Class ShortestProcessingPlusSetupTimePrecompute
 java.lang.Object

 org.cicirello.search.problems.scheduling.ShortestProcessingPlusSetupTimePrecompute

 All Implemented Interfaces:
ConstructiveHeuristic<Permutation>
public final class ShortestProcessingPlusSetupTimePrecompute extends Object
This is an implementation of the shortest process time heuristic, adjusted to include setup time. This heuristic is defined as: h(j) = 1 / (p[j] + s[i][j]), where p[j] is job j's processing time, and s[i][j] is job j's setup time if it follows job i on the machine. Additionally, the heuristic returns max(
MIN_H
, h(j)), whereMIN_H
is a small nonzero value. This adjustment is to handle unusually long processing and setup times. For deterministic construction of a schedule, this adjustment is unnecessary. However, for stochastic sampling algorithms it is important for the heuristic to return nonzero values.In this version, the heuristic is precomputed for all pairs of jobs (e.g., for evaluating job j for each possible preceding job). This may speed up stochastic sampling search when many iterations are executed (won't need to recompute the same heuristic values repeatedly). However, for large problems, the O(n^{2}) space, where n is the number of jobs may be prohibitive. For a version that doesn't precompute the heuristic, see the
ShortestProcessingPlusSetupTime
class, which requires only O(1) space.


Field Summary
Fields Modifier and Type Field Description static double
MIN_H
The minimum heuristic value.

Constructor Summary
Constructors Constructor Description ShortestProcessingPlusSetupTimePrecompute(SingleMachineSchedulingProblem problem)
Constructs an ShortestProcessingPlusSetupTimePrecompute heuristic.

Method Summary
All Methods Instance Methods Concrete Methods Modifier and Type Method Description int
completeLength()
Gets the required length of complete solutions to the problem instance for which this constructive heuristic is configured.Partial<Permutation>
createPartial(int n)
Creates an empty Partial solution, which will be incrementally transformed into a complete solution of a specified length.Problem<Permutation>
getProblem()
Gets a reference to the instance of the optimization problem that is the subject of this heuristic.double
h(Partial<Permutation> p, int element, IncrementalEvaluation<Permutation> incEval)
Heuristically evaluates the possible addition of an element to the end of a Partial.
Methods inherited from class java.lang.Object
clone, equals, finalize, getClass, hashCode, notify, notifyAll, toString, wait, wait, wait

Methods inherited from interface org.cicirello.search.ss.ConstructiveHeuristic
createIncrementalEvaluation




Field Detail

MIN_H
public static final double MIN_H
The minimum heuristic value. If the heuristic value as calculated is lower than MIN_H, then MIN_H is used as the heuristic value. The reason is related to the primary purpose of the constructive heuristics in the library: heuristic guidance for stochastic sampling algorithms, which assume positive heuristic values (e.g., an h of 0 would be problematic). See Also:
 Constant Field Values


Constructor Detail

ShortestProcessingPlusSetupTimePrecompute
public ShortestProcessingPlusSetupTimePrecompute(SingleMachineSchedulingProblem problem)
Constructs an ShortestProcessingPlusSetupTimePrecompute heuristic. Parameters:
problem
 The instance of a scheduling problem that is the target of the heuristic.


Method Detail

h
public double h(Partial<Permutation> p, int element, IncrementalEvaluation<Permutation> incEval)
Description copied from interface:ConstructiveHeuristic
Heuristically evaluates the possible addition of an element to the end of a Partial. Higher evaluations imply that the element is a better choice for the next element to add. For example, if you evaluate two elements, x and y, with h, and h returns a higher value for y than for x, then this means that y is believed to be the better choice according to the heuristic. Implementations of this interface must ensure that h always returns a positive result. This is because stochastic sampling algorithms such as HBSS and VBSS assume that the constructive heuristic returns only positive values. Parameters:
p
 The current state of the Partialelement
 The element under consideration for adding to the PartialincEval
 An IncrementalEvaluation of p. This method assumes that incEval is of the same runtime type as the object returned byConstructiveHeuristic.createIncrementalEvaluation()
. Returns:
 The heuristic evaluation of the hypothetical addition of element to the end of p. The higher the evaluation, the more important the heuristic believes that element should be added next. The intention is to compare the value returned with the heuristic evaluations of other elements. Individual results in isolation are not necessarily meaningful.

getProblem
public final Problem<Permutation> getProblem()
Description copied from interface:ConstructiveHeuristic
Gets a reference to the instance of the optimization problem that is the subject of this heuristic. Specified by:
getProblem
in interfaceConstructiveHeuristic<Permutation>
 Returns:
 the instance of the optimization problem that is the subject of this heuristic.

createPartial
public final Partial<Permutation> createPartial(int n)
Description copied from interface:ConstructiveHeuristic
Creates an empty Partial solution, which will be incrementally transformed into a complete solution of a specified length. Specified by:
createPartial
in interfaceConstructiveHeuristic<Permutation>
 Parameters:
n
 the desired length of the final complete solution. Returns:
 an empty Partial solution

completeLength
public final int completeLength()
Description copied from interface:ConstructiveHeuristic
Gets the required length of complete solutions to the problem instance for which this constructive heuristic is configured. Specified by:
completeLength
in interfaceConstructiveHeuristic<Permutation>
 Returns:
 length of solutions to the problem instance for which this heuristic is configured

