Prediction of future failures times based on Type-I hybrid censored samples of random sample sizes
DOI10.1080/03610918.2017.1375519OpenAlexW2751231260MaRDI QIDQ5086138
A. Asgharzadeh, R. Valiollahi, Mohammad Zayed Raqab
Publication date: 1 July 2022
Published in: Communications in Statistics - Simulation and Computation (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1080/03610918.2017.1375519
predictionorder statisticsexponential distributionMonte Carlo simulationprediction intervalsType-I hybrid censoring
Asymptotic properties of parametric estimators (62F12) Bayesian inference (62F15) Order statistics; empirical distribution functions (62G30) Prediction theory (aspects of stochastic processes) (60G25)
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Cites Work
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- Prediction of future failures for generalized exponential distribution under type-I or type-II hybrid censoring
- Bayesian inference and prediction of order statistics for a type-II censored Weibull distribution
- On some predictors of times to failure of censored items in progressively censored samples
- Estimating the parameters of an exponential distribution from a hybrid life test
- Bayesian analysis of hybrid life tests with exponential failure times
- On some predictors of future order statistics
- Parametric and nonparametric inference from record-breaking data
- Exact likelihood inference based on type-I and type-II hybrid censored samples from the exponential distribution
- Hybrid censoring: models, inferential results and applications
- On hybrid censored Weibull distribution
- One- and Two-Sample Bayesian Prediction Intervals Based on Type-I Hybrid Censored Data
- Prediction intervals for future failures in the exponential distribution under hybrid censoring
- Hybrid censoring schemes with exponential failure distribution
- A Confidence Interval for an Exponential Parameter from a Hybrid Life Test
- Prediction for future failures in Weibull distribution under hybrid censoring
- Truncated Life Tests in the Exponential Case
- Exact confidence bounds for an exponential parameter under hybrid censoring
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