18673579. HIGH FREQUENCY EMPHASIS AMOUNT CONTROL DEVICE simplified abstract (JVCKENWOOD Corporation)

From WikiPatents
Revision as of 06:31, 1 October 2024 by Wikipatents (talk | contribs) (Creating a new page)
(diff) ← Older revision | Latest revision (diff) | Newer revision → (diff)
Jump to navigation Jump to search

HIGH FREQUENCY EMPHASIS AMOUNT CONTROL DEVICE

Organization Name

JVCKENWOOD Corporation

Inventor(s)

Hiroshi Takeshita of Yokohama-shi (JP)

HIGH FREQUENCY EMPHASIS AMOUNT CONTROL DEVICE - A simplified explanation of the abstract

This abstract first appeared for US patent application 18673579 titled 'HIGH FREQUENCY EMPHASIS AMOUNT CONTROL DEVICE

Simplified Explanation: The patent application describes a system that processes image signals to enhance high-frequency components using discrete Fourier transform and emphasis control.

  • First discrete Fourier transform unit generates a frequency spectrum from the input image signal.
  • Second discrete Fourier transform unit generates a frequency spectrum from the output image signal after high-frequency emphasis.
  • High frequency component index generators calculate indices based on the frequency spectra.
  • High frequency component emphasis ratio calculator determines the emphasis ratio between the indices.
  • Emphasis amount controller adjusts emphasis based on the ratio and target ratio.

Key Features and Innovation:

  • Utilizes discrete Fourier transform for processing image signals.
  • Enhances high-frequency components in images.
  • Calculates emphasis ratio to control the amount of emphasis applied.
  • Provides a systematic approach to high-frequency image enhancement.
  • Offers a customizable emphasis control mechanism.

Potential Applications:

  • Image processing and enhancement technologies.
  • Medical imaging for detailed analysis.
  • Satellite imaging for improved resolution.
  • Security systems for better image quality.
  • Photography for enhancing fine details.

Problems Solved:

  • Enhances high-frequency components in images.
  • Provides a controlled approach to emphasis adjustment.
  • Improves image quality and detail.
  • Offers a systematic method for image processing.
  • Enables customization of emphasis levels.

Benefits:

  • Enhanced image quality.
  • Improved detail and resolution.
  • Customizable emphasis control.
  • Systematic image processing approach.
  • Enhanced performance in various applications.

Commercial Applications: High-Frequency Image Enhancement Technology for Improved Image Quality and Detail

Questions about High-Frequency Image Enhancement Technology: 1. How does the emphasis amount controller determine the emphasis control value? 2. What are the potential implications of this technology in the field of medical imaging?


Original Abstract Submitted

A first discrete Fourier transform unit generates a first frequency spectrum by two-dimensional discrete Fourier transform of an input image signal. A second discrete Fourier transform unit generates a second frequency spectrum by two-dimensional discrete Fourier transform of an output image signal output from a high frequency emphasis circuit. A first and second high frequency component index generators generate a first and second high frequency component indices indicating a total amount of high frequency components based on the first and second frequency spectra, respectively. A high frequency component emphasis ratio calculator calculates a high frequency component emphasis ratio which is a ratio between a first high frequency component index and a second high frequency component index. An emphasis amount controller generates an emphasis amount control value based on a high frequency component emphasis ratio and a target emphasis ratio, and supplies it to the high frequency emphasis circuit.