A method for providing enhanced sonar images includes ensonifying a target column of water with sonar beams corresponding to pulses of continuous wave (CW) and pulse compression (FM) signals. Received acoustic returns are processed to generate sonar image data corresponding to the CW signals and the FM signals. The CW and FM sonar image data are then displayed contemporaneously such that one sonar image data set overlays another. Techniques are also disclosed to provide situational imagery. A pilot display system includes a user interface, a logic device, and a speed sensor mounted to a mobile structure. The user interface is configured to receive user input and provide user feedback, and the logic device is configured to receive a speed of the mobile structure from the speed sensor, generate corresponding situational image data, and render the situational image data via at least one display of the user interface.

An object detection apparatus detects an object in a vicinity of a moving body in a state of being mounted to the moving body. The object detection apparatus measures a reverberation frequency that is a frequency of a reverberation signal that is generated in a transceiver that externally transmits a transmission wave that is an ultrasonic wave and receives a reception wave that includes a reflected wave of the transmission wave from the object. object detection apparatus detects the object based on the reception wave. The object detection apparatus sets at least one of a transmission characteristic and a reception characteristic in the transceiver. The object detection apparatus sets at least one of transmission characteristics of the transmission wave and/or sets circuit characteristics in the transceiver. The object detection apparatus reduces at least one of the transmission characteristic and the reception characteristic during measurement of the reverberation frequency.

In an ultrasonic detection system that uses frequency-modulation coding to distinguish emitted bursts from multiple transducers, a receiver associated with a transducer uses dynamic thresholding to discriminate valid echoes from system and environmental noise in multiple envelope signals produced by multiple correlators. The time-varying dynamic thresholds are generated from the mean of noise in a respective envelope derived from the output of a respective correlator. Multiple thresholds can be combined together such that a single time-varying threshold is applied to all correlators' envelopes. Such thresholding has the benefits of a constant false-alarm rate with regard to detection of echoes (as opposed to false triggering from noise), and, owing to finer-resolution and adaptive thresholds, can detect targets or obstacles as further distances and with greater time responsiveness.

An ultrasonic gesture recognition system is provided that recognizes gestures based on analysis of return signals of an ultrasonic pulse that is reflected from a gesture. The system transmits an ultrasonic chirp and samples a microphone array at sample intervals to collect a return signal for each microphone. The system then applies a beamforming technique to frequency domain representations of the return signals to generate an acoustic image with a beamformed return signal for multiple directions. The system then generates a feature image from the acoustic images to identify, for example, distance or depth from the microphone array to the gesture for each direction. The system then submits the feature image to a deep learning system to classify the gesture.

An ultrasonic diagnostic scanner is provided which includes a transmitting and receiving unit that transmits two kinds of ultrasonic waves with inverted phases to each of a plurality of scanning lines and receives first and second echo signals corresponding to the two kinds of ultrasonic waves from one scanning line to another, a first adder that obtains a third echo signal by adding up the first and second echo signals for each scanning line, a first signal generating unit that generates a first processed signal from the first echo signal and a second processed signal from the third echo signal, a second adder that generates a third processed signal from the first and second processed signals, an image processor that generates an ultrasonic image from the third processed signal, and an display monitor that displays the ultrasonic image.

A method for locating and quantifying obstructions in a pipe is described. The method comprises the steps of emitting at one end of the pipe, by means of a loudspeaker, an emitted signal comprising a wave train at a first frequency, the waves being of an acoustic type; receiving at the same end of the pipe, by means of a microphone, a reflected signal, resulting from the reflection of the wave train from obstructions in the pipe; determining a position of each of the obstructions according to a delay measured between the wave train of the emitted signal and the wave train of the reflected signal received by the microphone; and determining, for each of the obstructions, its degree of obstruction by extrapolating the energies of the emitted, reflected and transmitted signals. A system comprising the loudspeaker, the microphone, a processor, and a memory for performing the above method is also described.

Distance detection method and device are provided. The distance detection method comprises: providing a directional signal emitting module; providing a directional signal receiving module having a constant bandwidth; providing a distance detection signal to the directional signal emitting module; changing a frequency of the distance detection signal provided to the directional signal emitting module, and judging whether the directional signal receiving module can decode a reflected directional signal into a received signal; and judging a distance between an external object and the directional signal receiving module according to whether the received signal corresponding to the frequency of the distance detection signal can be decoded.

An object detection apparatus detects an object in a vicinity of a moving body in a state of being mounted to the moving body. The object detection apparatus measures a reverberation frequency that is a frequency of a reverberation signal that is generated in a transceiver that externally transmits a transmission wave that is an ultrasonic wave and receives a reception wave that includes a reflected wave of the transmission wave from the object. The object detection apparatus detects a specific segment that is an occurrence segment in which occurrence of beat that is attributed to a plurality of reverberation frequency components is confirmed in the reverberation signal, or a non-occurrence segment in which the occurrence of beat does not significantly occur. The object detection apparatus sets a measurement segment in which the reverberation frequency is measured in the non-occurrence segment based on a detection result of the specific segment.

Ultrasonic ranging systems and methods that emit coded bursts and correlate transduced acoustical echoes of the bursts with a receive template characterizing a burst code to determine time-of-flight information use receive templates of time-variable length to improve short-range object detection. The template length is based on a time index measured from the start of the burst emission. The detection can account for a dead zone of transducer ringing following a burst. A time-variable gain that is also based on the time index can be applied to the correlated signal. The length and gain can be adjusted with reduced temporal frequency to reduce computation cost.

A method for providing enhanced sonar images includes ensonifying a target column of water with sonar beams corresponding to pulses of continuous wave (CW) and pulse compression (FM) signals. Received acoustic returns are processed to generate sonar image data corresponding to the CW signals and the FM signals. The CW and FM sonar image data are then displayed contemporaneously such that one sonar image data set overlays another. Techniques are also disclosed to provide situational imagery. A pilot display system includes a user interface, a logic device, and a speed sensor mounted to a mobile structure. The user interface is configured to receive user input and provide user feedback, and the logic device is configured to receive a speed of the mobile structure from the speed sensor, generate corresponding situational image data, and render the situational image data via at least one display of the user interface.