Patents
Literature
Hiro is an intelligent assistant for R&D personnel, combined with Patent DNA, to facilitate innovative research.
Hiro

1549 results about "Hydrophone" patented technology

A hydrophone (Ancient Greek: ὕδωρ + φωνή, lit. 'water + sound') is a microphone designed to be used underwater for recording or listening to underwater sound. Most hydrophones are based on a piezoelectric transducer that generates an electric potential when subjected to a pressure change, such as a sound wave. Some piezoelectric transducers can also serve as a sound projector, but not all have this capability, and some may be destroyed if used in such a manner.

Sonoporation systems and methods

The present invention is directed to devices and methods that apply ultrasonic energy for the purpose of inducing transfection and cell transformation. A sonoporation system in accordance with embodiments of the present invention includes an ultrasonic electrical energy generator connected to an ultrasonic transducer producing stress waves. The ultrasonic transducer is connected to a fluid containment tank configured to accept at least a portion of the ultrasonic transducer whereby the ultrasonic stress waves may be delivered into the fluid medium. A cell holder is configured to hold one or more cells desirable for transfection. A hydrophone may be electrically connected to an acoustic stress wave intensity detection circuit. A motion control system having an arm configured to receive one or both of the cell holder and the hydrophone is configured to provide motion of one or both of the cell holder and the hydrophone within the fluid medium.
Owner:ARTISON

Gps-based underwater cable positioning system

A GPS-based underwater cable positioning system for use in determining the shape and position of hydrophone streamers towed underwater behind survey vessels involved in marine seismic prospecting. The system includes a plurality of surface units towed behind the vessel. Each surface unit includes a GPS receiver to receive radio frequency GPS signals and to determine its positions. Each surface unit also has an acoustic transmitter to transmit an acoustic message signal representing its position and an optional time stamp into the water. Acoustic receiver units, attached spaced apart locations along one or more streamer cables, each include an acoustic receiver to receive the acoustic message signals from the surface units and to determine its position from the message signals. To augment the message signals from the surface units at locations distant from the surface units, acoustic transceiver units may be used. The acoustic transceiver units are attached to the streamer cables at ranges between the surface units and distant acoustic receiver units. The acoustic transceiver units each include an acoustic receiver that performs as the receivers in the acoustic receiver units and an acoustic transmitter to transmit acoustic message signals representing its position and an optional time stamp into the water to be received by the acoustic receiver units. In this way, the positions and shapes of towed streamer cables can be determined.
Owner:INPUT OUTPUT INC

Marine seismic acquisition system and method

A method and system for performing a marine seismic survey is described, including towing at least one seismic streamer comprising a plurality of hydrophones distributed at average intervals of not more than 625 cm therealong in the water over the area to be surveyed; directing acoustic signals down through the water and into the earth beneath; receiving with the hydrophones seismic signals reflected from strata in the earth beneath the water; digitizing the output of each hydrophone separately; and filtering the output to reduce the noise present in the output and to generate a signal with a reduced noise content wherein the filtering process uses as further input the digitized output of at least one nearby hydrophone. The filtering is applied to single sensor recording prior to group-forming and thus able to detect and reduce coherent noise with a coherency length of 20 meters or less. It reduces noise such as streamer or bulge noise.
Owner:SCHLUMBERGER TECH CORP

Magneto-acoustic imaging

An apparatus having a coil of wire, energized by a repetitively pulsed radio frequency (RF) power source to provide electromagnetic fields to a region within a body. A scanning, directional hydrophone acoustically connected to the body, samples ultrasonic radiation generated by the RF fields at the RF frequency or twice the RF frequency induced from conductive spots. Signals from the hydrophone are analyzed with regard to their time of arrival relative to the RF pulses and with respect to their direction of arrival. These collected data are recorded and displayed as images of the spots within the region.
Owner:MAGNETUS

