";
let IVC_y.type := "dpc";
let IVC_v.type := "dpc";

option solver ...;

solve;

Other Descriptions

Other descriptions of this problem are available in

Mathematical notation at Brachistochrone problem

References

[Betts1993]

J.T. Betts; S. Eldersveld; W.P. Huffman (1993): Sparse nonlinear programming test problems (Release 1.0). Boeing Computer Services.

@@ Line 63: / Line 63: @@
 == References ==
-<bibreferences/>
+<biblist />
 [[Category:AMPL/TACO]]