[[abstract]]This paper considers the problem of an acceptance sampling plan for a truncated life test when the lifetime follows the generalized Rayleigh distribution. For different acceptance numbers, confidence levels, and values of the ratio of the fixed experiment time to the specified mean life, the minimum sample sizes necessary to ensure the specified mean life are found. The operating characteristic values of the sampling plans and producer's risk are discussed. Some tables are presented and the use of the tables is illustrated by a numerical example.[[notice]]補正完畢[[journaltype]]國外[[incitationindex]]SCI[[ispeerreviewed]]Y[[booktype]]電子版[[countrycodes]]GB
In this paper, acceptance sampling plans are developed when the life test is truncated at a pre-assi...
A two-stage group acceptance sampling plan based on a truncated life test is proposed, which can be ...
A double acceptance sampling plan for the truncated life test is developed assuming that the lifetim...
Abstract: The well known inverse Rayleigh distribution is considered as a model for a life time rand...
Double acceptance sampling plans was developed using the Inverse Rayleigh Distribution (IRD) as a mo...
A group acceptance sampling plan from a truncated life test is designed when the lifetime of an item...
An acceptance sampling plan problem based on truncated life tests when the lifetime following a Sush...
In this paper, a conditional repetitive group acceptance sampling plan is developed for a truncated ...
In this article, acceptance sampling plans are developed for the inverse Rayleigh distribution perce...
In this paper, acceptance sampling plans as, double for the lifetime tests is truncated at pre-fixed...
In this paper, modified group chain sampling plan is developed for a truncated life test when the li...
In this paper, a two stage group acceptance sampling plan is developed for a truncated life test whe...
In practice, a multiple number of items as a group can be tested simultaneously in a tester. This st...
This paper introduces group chain sampling plan for Rayleigh distribution when the life test is trun...
In this paper, we develop acceptance sampling plan when the lifetime experiment is truncated at a pr...
In this paper, acceptance sampling plans are developed when the life test is truncated at a pre-assi...
A two-stage group acceptance sampling plan based on a truncated life test is proposed, which can be ...
A double acceptance sampling plan for the truncated life test is developed assuming that the lifetim...
Abstract: The well known inverse Rayleigh distribution is considered as a model for a life time rand...
Double acceptance sampling plans was developed using the Inverse Rayleigh Distribution (IRD) as a mo...
A group acceptance sampling plan from a truncated life test is designed when the lifetime of an item...
An acceptance sampling plan problem based on truncated life tests when the lifetime following a Sush...
In this paper, a conditional repetitive group acceptance sampling plan is developed for a truncated ...
In this article, acceptance sampling plans are developed for the inverse Rayleigh distribution perce...
In this paper, acceptance sampling plans as, double for the lifetime tests is truncated at pre-fixed...
In this paper, modified group chain sampling plan is developed for a truncated life test when the li...
In this paper, a two stage group acceptance sampling plan is developed for a truncated life test whe...
In practice, a multiple number of items as a group can be tested simultaneously in a tester. This st...
This paper introduces group chain sampling plan for Rayleigh distribution when the life test is trun...
In this paper, we develop acceptance sampling plan when the lifetime experiment is truncated at a pr...
In this paper, acceptance sampling plans are developed when the life test is truncated at a pre-assi...
A two-stage group acceptance sampling plan based on a truncated life test is proposed, which can be ...
A double acceptance sampling plan for the truncated life test is developed assuming that the lifetim...