Difference between revisions of "Integer Linear Programming"

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== Summary ==
 
== Summary ==
  
Integer Linear Programming (ILP) is a [[category::method]] for ptimizing a linear objective function:  
+
Integer Linear Programming (ILP) is a [[category::method]] for ptimizing a linear objective function: (where <math>c_i</math> is known and <math>x_i</math> is unknown variable)
 +
 
 
:: maximize <math> \sum_{i=1}^m{c_i x_i} </math>  
 
:: maximize <math> \sum_{i=1}^m{c_i x_i} </math>  
: (where <math>c_i</math> is known and <math>x_i</math> is unknown variable)
 
  
subject to linear equality or inequality constraints:
+
subject to linear equality or inequality constraints: (where <math>a_i</math> and <math>b_i</math> are known)
 +
 
 
:: <math> \sum_{i=1}^m{a_i x_i} \le b_i</math>  
 
:: <math> \sum_{i=1}^m{a_i x_i} \le b_i</math>  
: (where <math>a_i</math> and <math>b_i</math> are known)
 
  
 
and where <math>x_i</math> can only take integer values  
 
and where <math>x_i</math> can only take integer values  

Revision as of 21:52, 28 September 2011

Summary

Integer Linear Programming (ILP) is a method for ptimizing a linear objective function: (where is known and is unknown variable)

maximize

subject to linear equality or inequality constraints: (where and are known)

and where can only take integer values

In other words, it is a method to find the optimal solution (i.e. the best assignment of unknown variables such as 's) that maximizes the objective function while meeting a list of requirements expressed as linear equality or inequality relationships.

The strength of ILP is in its joint inference. Instead of making local, isolated assignment of each , it makes joint assignments of all 's at the same time; respecting the global constraints while optimizing the objective function given.

ILP is known to be NP-hard. However, there are many off-the-shelf solvers, both commercial and non commercial, that are available. One such solver is SCIP, which is currently the fastest non commercial mixed integer programming solver.

Procedure

Input:

  • The linear objective function
  • The linear constraints

Output:

  • The assignment of unknown variables that optimizes the objective function and is consistent with the constraints

References / Links

  • Wikipedia article on Integer Programming - [1]

Relevant Papers