An operating noise estimation device for a vehicle on-board component, an operating sound estimation method for a vehicle on-board component, and a memory medium are provided. The vehicle on-board component is operated by rotation that is output by a drive source of a vehicle. One of an independently-operating sound index value and a coupling-associated operating sound index value is an input-side index value, and the other one is an output-side index value. A neural network is trained using, for training data, a measurement value of the independently-operating sound index value and a measurement value of the coupling-associated operating sound index value for an individual vehicle on-board component. The execution device estimates, using the trained neural network, a value of the output-side index value of the vehicle on-board component in which the input-side index value is a specified value.

A noise measuring device is provided. The noise measuring device includes a soundproof box, a sound receiving device, a holding device, and a driving device. The sound receiving device is disposed in the soundproof box. The holding device is disposed in the soundproof box and configured to hold a testing object. The driving device is connected with the soundproof box and configure to drive the soundproof box to rotate.

The present disclosure relates to systems and methods of applying vibration stimuli to a plant. In some implementations, an actuator generates a vibration. The vibration may be transmitted to a vibration transmitter and from the vibration transmitter to the plant. In some implementations, the vibration may be based on recorded biometric information such as a heartbeat, pulse, nerve impulses, or the like.

Systems and methods for identifying potential bullying are disclosed. In various aspects, a system for identifying potential bullying includes a sound detector configured to provide samples of sounds over time, a processor, and a memory storing instructions. The instructions, when executed by the processor, cause the system to determine that a noise event has occurred by processing the samples to determine that the sounds exceed a sound level threshold over a time period that exceeds a time period threshold, process the samples to provide frequency spectrum information of the noise event, determine whether the noise event is a potential bullying occurrence based on comparing the frequency spectrum information of the noise event and at least one frequency spectrum profile, and initiate a bullying notification in a case of determining that the noise event is a potential bullying occurrence.

Systems can include an acoustic sensor array configured to receive acoustic signals, an illuminator configured to emit electromagnetic radiation, an electromagnetic imaging tool configured to receive electromagnetic radiation, a distance measuring tool, and a processor. The processor can illuminate the target scene via the illuminator, receive electromagnetic image data from the electromagnetic imaging tool representative of the illuminated scene, receive acoustic data from the acoustic sensor array, and receive distance information from the distance measuring tool. The processor can be further configured to generate acoustic image data of the scene based on the received acoustic data and received distance information and generate a display image comprising combined acoustic image data and electromagnetic image data. The processor can determine depths of various acoustic signals within a scene and generate a representation of the scene the shows the determined depths, including floorplan and volumetric representations.

Some systems include an electromagnetic imaging tool configured to receive electromagnetic radiation, a communication interface, a processor in communication with the electromagnetic imaging tool and the communication interface, and a housing. Systems can include a first sensor head having a first plurality of acoustic sensor elements arranged in a first acoustic sensor array. The communication interface can provide communication between the processor and the sensor head via wired or wireless communication. The communication interface can comprise a docking port in communication with the processor and configured to removably receive a corresponding docking mechanism of the first sensor head. Some systems may include a second sensor head having a second plurality of acoustic sensor elements. The second sensor head may be interchangeably connectable to the communication interface and/or the first sensor head.

This disclosure provides systems, methods, and apparatus related to an ultrasonic microphone and an ultrasonic acoustic radio. In one aspect a system includes a transmitter and a receiver. The receiver comprises a membrane. The membrane comprises a single layer or multiple layers of a two-dimensional material. The receiver is operable to receive sound waves in a frequency range, with the frequency range being the ultrasonic frequency range.

The present invention relates to a method and apparatus for providing noise and/or vibration monitoring. Specifically, the present invention relates to the provision of a distributable and/or configurable method and/or apparatus for noise and/or vibration monitoring. According to a first aspect, there is provided a method of monitoring ambient sound in an area for use with a device for recording ambient sound, comprising the steps of: receiving ambient sound data from the device; determining when a parameter related to the ambient sound data exceeds a predetermined threshold; and storing ambient sound data when the predetermined threshold is exceeded.

The present invention relates to a method and apparatus for providing noise and/or vibration monitoring. Specifically, the present invention relates to the provision of a distributable and/or configurable method and/or apparatus for noise and/or vibration monitoring. According to a first aspect, there is provided a method of monitoring ambient sound in an area for use with a device for recording ambient sound, comprising the steps of: receiving ambient sound data from the device; determining when a parameter related to the ambient sound data exceeds a predetermined threshold; and storing ambient sound data when the predetermined threshold is exceeded.

A method and a system for noise mapping in buildings, wherein a communication device is configured for determining the current noise level of a location in the building by an appropriate sensor of the communication device, wherein the communication device is further configured to communicate the noise level information and the location data to a computer system; wherein the computer system is configured for collecting and analyzing the received noise level information and the corresponding location data, and wherein the computer system is further configured to provide a noise heat map of the building.