18363849. MEASURING METHOD, MEASURING APPARATUS, AND STORAGE MEDIUM simplified abstract (CANON KABUSHIKI KAISHA)

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MEASURING METHOD, MEASURING APPARATUS, AND STORAGE MEDIUM

Organization Name

CANON KABUSHIKI KAISHA

Inventor(s)

TAKAHIRO Masumura of Tochigi (JP)

NORISHIGE Kakegawa of Tokyo (JP)

MEASURING METHOD, MEASURING APPARATUS, AND STORAGE MEDIUM - A simplified explanation of the abstract

This abstract first appeared for US patent application 18363849 titled 'MEASURING METHOD, MEASURING APPARATUS, AND STORAGE MEDIUM

Simplified Explanation

The patent application describes a method for measuring the concentration of a measurement object based on the anisotropy of a fluorescent reagent dispensed in a dispensing step.

  • The method involves acquiring a first result about the anisotropy through a dispensing step and a measuring step.
  • The concentration of the measurement object is then measured based on the relationship between the anisotropy and the dispensing amount of the fluorescent reagent.
  • A second sequence is performed to acquire a second result about the anisotropy through one or more dispensing and measuring steps.
  • The concentration of the measurement object is measured from the second result based on the relationship between the anisotropy measured and the dispensing amount of the fluorescent reagent.

Potential Applications

- Biomedical research - Pharmaceutical development - Environmental monitoring

Problems Solved

- Accurate measurement of concentration of a measurement object - Efficient use of fluorescent reagents - Improved data analysis and interpretation

Benefits

- Increased accuracy in concentration measurements - Cost-effective method - Time-saving process - Enhanced research capabilities


Original Abstract Submitted

A measuring method includes a first sequence for acquiring a first result about the anisotropy by performing a dispensing step and a measuring step and for measuring concentration of the measurement object from the first result based on a relationship between the anisotropy and a dispensing amount of the fluorescent reagent dispensed in the dispensing step, and a second sequence for acquiring a second result about the anisotropy by performing the dispensing step and the measuring step one or more times after the first sequence and for measuring the concentration of the measurement object from the second result based on the relationship between the anisotropy measured in the measuring step and the dispensing amount of the fluorescent reagent dispensed in the dispensing step.