OPTIMIZING A PULSE WAVE VELOCITY MEASUREMENT SYSTEM

Organization Name

KONINKLIJKE PHILIPS N.V.

Inventor(s)

Koen Theo Johan De Groot of Eindhoven (NL)

Jozef Hubertus Gelissen of Elndhoven (NL)

Carlijn Andrea Vemooij of Elndhoven (NL)

Wihelmus Franciscus Johannes Verhaegh of Eindhoven (NL)

Linda Maria Eerikainen of Eindhoven (NL)

Alberto Giovanni Bonomi of Eindhoven (NL)

Reinder Haakma of Eindhoven (NL)

OPTIMIZING A PULSE WAVE VELOCITY MEASUREMENT SYSTEM - A simplified explanation of the abstract

This abstract first appeared for US patent application 18203987 titled 'OPTIMIZING A PULSE WAVE VELOCITY MEASUREMENT SYSTEM

Simplified Explanation

The abstract describes a method for optimizing a pulse wave velocity measurement system. This system consists of two sensor components, each with its own clock, and is used to measure the velocity of a pulse wave.

• The first step is to transmit a pulse from a pulse generator in the first sensor component. The transmission time is known and is based on the first clock.
• The transmitted pulse is then received by a pulse receiver in the second sensor component. The receipt time is known and is based on the second clock.
• The known transmission time and receipt time are compared to determine the time it takes for the pulse wave to travel between the two sensor components.
• Based on this comparison, the pulse wave velocity measurement system is optimized.

Potential applications of this technology:

• Medical applications: This technology can be used in medical devices to measure the pulse wave velocity, which can provide valuable information about cardiovascular health.
• Research applications: Researchers studying pulse wave velocity and its relationship to various health conditions can benefit from this optimized measurement system.

Problems solved by this technology:

• Inaccurate measurements: By optimizing the pulse wave velocity measurement system, this technology helps to improve the accuracy of the measurements, ensuring reliable results.
• Time synchronization: The use of two clocks in the sensor components allows for precise time synchronization, reducing errors in the measurement process.

Benefits of this technology:

• Improved accuracy: The optimization of the measurement system leads to more accurate pulse wave velocity measurements, providing reliable data for medical diagnosis or research purposes.
• Time efficiency: The known transmission and receipt times, along with the comparison process, help to streamline the measurement process, saving time for users.

Original Abstract Submitted

A method for optimizing a pulse wave velocity measurement system, comprising: (i) transmitting a pulse from a pulse generator of a first sensor component of the pulse wave velocity measurement system, wherein the first sensor component further comprises a first clock, and wherein the pulse is transmitted from the pulse generator at a known transmission time based on the first clock; (ii) receiving the transmitted pulse by a pulse receiver of a second sensor component of the pulse wave velocity measurement system, wherein the second sensor component further comprises a second clock, and wherein the pulse is received at a known receipt time based on the second clock; (iii) comparing the known transmission time to the known receipt time; and (iv) optimizing, based on the comparison, the pulse wave velocity measurement system.