A Two-Stage Procedure with Elimination for Partitioning a Set of Normal Populations with Respect to a Control
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Publication:5485893
DOI10.1080/07474940600609605zbMath1094.62099OpenAlexW1990301910MaRDI QIDQ5485893
Publication date: 4 September 2006
Published in: Sequential Analysis (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1080/07474940600609605
Monte Carlo methods (65C05) Sequential statistical analysis (62L10) Statistical ranking and selection procedures (62F07) Paired and multiple comparisons; multiple testing (62J15)
Related Items (4)
A Generalization of the Partition Problem ⋮ Discussion on “A Hybrid Selection and Testing Procedure with Curtailment” by Elena M. Buzaianu and Pinyuen Chen ⋮ Partitioning Bernoulli Populations with Respect to a Control ⋮ On Approximate Optimality of the Sample Size for the Partition Problem
Cites Work
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- On a two-stage procedure having second-order properties with applications
- A Two-Stage Selection and Testing Design for Comparing Several Normal Means with a Standard
- A two-stage minimax procedure with screening for selecting the largest normal mean (ii): an improved pcs lower bound and associated tables
- A SEQUENTIAL PROCEDURE WITH ELIMINATION FOR PARTITIONING A SET OF NORMAL POPULATIONS HAVING A COMMON UNKNOWN VARIANCE
- A New Approach to Determine the Pilot Sample Size in Two-Stage Sampling
- A Sequential Procedure for Selecting the Population with the Largest Mean from $k$ Normal Populations
- On Some Multiple Decision (Selection and Ranking) Rules
- On Partitioning a Set of Normal Populations by Their Locations with Respect to a Control
- A Single-Sample Multiple Decision Procedure for Ranking Means of Normal Populations with known Variances
- Multistage methodologies for comparing several treatments with a control
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