ISSN:
1436-6304
Keywords:
Heuristics
;
integer programming
;
genetic algorithms
;
scatter search
;
Scatter search (gestreute Suche)
;
genetische Algorithmen
;
Sternpfade
;
Projektion
Source:
Springer Online Journal Archives 1860-2000
Topics:
Mathematics
,
Economics
Description / Table of Contents:
Zusammenfassung Scatter Search (gestreute Suche) und genetische Algorithmen weisen eine Anzahl einander komplementärer Eigenschaften auf. Trotz verschiedenen Ursprungs haben sich in den letzten Jahren, insbesondere auch aufgrund zahlreicher Modifikationen genetischer Verfahren, zunehmend mehr Gemeinsamkeiten herausgeschält, die in erster Linie auch durch die Übertragung von Scatter Search Features in genetische Algorithmen entstanden. Einige grundlegende Aspekte von Scatter Search sind bisher jedoch in genetischen Algorithmen — im engeren Sinne — nicht berücksichtigt. Es zeigt sich, daß mittels Scatter Search Kombinationen von Lösungen generiert werden können, deren Eigenschaften entscheidend die kombinatorische Struktur der zugrundeliegenden Optimierungsprobleme widerspiegeln. Im Falle binärer Optimierungsprobleme werden durch Projektionen Lösungen zu sog. Sternpfaden (star-paths) kombiniert, von denen aus jeweils optimale Lösungen erzeugt werden können. Mögliche Ergänzungen durch Schnittebenen zur Exploration des Lösungsraumes legen nahe, der Kombination von Lösungen (vgl. etwa die Rekombination bei genetischen Algorithmen) zur Erzeugung problemspezifischen Wissens mehr Aufmerksamkeit zu schenken als bisher.
Notes:
Abstract Scatter search and genetic algorithms have originated from somewhat different traditions and perspectives, yet exhibit features that are strongly complementary. Links between the approaches have increased in recent years as variants of genetic algorithms have been introduced that embody themes in closer harmony with those of scatter search. Some researchers are now beginning to take advantage of these connections by identifying additional ways to incorporate elements of scatter search into genetic algorithm approaches. There remain aspects of the scatter approach that have not been exploited in conjunction with genetic algorithms, yet that provide ways to achieve goals that are basic to the genetic algorithm design. Part of the gap in implementing hybrids of these procedures may derive from relying too literally on the genetic metaphor, which in its narrower interpretation does not readily accommodate the strategic elements underlying scatter search. The theme of this paper is to show there are benefits to be gained by going beyond a perspective constrained too tightly by the connotations of the term “genetic”. We show that the scatter search framework directly leads to processes for combining solutions that exhibit special properties for exploiting combinatorial optimization problems. In the setting of zero-one integer programming, we identify a mapping that gives new ways to create combined solutions, producing constructions calledstar-paths for exploring the zero-one solution space. Star-path trajectories have the special property of lying within regions assured to include optimal solutions. They also can be exploited in association with both cutting plane and extreme point solution approaches. These outcomes motivate a deeper look into current conceptions of appropriate ways to combine solutions, and disclose there are more powerful methods to derive information from these combinations than those traditionally applied.
Type of Medium:
Electronic Resource
URL:
http://dx.doi.org/10.1007/BF01719256
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