عنوان المقالة:MIPOG - An Ef ficient t-W ay Minimization Strategy for Combinatorial Testing MIPOG - An Ef ficient t-W ay Minimization Strategy for Combinatorial Testing
Th
i
s paper presents a study comparing different
techniques to achieve minimal test suites in combinatorial
testing. Considering high interaction strength is not without
difficulties. When the number of parameter coverage increases,
the size of t-way test sets also increases exponentially, hence,
resulting into combinatorial explosion problem. Addressing
these aforementioned issues, a new strategy capable of
supporting high interaction strength, called Modified IPOG
(MIPOG) is proposed. Simila
r to its predecessor IPOG (In
Parameter Order General), MIPOG adopts the horizontal and
vertical extensions in order to construct the desired test set.
However, unlike IPOG, MIPOG op
timizes both the horizontal
and vertical extensions resulting into a smaller size solution
than that of IPOG, (i.e., with the test size ratio
≤
1). In fact,
MIPOG, in most cases, surpasses some IPOG variants (IPOD,
IPOF1, and IPOF2) as well as other existing strategies (Jenny,
TVG, TConfig, and ITCH), as far as the test size is concerned
with an acceptable execution time. Additionally, MIPOG has
also contributed to enhance many known CA and MCA that
exist in the literature.
Abstract
Th
i
s paper presents a study comparing different
techniques to achieve minimal test suites in combinatorial
testing. Considering high interaction strength is not without
difficulties. When the number of parameter coverage increases,
the size of t-way test sets also increases exponentially, hence,
resulting into combinatorial explosion problem. Addressing
these aforementioned issues, a new strategy capable of
supporting high interaction strength, called Modified IPOG
(MIPOG) is proposed. Simila
r to its predecessor IPOG (In
Parameter Order General), MIPOG adopts the horizontal and
vertical extensions in order to construct the desired test set.
However, unlike IPOG, MIPOG op
timizes both the horizontal
and vertical extensions resulting into a smaller size solution
than that of IPOG, (i.e., with the test size ratio
≤
1). In fact,
MIPOG, in most cases, surpasses some IPOG variants (IPOD,
IPOF1, and IPOF2) as well as other existing strategies (Jenny,
TVG, TConfig, and ITCH), as far as the test size is concerned
with an acceptable execution time. Additionally, MIPOG has
also contributed to enhance many known CA and MCA that
exist in the literature.
Publication Date
6/1/2011
Publisher
International Journal of Computer Theory and Engineering,
ا.د. محمد عصام يونس | Mohammed I. Younis | 12506