BIOLOGICAL INFORMATION MEASUREMENT APPARATUS AND BIOLOGICAL INFORMATION MEASUREMENT SYSTEM

Organization Name

SEIKO EPSON CORPORATION

Inventor(s)

Ayae Sawado of Kai-shi (JP)

BIOLOGICAL INFORMATION MEASUREMENT APPARATUS AND BIOLOGICAL INFORMATION MEASUREMENT SYSTEM - A simplified explanation of the abstract

This abstract first appeared for US patent application 18607435 titled 'BIOLOGICAL INFORMATION MEASUREMENT APPARATUS AND BIOLOGICAL INFORMATION MEASUREMENT SYSTEM

The biological information measurement apparatus described in the patent application utilizes laser light to gather data from a living body.

• Light emitting unit emits laser light to the living body.
• Light transmission member reflects and separates the laser light into two beams.
• First light receiving unit detects the first light beam.
• Second light receiving unit detects scattered light.

This technology involves a light transmission member with specific dimensions and axes for precise data collection.

• The first surface of the light transmission member is where the laser light enters, while the second surface is where the light enters after reflecting.
• The first axis is parallel to the intersection line between the first surface and the entering surface, where the light emitting unit and first light receiving unit are located.
• The second axis is orthogonal to the first axis on the first surface.
• D represents the first diameter of the laser light along the first axis, while D represents the second diameter along the second axis.

Potential Applications: - Medical diagnostics - Biological research - Monitoring of physiological parameters

Problems Solved: - Non-invasive data collection from living organisms - Precise measurement of biological information

Benefits: - Accurate and real-time data collection - Minimal discomfort for the subject - Versatile applications in various fields

Commercial Applications: Title: Advanced Biological Information Measurement Technology This technology can be utilized in healthcare, research institutions, and biotechnology companies for a wide range of applications, leading to advancements in medical diagnostics and biological research.

Questions about the technology: 1. How does this technology improve upon existing methods of biological information measurement? 2. What are the potential limitations of using laser light for data collection in living organisms?

Frequently Updated Research: Stay updated on the latest advancements in laser technology and biological data measurement techniques to enhance the capabilities of this innovative apparatus.

Original Abstract Submitted

A biological information measurement apparatus includes: a light emitting unit configured to emit laser light to a living body; a light transmission member configured to reflect a part of the laser light and separate the laser light into a first light beam and a second light beam; a first light receiving unit configured to detect the first light beam; and a second light receiving unit configured to detect scattered light. The light transmission member has a first surface where the laser light enters and a second surface where the laser light entering the first surface enters, and DD in which a parallel axis parallel to an intersection line between the first surface and an entering surface on which the light emitting unit and the first light receiving unit are disposed is defined as a first axis, an orthogonal axis orthogonal to the first axis on the first surface is defined as a second axis, D is a first diameter of the laser light along the first axis, and D is a second diameter of the laser light along the second axis.