High pressure and high temperature acoustic sensor

An acoustic sensor, such as a hydrophone, is deployable in a fluidic media having high temperature, high pressure, and / or potentially caustic chemicals. The hydrophone includes a housing filled with an internal fluid and containing a sensing mandrel. The sensing mandrel senses the acoustic pressure transmitted to the internal fluid through a diaphragm. The sensing mandrel preferably includes a polymer tubular mandrel having a coil of optical fiber wound and bonded to its outer surface. The sensing mandrel can be suspended within the housing instead of being rigidly attached thereto. To relieve pressure created by thermal expansion of the internal fluid, the flexible diaphragm, a filler member, a pressure compensator, or combinations thereof can be used. The filler member is mounted in the hydrophone and reduces the amount of internal fluid required in the housing. The compensator may be a bellows or a buffer tube.
Owner:WEATHERFORD TECH HLDG LLC

Method of wide azimuth seismic aquisition

According to a preferred aspect of the instant invention, there is provided a system and method for acquiring seismic data in a marine environment, wherein at least two source vessels are used in conjunction with a recording vessel which tows a plurality of hydrophone cables. Preferably, the source vessels will be positioned along side of the towed streamer configuration and most preferably one source vessel will be located near the recording vessel and the other at the end of the streamer configuration, preferably along the same side of the streamer configuration as the lead source vessel.
Owner:BP CORP NORTH AMERICA INC

System and method for monitoring performance of downhole equipment using fiber optic based sensors

A method and system for monitoring the operation of downhole equipment, such as electrical submersible pumps, is disclosed. The method and system rely on the use of coiled fiber optic sensors, such as hydrophones, accelerometers, and / or flow meters. These sensors are either coupled to or placed in proximity to the equipment being monitored. As the sensor is perturbed by acoustic pressure disturbances emitted from the equipment, the length of the sensing coil changes, enabling the creation of a pressure versus time signal. This signal is converted into a frequency spectrum indicative of the acoustics emissions of the equipment, which can then be manually or automatedly monitored to see if the equipment is functioning normally or abnormally, and which allows the operator to take necessary corrective actions.
Owner:WEATHERFORD TECH HLDG LLC

Methods of and systems for continually measuring the range between mobile underwater vehicles carrying acoustical signal transmitters and remotely deployed synchronized underwater acoustical receivers provided with signal processing for continually determining such range during the underwater moving of the vehicle, and for measuring acoustic underwater transmission loss, geoacoustical properties and for other purposes

Invention relates to a novel method of and system for ranging between an acoustic source carried on an unmanned or autonomous undersea mobile vehicle (UUV or AUV) and preferably a plurality of hydrophone receivers remotely deployed from the vehicle in predetermined patterns, generally suspended from sonobuoys equipped with above-the-sea relay radio transmitting antennas, and with time synchronization provided amongst the source and the receivers, wherein the time delay from the transmissions of the source is measured by utilizing special signal processing, enabling range to be measured in close to real time by determining the product of the sound velocity and the measured time delay, and with the process continually and periodically being repeated throughout the duration of the vehicle run. Given the range, the system may then be used to measure the acoustical properties of and / or receiver system performance in the sea or other water body, such as transmission or propagation loss TL, channel impulse response, bottom geoacoustic properties, source level, receiver sensitivity calibration, sonar operator readiness and sonar receiver performance and the like. Further, in situ measured data can be assimilated with models to enable more accurate prediction of the ocean environment than could be obtained from either individually.
Owner:OCEAN ACOUSTICAL SERVICES ADN INSTR SYST OASIS INC

Acquisition method and device for seismic exploration of a geologic formation by permanent receivers set on the sea bottom

A method and device for seismic exploration of a subsea geologic formation by pickups set on the sea bottom and intermittently connectable to active data acquisition stations (11) brought nearby. Permanent passive reception stations (1) comprising a heavy pedestal provided with housings for seismic pickups (geophones (6), hydrophone (7)) which receive acoustic or seismic signals from the underlying formation are arranged at the bottom of the water body. When collection sessions for the signals received by the pickups are scheduled, mobile active acquisition stations (11) connected to permanent passive reception stations (1) are positioned at the bottom of the water body. The signals picked up are then recorded, for the time required to carry out at least one session of acquisition and recording of the acoustic or seismic signals received by the passive stations in response to the emission of seismic waves by one or more seismic sources. The mobile active acquisition stations (11) are thereafter recovered at the surface and the records acquired by each one are transferred to a central collection laboratory.
Owner:INST FR DU PETROLE

