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相关概念视频

Perceiving Loudness, Pitch, and Location01:21

Perceiving Loudness, Pitch, and Location

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The human brain perceives pitch through two primary mechanisms reflected in place theory and frequency theory. Each mechanism describes how sound waves are interpreted as specific pitches by the brain, offering insights into the intricate processes of auditory perception.
Place theory, or place coding, suggests that different pitches are heard because various sound waves activate specific locations along the cochlea's basilar membrane. The brain determines the pitch of a sound by...
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Sampling Methods: Overview01:06

Sampling Methods: Overview

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A sample refers to a smaller subset representative of a larger population. In analytical chemistry, studying or analyzing an entire population is often impractical or impossible. Therefore, samples are used to draw inferences and generalize the whole population. The sampling method selects individuals or items from a population to create a sample. Standard sampling methods include random, judgemental, systematic, stratified, and cluster sampling. 
In analytical chemistry, the choice of...
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On many occasions, physicists, other scientists, and engineers need to make estimates of a particular quantity. These are sometimes referred to as guesstimates, order-of-magnitude approximations, back-of-the-envelope calculations, or Fermi calculations. The physicist Enrico Fermi was famous for his ability to estimate various kinds of data with surprising precision. Estimating does not mean guessing a number or a formula at random. Instead, estimation means using prior experience and sound...
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Sampling Plans01:23

Sampling Plans

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Sampling is a crucial step in analytical chemistry, allowing researchers to collect representative data from a large population. Common sampling methods include random, judgmental, systematic, stratified, and cluster sampling.
Random sampling is a method where each member of the population has an equal chance of being selected for the sample. It involves selecting individuals randomly, often using random number generators or lottery-type methods. For example, when analyzing the properties of a...
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Given simple random samples of size n from a given population with a measured characteristic such as mean, proportion, or standard deviation for each sample, the probability distribution of all the measured characteristics is called a sampling distribution. How much the statistic varies from one sample to another is known as the sampling variability of a statistic. You typically measure the sampling variability of a statistic by its standard error. The standard error of the mean is an example...
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基于高斯过程,使用先前的来源信息,对包括源区域的声场估计.

Ryo Matsuda1, Makoto Otani1

  • 1Department of Architecture and Architectural Engineering, Graduate School of Engineering, Kyoto University, Kyoto-daigaku-katsura, Nishikyo-ku, Kyoto, 615-8540, Japan.

The Journal of the Acoustical Society of America
|February 21, 2025
PubMed
概括

本研究介绍了高斯过程 (GP) 回归,用于在无回声条件下准确的声场估计. 这种新的方法提高了准确性,并通过将声音源模拟为分布来降低计算成本.

科学领域:

  • 声学 声学 在声学方面
  • 信号处理 信号处理
  • 机器学习 机器学习

背景情况:

  • 估计不均的声音场,特别是包含源的声音场,在声学上提出了重大挑战.
  • 传统的方法通常在复杂的声音环境中难以获得准确性和计算效率.

研究的目的:

  • 提出一种基于高斯过程 (GP) 的新方法,用于在无回声条件下准确估计不均的声音场.
  • 通过将声音源视为概率分布来提高声音场估计的准确性和降低计算成本.

主要方法:

  • 开发了一种用于GP回归的内核函数,该函数基于模态域中自由场转移函数的加权空间相关性.
  • 通过在球形区域内引入声音源位置的概率分布来导出核心函数的推导权重.
  • 提出了使用高斯概率分布的球体积分的分析解决方案,并介绍了顺序截断和超参数优化方案.

主要成果:

  • 数字实验表明,拟议的GP方法在声音场估计准确性方面明显优于传统技术.
  • 使用拟议的内核函数进行的GP回归与其他权重方案相比,在较低的计算成本下实现了更高的准确性.
  • 模拟声音源作为分布,而不是点源的好处被清楚地揭示出来,提高了估计性能.

结论:

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  • 拟议的高斯过程回归方法为无回声环境中的不均声场估计提供了强大而高效的解决方案.
  • 将声音源视为概率分布是实现更高准确性和计算效率的关键因素.
  • 这种方法为声学分析和信号处理应用提供了宝贵的进步.