[[abstract]]In this paper, we study the optimal software release problem considering cost, reliability and testing efficiency. We first propose a generalized logistic testing-effort function that can be used to describe the actual consumption of resources during the software development process. We then address the problem of how to decide when to stop testing and when to release software for use. In addressing the optimal release time, we consider cost and reliability factors. Moreover, we introduce the concept of testing efficiency, and describe how reliability growth models can be adjusted to incorporate this new parameter. Theoretical results are shown and numerical illustrations are presented.[[fileno]]2030240010010[[department]]資訊工程學
[[abstract]]In this paper, based on software reliability growth models with generalized logistic tes...
Abstract—This paper investigates a SRGM (software reli-ability growth model) based on the NHPP (nonh...
This paper proposes a new practical method for determining when to stop software testing. This issue...
[[abstract]]In this paper, we study the optimal software release problem considering cost, reliabili...
[[abstract]]Over the past 30 years, many software reliability growth models (SRGMs) have been propos...
[[abstract]]In this paper, we study the impact of software testing effort and efficiency on the mode...
Abstract: Optimal software release policy is a well studied topic in the software reliability litera...
In this research, a novel approach is developed where a testing team delivers the software product f...
doi: 10.4156/ijact.vol2.issue3.13 It is great practical interest to decide when to stop testing a so...
A component based or module-based software system is considered in which the software reliability gr...
[[abstract]]Many studies have been performed on the subject of software reliability, but few explici...
Despite the exponential increase in the demand for software and the increase in our dependence on so...
ABSTRACT: When to stop testing and release the developed software is the one of the most important q...
Software reliability has been often studied in terms of software reliability growth, based on the ob...
[[abstract]]We investigate an optimal resource allocation problem in modular software systems during...
[[abstract]]In this paper, based on software reliability growth models with generalized logistic tes...
Abstract—This paper investigates a SRGM (software reli-ability growth model) based on the NHPP (nonh...
This paper proposes a new practical method for determining when to stop software testing. This issue...
[[abstract]]In this paper, we study the optimal software release problem considering cost, reliabili...
[[abstract]]Over the past 30 years, many software reliability growth models (SRGMs) have been propos...
[[abstract]]In this paper, we study the impact of software testing effort and efficiency on the mode...
Abstract: Optimal software release policy is a well studied topic in the software reliability litera...
In this research, a novel approach is developed where a testing team delivers the software product f...
doi: 10.4156/ijact.vol2.issue3.13 It is great practical interest to decide when to stop testing a so...
A component based or module-based software system is considered in which the software reliability gr...
[[abstract]]Many studies have been performed on the subject of software reliability, but few explici...
Despite the exponential increase in the demand for software and the increase in our dependence on so...
ABSTRACT: When to stop testing and release the developed software is the one of the most important q...
Software reliability has been often studied in terms of software reliability growth, based on the ob...
[[abstract]]We investigate an optimal resource allocation problem in modular software systems during...
[[abstract]]In this paper, based on software reliability growth models with generalized logistic tes...
Abstract—This paper investigates a SRGM (software reli-ability growth model) based on the NHPP (nonh...
This paper proposes a new practical method for determining when to stop software testing. This issue...