Impact-reinforced piezocomposite transducer array

An impact-reinforced piezocomposite transducer array comprises a load supporting structure having a plurality of cells, each of said cells comprises a piezocomposite transducer element. The load supporting structure comprises a honeycomb structure having a plurality of multi-sided cells or the structure comprises a plurality of cylindrical cells. The piezocomposite element includes a plurality of piezoceramic rods encapsulated in a polymeric matrix to form a 1-3 composite body. The transducer array may be used as a hydrophone or a transmitter in a rugged environment such as on the hull of an icebreaker ship.
Owner:CHANNEL TECH GRP

Geophone noise attenuation and wavefield separation using a multi-dimensional decomposition technique

Methods and apparatus for processing dual sensor (e.g., hydrophone and vertical geophone) data that includes intrinsic removal of noise as well as enhancing the wavefield separation are provided. The methods disclosed herein are based on a decomposition of data simultaneously into dip and frequency while retaining temporal locality. The noise removed may be mainly coherent geophone noise from the vertical geophone, also known as V(z) noise.
Owner:FAIRFIELD INDUSTRIES INC

Method for combining seismic data sets

A method is disclosed for combining seismic data sets. This method has application in merging data sets of different vintages, merging data sets collected using different acquisition technologies, and merging data sets acquired using different types of sensors, for example merging hydrophone and geophone measurements in ocean bottom seismic data. In one embodiment, a desired data trace is to be determined from a set of measured data traces, and the following steps are applied: (a) model filters are constructed which express the deterministic relationship between the desired data trace and each available measured trace that depends on the desired data trace; (b) the noise properties associated with each measured data trace are determined; (c) a sufficient statistic for the desired data trace is formed by application of an appropriate filter to each measured trace and summing the filter outputs; (d) the sufficient statistic is further processed by a single-input single-output estimator to construct an estimate of the desired data trace from the sufficient statistic.
Owner:EXXONMOBIL UPSTREAM RES CO

Arterial blood pressure monitor with a liquid filled cuff

InactiveUS20100106029A1Mechanical couplingPositioning of criticalEvaluation of blood vesselsCatheterBLOOD FILLEDExhaust valve
A non-invasive arterial blood pressure monitor uses an inflatable cuff that incorporates the first bladder that is filled with non-compressible liquid or gel. The bladder can be pressurized by an action of a pressurizing device superimposed onto its outer surface. In a preferred embodiment, a pressurizing device is an air-filled second bladder being connected to an air pump and bleed valve. The first bladder is positioned between the patient's body and the second bladder. During operation, the second bladder compresses the first bladder, which, in turn, compresses the patient's artery against the supporting bone. The mechanical coupling between the blood-filled artery of a patient and the liquid-filled bladder of a dual-bladder cuff is improved for detecting pressure oscillations in a broad frequency range. The pressure sensor that is coupled to the first bladder also functions as a hydrophone for picking-up the mechanical oscillations from any part of the occluded limb or digit. This allows for improved computation of the arterial pressure.
Owner:HELEN OF TROY LIMITED

Acoustic impact detection and monitoring system

A system is disclosed for detecting and locating harmful impacts to pipelines using sensors placed along the pipeline. The exact spacing of sensors is site specific and is set with the goal of maximizing sensor spacing without reducing system performance and reliability. At each sensor location, preferably there are four basic components, i.e., a hydrophone, solar power components, and data processing and communications equipment. Each hydrophone directly measures the acoustic noise fluctuation in a pipe section, which propagates at long distances in the pipeline at the specific speed of sound for the particular type of pipe. If specific signal parameters exceed a programmed threshold, a detection message is generated and transmitted via a communications link to a central monitoring and diagnostic center.
Owner:GENERAL ELECTRIC CO

