# Hanging chain problem

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Hanging chain problem
State dimension: 1
Differential states: 3
Continuous control functions: 1
Path constraints: 4
Interior point equalities: 5

The Hanging chain problem is concerned with finding a chain (of uniform density) of length $L$ suspendend between two points $a, b$ with minimal potential energy. (Problem taken from the COPS library)

## Mathematical formulation

The problem is given by

$\begin{array}{llcl} \displaystyle \min_{x, u} & x_2(t_f) \\[1.5ex] \mbox{s.t.} & \dot{x}_1 & = & u, \\ & \dot{x}_2 & = & x_1 (1+u^2)^{1/2}, \\ & \dot{x}_3 & = & (1+u^2)^{1/2}, \\ & x(t_0) &=& (a,0,0)^T, \\ & x_1(t_f) &=& b, \\ & x_3(t_f) &=& Lp, \\ & x(t) &\in& [0,10], \\ & u(t) &\in& [-10,20]. \end{array}$

## Parameters

In this model the parameters used are

$\begin{array}{rcl} [t_0, t_f] &=& [0, 1],\\ (a,b) &=& (1,3),\\ Lp &=& 4. \end{array}$

## Source Code

Model descriptions are available in