On the Hardness of the Border Length Minimization Problem

Author

Kundeti, Vamsi ; Rajasekaran, Sanguthevar

Author_Institution

Comput. Sci. & Eng. Dept., Univ. of Connecticut, Storrs, CT, USA

fYear

2009

fDate

22-24 June 2009

Firstpage

248

Lastpage

253

Abstract

DNA microarray technology has proven to be an invaluable tool for molecular biologists. Microarrays are used extensively in SNP detection, genomic hybridization, alternative splicing and gene expression profiling. However the manufacturers of the microarrays are often stuck with the problem of minimizing the effects of unwanted illumination (border length minimization (BLM)) which is a hard combinatorial problem. In this paper we prove that the BLM problem on a rectangular grid is NP-hard. We also give the first integer linear programming (ILP) formulation to solve BLM problem optimally. Experimental results indicate that our ILP method produces superior results (both in runtime and cost) compared to the current state of the art algorithms to solve the BLM problem optimally.

Keywords

bioinformatics; combinatorial mathematics; lab-on-a-chip; minimisation; molecular biophysics; DNA microarray technology; NP-hard problem; bioinformatics; border length minimization problem; hard combinatorial problem; integer linear programming formulation; rectangular grid; Bioinformatics; Cost function; DNA; Gene expression; Genomics; Integer linear programming; Lighting; Manufacturing; Runtime; Splicing; NP-hardness; border length minimization problem; combinatorial optimization; microarray algorithms; quadratic assignment problem;

fLanguage

English

Publisher

ieee

Conference_Titel

Bioinformatics and BioEngineering, 2009. BIBE '09. Ninth IEEE International Conference on

Conference_Location

Taichung

Print_ISBN

978-0-7695-3656-9

Type

conf

DOI

10.1109/BIBE.2009.26

Filename

5211277