Permanent seafloor seismic recording system utilizing micro electro-mechanical systems seismic sensors and method of deploying same

Provided is a permanent seafloor seismic recording system utilizing Micro Electro-Mechanical Systems seismic sensors. The system includes and expandable backbone, multiple hubs and sensor lines. The sensor lines include multiple sensor modules that include 3-C accelerometers and a hydrophone for providing a 4-C sensor module output signal.
Owner:INPUT OUTPUT INC

Apparatus for attenuating noise in marine seismic streamers

A marine seismic streamer has a hydrophone housing positioned in the streamer with the hydrophone housing having ends and rigid side walls, a hydrophone positioned in the hydrophone housing, a soft compliant solid material filling the housing, and openings in the hydrophone housing adapted to substantially permit passage of pressure waves and to substantially attenuate passage of shear waves. Another embodiment is a hydrophone housing having ends, rigid side walls, and openings in the hydrophone housing adapted to substantially permit passage of pressure waves and to substantially attenuate passage of shear waves. The openings are open ends of the housing, in the side walls of the housing, in the end walls of the housing, or in both the side walls and end walls of the housing.
Owner:PGS AMERICA INC

Passive positioning method of single-vector hydrophone

ActiveCN102981146AAchieve target positioningEstimated speed of movementPosition fixationContinuous measurementHydrophone
The invention provides a passive positioning method of a single-vector hydrophone. The passive positioning method includes: (1) performing short-time Fourier transformation on acoustic pressure signals to obtain time frequency distribution of noise signals; (2) extracting time history of strong line spectrum signals, evaluating the recent passing time of a target according to the time history of a line spectrum frequency, and evaluating the moving speed of the target according to Doppler frequency offset of the line spectrum; (3) finding the direction of the target corresponding to the line spectrum according to the acoustic pressure signals and horizontal vibration velocity signals received by the single-vector hydrophone, and obtaining the direction time history of the target during the point measuring process; and (4) evaluating motion tracks of the target according to the direction time history and motion speed of the target. The passive positioning method of the single-vector hydrophone has the advantages of being capable of positioning the target only by continuously measuring the acoustic pressure and the horizontal vibration speed information without knowing the hydrology parameters of the ocean, and is suitable for deep oceans and shallow oceans.
Owner:HARBIN ENG UNIV

Underwater navigating and positioning method of AUV (Autonomous Underwater Vehicle) based on SINS/USBL tight combination

InactiveCN106767793AMake up for the problem of long-term navigation error accumulationReduce usagePosition fixationNavigation by speed/acceleration measurementsOcean bottomSound sources
The invention discloses an underwater navigating and positioning method of an AUV (Autonomous Underwater Vehicle) based on SINS / USBL tight combination. The AUV comprises a strap-down inertial navigation system SINS and an ultra-short base line system USBL; the ultra-short base line system comprises a hydrophone receiving array mounted on AUV and a sound source arranged on the seabed. The method comprises the following steps: calculating slope distance according to propagation time from sound wave to an array center hydrophone, carrying out mutual correlation of frequency domain weighting to obtain time delay difference from the sound wave to two hydrophones on an array coordinate axis so as to calculate arrival distance difference, filtering the slope distance and the arrival distance difference output by USBL and the slope distance and the arrival distance difference calculated by SINS, filtering, outputting and carrying out re-feedback compensation on SINS. Through the underwater navigating and positioning method of the AUV based on SINS / USBL tight combination, the problem of long-term position error accumulation of SINS is solved; through tight combination of the slope distance and the arrival distance difference of USBL and the slope distance and the arrival distance difference of SINS, coordinate conversion errors and array offset errors caused by direct calculation of the position of USBL are avoided; the positioning accuracy of the AUV is improved.
Owner:SOUTHEAST UNIV

