This is a virtual measurement procedure using augmented reality glasses for measuring acoustic power in accordance with DIN EN ISO 9614.
Acoustic intensity measurement allows for the identification of acoustic power emitted from the test object in accordance with ISO 9614. A 3D model acoustic intensity map is generated using discrete points/scanning. Instead of constructing a physical grid for discrete point and scan measurements in accordance with ISO 9614, acoustic intensity measurement utilizes Microsoft’s HoloLens 2 augmented reality glasses. The AR glasses can be seamlessly integrated into the procedure, making it easy and quick to perform ISO-compliant measurements. This efficient virtual solution facilitates the necessary acoustic intensity measurements, enabling even inexperienced users to conduct ISO-compliant measurements.
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basic information
Acoustic intensity measurement for acoustic power identification in accordance with ISO 9614 › Discrete points (ISO 9614-1), scanning (ISO 9614-2, ISO 9614-3) › Rapid diagnostics for troubleshooting HoloLens 2 Augmented Reality (All measurements compliant with ISO 9614-1, ISO 9614-2, ISO 9614-3) › User-friendly virtual measurement grid compliant with ISO › Measurement process with assistive guidance › High reliability of measurements through visual positioning of the probe › Visualization of measurement progress and verification of ISO compliance › Automatic display of measurement results (including a single value of measurement results in the acoustic intensity map)
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ISO-compliant acoustic intensity measurement is innovative and easy to operate even for inexperienced users.
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Company information
HEAD acoustics Japan Co., Ltd. has been active as a leading company in the fields of dummy head-related recording and playback systems, acoustic analysis based on human auditory characteristics, and communication measurement technology for over 25 years. HEAD acoustics has consistently been a pioneer in developing innovative technologies such as dummy head-related binaural technology, acoustic analysis related to human hearing, interactive sound simulation systems, and transmission path analysis. HEAD acoustics will continue to focus on research and development through collaboration with universities and other research institutions and participation in international research projects.
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