SENSOR APPARATUS, WEARABLE AND METHOD FOR OPERATING A SENSOR APPARATUS

Organization Name

robert bosch gmbh

Inventor(s)

Amin Jemili of Kusterdingen (DE)

Ruslan Khalilyulin of Muenchen (DE)

Steffen Becker of Coswig (DE)

SENSOR APPARATUS, WEARABLE AND METHOD FOR OPERATING A SENSOR APPARATUS - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240344829 titled 'SENSOR APPARATUS, WEARABLE AND METHOD FOR OPERATING A SENSOR APPARATUS

The sensor apparatus described in the patent application includes an interface for receiving an external clock signal, an inertial sensor device for generating inertial sensor measurement signals, a structure-borne sound sensor device for generating structure-borne sound measurement signals, and a control device for operating the structure-borne sound sensor device at different frequencies based on the external clock signal.

• The sensor apparatus has an interface to receive an external clock signal.
• It includes an inertial sensor device for generating inertial sensor measurement signals.
• The apparatus also features a structure-borne sound sensor device for generating structure-borne sound measurement signals.
• A control device is used to operate the structure-borne sound sensor device at different frequencies based on the external clock signal.
• The control signal from the control device determines the operating frequency of the structure-borne sound sensor device.

Potential Applications: - Structural health monitoring - Vibration analysis in machinery - Seismic activity detection

Problems Solved: - Efficient monitoring of structural integrity - Accurate vibration analysis - Real-time detection of seismic events

Benefits: - Enhanced safety through early detection of structural issues - Improved maintenance planning for machinery - Quick response to seismic events for disaster management

Commercial Applications: Title: Advanced Structural Health Monitoring System This technology can be used in industries such as construction, manufacturing, and civil engineering for real-time monitoring and analysis of structural integrity, vibrations, and seismic activities. It can also be utilized in research institutions for scientific studies on structural behavior and seismic events.

Questions about the technology: 1. How does the sensor apparatus improve structural health monitoring? - The sensor apparatus allows for accurate and real-time monitoring of structural integrity, enabling early detection of issues. 2. What are the potential commercial uses of this technology? - This technology can be applied in various industries for structural health monitoring, vibration analysis, and seismic event detection.

Original Abstract Submitted

a sensor apparatus. the sensor apparatus includes an interface which is designed to receive an external clock signal. the sensor apparatus also includes an inertial sensor device which is designed to generate an inertial sensor measurement signal, a structure-borne sound sensor device which is designed to generate a structure-borne sound measurement signal, and a control device which is designed to control the structure-borne sound sensor device with a control signal that depends on the external clock signal in order to operate the structure-borne sound sensor device depending on the control signal at an operating frequency selected from a plurality of possible operating frequencies.