Optical fiber Fabry-Perot ultrasound hydrophone and system

The invention discloses an optical fiber Fabry-Perot ultrasound hydrophone and a system, which are used for measuring an HIFU (high intensity focused ultrasound) sound field. The system comprises a light source assembly, an optical fiber assembly, the optical fiber Fabry-Perot ultrasound hydrophone, a clamp, and a detection and feedback assembly, wherein the clamp is used for clamping the optical fiber Fabry-Perot ultrasound hydrophone, light emitted by the light source assembly reaches the optical fiber Fabry-Perot ultrasound hydrophone through the optical fiber assembly, the reflected light of the optical fiber Fabry-Perot ultrasound hydrophone, which is modulated by ultrasound, passes through the optical fiber assembly, and is received and processed by the detection and feedback assembly, the optical fiber Fabry-Perot ultrasound hydrophone comprises a single-mode optical fiber, a reflecting optical fiber and a quartz capillary tube, the two ends of the quartz capillary tube are respectively connected with the single-mode optical fiber and a reflecting optical fiber, and an air cavity in the quartz tube is an interference cavity. The optical fiber Fabry-Perot ultrasound hydrophone and the system have the advantages that the high sound pressure of the HIFU sound field can be borne, the sound pressure sensitivity is high, the space resolution is high, and meanwhile, the temperature is measured.
Owner:CHONGQING UNIV

Underwater measurement system

There is provided an underwater measurement system (20, 30, 40) for monitoring an underwater region (10). The system (20, 30, 40) includes a sensor assembly operable to sense at least one physical variable in the region (10) for generating at least one corresponding sensor signal, and a data processing arrangement (170, 510, 520) for processing the at least one sensor signal to generate processed data for presentation and / or logging. The sensor assembly (20) includes one or more voltage sensors (190) configured to sense electric fields present in the underwater region (10) and provide information in the at least one signal indicative of the electric fields. Moreover, the sensor assembly (20) includes one or more hydrophones (200) operable to receive sonic energy generated in the underwater region (10) and to include corresponding information in the at least one sensor signal for communicating to the data processing arrangement (170, 510, 520).
Owner:NAXYS

Method of using reverberation pool to carry out reciprocity calibration of underwater acoustic transducer

The invention relates to a method of using a reverberation pool to carry out reciprocity calibration of an underwater acoustic transducer. The method of using a reverberation pool to carry out reciprocity calibration of an underwater acoustic transducer includes the steps: 1) according to the lowest frequency to be calibrated for an underwater acoustic transducer to be calibrated, selecting a reverberation pool with the corresponding size; 2) using any one nondirectional sound source and one hydrophone to form an emission / reception energy transducer pair, measuring the output voltage of an open circuit being 1m away from a sound source equivalent sound center in the reverberation pool and recording the emission / reception parameters of the apparatus; and 3) placing the emission / reception energy transducer pair in the reverberation pool, adjusting the same emission / reception parameters, and using a space averaging method to measure the output voltage of the open circuit of the hydrophone. If the method of using a reverberation pool to carry out reciprocity calibration of an underwater acoustic transducer is used to perform calibration of an underwater acoustic transducer, a plurality of hydrophones can be calibrated at the same time, so that the requirement for the experiment pool is reduced. Therefore, even in a reverberation pool with small size or a non anechoic pool, the method of using a reverberation pool to carry out reciprocity calibration of an underwater acoustic transducer can also be used for calibration only when the frequency range for calibration is satisfied.
Owner:HARBIN ENG UNIV

Enhanced noise cancellation in VSP type measurements

A method and system for acquiring seismic data while conducting drill string operations in a wellbore. The seismic receiver combination set comprises a combination of orthogonal geophones and accelerometers, and an array of hydrophones.
Owner:BAKER HUGHES INC
Who we serve
  • R&D Engineer
  • R&D Manager
  • IP Professional
Why Eureka
  • Industry Leading Data Capabilities
  • Powerful AI technology
  • Patent DNA Extraction
Social media
Eureka Blog
Learn More
PatSnap group products