18677136. SOUND COLLECTING DEVICE, SOUND COLLECTING METHOD, AND SOUND COLLECTING PROGRAM simplified abstract (JVCKENWOOD Corporation)

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SOUND COLLECTING DEVICE, SOUND COLLECTING METHOD, AND SOUND COLLECTING PROGRAM

Organization Name

JVCKENWOOD Corporation

Inventor(s)

Takaaki Yamabe of Yokohama-shi (JP)

SOUND COLLECTING DEVICE, SOUND COLLECTING METHOD, AND SOUND COLLECTING PROGRAM - A simplified explanation of the abstract

This abstract first appeared for US patent application 18677136 titled 'SOUND COLLECTING DEVICE, SOUND COLLECTING METHOD, AND SOUND COLLECTING PROGRAM

Simplified Explanation: This patent application describes a system that converts vibrations transmitted to a human body into voice signals using an adaptive filter.

  • The microphone generates a voice signal based on air vibration.
  • The vibration sensor generates a vibration signal based on vibration transmitted to a human body.
  • An adaptive filter multiplies the vibration signal by a coefficient to generate a converted voice signal.
  • A subtractor generates a residual signal that is the difference between the voice signal and the converted voice signal.
  • The adaptive controller updates the coefficient of the adaptive filter based on whether the signal is determined to be a voice section or a non-audio section.

Potential Applications: 1. Assistive communication devices for individuals with speech impairments. 2. Noise cancellation systems in audio equipment. 3. Voice recognition technology in smart devices.

Problems Solved: 1. Converting vibrations into voice signals for communication. 2. Enhancing audio quality by reducing background noise. 3. Improving voice recognition accuracy in various applications.

Benefits: 1. Enhanced communication for individuals with speech disabilities. 2. Improved audio quality in noisy environments. 3. Increased accuracy in voice recognition systems.

Commercial Applications: Potential commercial applications include assistive communication devices, audio equipment, and smart devices with voice recognition capabilities.

Prior Art: Readers can explore prior patents related to adaptive filters, voice signal processing, and vibration sensors in the field of audio technology.

Frequently Updated Research: Stay updated on advancements in adaptive filter technology, voice signal processing, and vibration sensor applications for audio devices.

Questions about the Technology: 1. How does the adaptive filter in this system improve voice signal conversion? 2. What are the potential limitations of converting vibrations into voice signals using this technology?


Original Abstract Submitted

A microphone generates a voice signal based on air vibration. A vibration sensor generates a vibration signal based on vibration transmitted to a human body. An adaptive filter multiplies the vibration signal by a coefficient to generate a converted voice signal. A subtractor generates a residual signal that is a difference between the voice signal and the converted voice signal. The adaptive controller controls the adaptive filter to update the coefficient so that the residual signal becomes small at a first speed when it is determined to be a voice section, and controls the adaptive filter to update the coefficient so that the residual signal becomes small at a second speed slower than the first speed when it is determined to be a non-audio section, or supplies the adaptive filter control signal to the adaptive filter to control not to update the coefficient.