COMBINED CONFIGURATION OF A FREE FIELD AND A REMOTE SIGNAL SOURCE, AND ITS EARTHQUAKE DETECTING SYSTEM

Organization Name

P-Waver Inc.

Inventor(s)

Hung-Wei Chiang of Taipei (TW)

Pei-Yang Lin of Taipei (TW)

Hsiu-Hsien Wang of Taipei (TW)

COMBINED CONFIGURATION OF A FREE FIELD AND A REMOTE SIGNAL SOURCE, AND ITS EARTHQUAKE DETECTING SYSTEM - A simplified explanation of the abstract

This abstract first appeared for US patent application 18156812 titled 'COMBINED CONFIGURATION OF A FREE FIELD AND A REMOTE SIGNAL SOURCE, AND ITS EARTHQUAKE DETECTING SYSTEM

Simplified Explanation: The patent application describes an earthquake detection system that combines a free field main sensor with remote backup sensors to accurately detect earthquakes and avoid false alarms.

• The earthquake detection system includes a host, a main sensor in a free field connected to the host, and multiple backup sensors remotely connected to the host via the internet.
• Each backup sensor transmits a remote signal to the host to prevent misjudgments due to unnatural factors and human activities interfering with the detector.
• Verification is achieved through multiple sensors in different positions, ensuring an earthquake warning is only issued when all sensors confirm an earthquake.
• Two sensors in different environments prevent simultaneous misjudgments due to the same interference.
• The system aims to improve earthquake detection accuracy and reliability.

Key Features and Innovation:

• Combination of free field main sensor and remote backup sensors
• Remote signal transmission via the internet
• Verification through multiple sensors
• Prevention of false alarms due to unnatural factors and human activities
• Improved accuracy and reliability in earthquake detection

Potential Applications: The technology can be used in earthquake-prone areas, critical infrastructure protection, early warning systems, and seismic monitoring networks.

Problems Solved: The system addresses the issues of false alarms, interference from human activities, and inaccurate earthquake detection in traditional systems.

Benefits:

• Enhanced accuracy in earthquake detection
• Reduced false alarms
• Improved reliability in issuing earthquake warnings
• Prevention of interference from human activities

Commercial Applications: The technology can be applied in seismically active regions, disaster management systems, infrastructure protection, and research institutions studying earthquakes.

Prior Art: Readers can explore prior art related to earthquake detection systems, seismic monitoring technologies, and remote sensor configurations.

Frequently Updated Research: Stay informed about the latest advancements in earthquake detection technologies, seismic monitoring networks, and sensor integration methods.

Questions about Earthquake Detection System: 1. How does the combination of free field main sensor and remote backup sensors improve earthquake detection accuracy? 2. What are the potential challenges in implementing a system with multiple sensors for earthquake detection?

Original Abstract Submitted

In the present invention, an earthquake detection system based on the combination configuration of a free field and remote signal source is provided. The earthquake detection system includes: a host; a main sensor arranged in a free field and connected to the host; and a plurality of backup sensors, which are remotely arranged with respect to the main sensor, wherein each of the backup is connected to the host via the internet and transmits a remote signal to the host so as to avoid misjudging the occurrence of earthquakes because of unnatural factors, and prevent the vibration caused by human activities from interfering with the detector. The earthquake detection system achieves the effect of verification through a plurality of sensors installed in different positions. Only when all the sensors confirm that there is an earthquake, an earthquake warning will be issued to the protected place, and two sensors set in different environments can be used to avoid the deficiency that the two sensors misjudge at the same time due to the same kind of interference that the two sensors may receive in the same environment.