几乎固定长度M-Ary假设检验的可实现误差指数

ICASSP 2023 - 2023 IEEE International Conference on Acoustics, Speech and Signal Processing (ICASSP) Pub Date : 2023-06-04 DOI:10.1109/ICASSP49357.2023.10095947

Jun Diao, Lin Zhou, Lin Bai

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引用次数: 2

摘要

我们重新审视多个假设检验，并提出一个两阶段检验，其中每个阶段是一个固定长度的检验，只有在第一阶段决定拒绝选项时，第二阶段才进行。我们推导出每个假设下可实现的误差概率的误差指数，并表明我们的两阶段测试在neiman - pearson和Bayesian设置下的固定长度和顺序测试之间架起桥梁，其精神与Lalitha和Javidi[1]在二元假设检验中的精神相似。具体来说，我们的测试可以达到接近于序列测试的性能，并且具有定长测试的渐近复杂度，我们将这种测试命名为几乎定长测试。我们的结果推广了二元假设检验的几乎固定长度检验的设计和分析，以解释两个以上的结果。

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Achievable Error Exponents for Almost Fixed-Length M-Ary Hypothesis Testing

We revisit multiple hypothesis testing and propose a two-phase test, where each phase is a fixed-length test and the second-phase proceeds only if a reject option is decided in the first phase. We derive achievable error exponents of error probabilities under each hypothesis and show that our two-phase test bridges over fixed-length and sequential tests in both Neyman-Pearson and Bayesian settings in the similar spirit of Lalitha and Javidi [1] for binary hypothesis testing. Specifically, our test may achieve the performance close to a sequential test with the asymptotic complexity of a fixed-length test and such test is named the almost fixed-length test. Our results generalize the design and analysis of the almost fixed-length test for binary hypothesis testing to account for more than two outcomes.

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ICASSP 2023 - 2023 IEEE International Conference on Acoustics, Speech and Signal Processing (ICASSP)

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