Kyocera Corporation has announced that it has developed a “contactless intelligent millimetre-wave sensing system”. The system includes a high-precision, low-noise sensor that can detect minute vibrations (measured in microns) with no physical contact, and various software modules for AI-based solutions for various applications.
Japan’s current economic environment requires businesses to improve labour output efficiency to account for labour shortages caused by an aging workforce, declining birthrates, and other factors. As such, there is a growing demand for intelligent millimetre-wave systems to perform routine inspections for building safety and to support predictive maintenance of factory equipment. Also, since the beginning of the COVID-19 pandemic, many people have been experiencing stress in their daily lives because of decreased communication with family and friends and increased time at home, creating concern for daily healthcare needs. Both diagnosing people and collecting inspection data involve tremendous volumes of information, often obtained from minute vibrations.
Kyocera’s new millimetre-wave sensing system is capable of non-contact, high-precision detection of micron-scale vibrations using a millimetre-wave signal, making it possible to accurately detect human heartbeat and respiratory fluctuations, as well as minute vibrations of machines and buildings, wirelessly and remotely.
This system can be applied in many routine healthcare diagnostics, efficient physical health monitoring, and for detecting anomalies in manufacturing equipment – contributing to healthcare and fulfilling societal needs for a more labour-saving workplace.
Features
The system features low-loss millimetre-wave substrates made from Kyocera’s proprietary materials, high-precision substrate manufacturing, and advanced statistical signal-processing technology developed for telecommunications equipment.
1. Contactless detection of minute vibrations
Many systems that sense a person’s heartbeat or breathing require physical contact, which limits potential applications. To accurately detect minute vibrations with a contactless intelligent millimetre-wave sensor, a main technical challenge has involved improving the sensor’s signal-to-noise ratio.
Kyocera solved these problems by combining its original materials and signal processing technologies. Figure 1 compares a highly accurate Laser Doppler Vibrometre with Kyocera’s millimetre-wave sensor, confirming the high accuracy of Kyocera’s system.
2. Accurate heartbeat interval sensing
Contactless sensing systems for heartbeat and respiration using ordinary radio waves and ultrasonic waves have been unable to deliver highly accurate (high time resolution) data that can be applied to psychoemotional monitoring and other applications. Kyocera’s system enables more accurate measurement of heart rate variability because it can detect chest vibrations caused by a person’s heartbeat with high accuracy. In addition to daily healthcare measurement, this technique can also be applied to stress analysis, autonomic analysis, and other applications.
3. AI solutions and software modules for a variety of applications
The system’s high-precision vibration detection capability not only detects and extracts human heartbeat and breathing, but also motion detection from building vibrations and manufacturing equipment in factories.
Kyocera is also proceeding with R&D into AI technologies that analyse and utilise millimetre-wave sensor data, and aims to provide solutions for a wide variety of applications by combining these technologies with various software modules (add-ons).
Kyocera’s contactless intelligent millimetre-wave sensor system is not intended to be a stand-alone medical device at this stage.
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