CN106108950A - A kind of intelligent wireless ultrasonic fetal imaging screen method - Google Patents

Abstract

The intelligent wireless ultrasonic fetal imaging screen method of the present invention quick, intelligent can realize fetal ultrasound three-dimensional, the sex examination of four-dimensional imaging, and shields.High to sex of foetus spots localization degree of accuracy, and by the multi-enciphering to acquired ultrasonoscopy, preferably protect the sensitive information of fetus, social progress is had positive assosting effect.

Description

A kind of intelligent wireless ultrasonic fetal imaging screen method

Technical field

The present invention relates to a kind of ultrasonic imaging method, especially relate to a kind of intelligent wireless ultrasonic fetal imaging shield side Method.

Background technology

Conventional ultrasound imaging technique is widely used in the clinical diagnosis that prenatal foetal is grown, and imaging pattern uses surface to become Picture, transparent image, multiple plane imaging.Relate to surface imaging and multiple plane imaging that sex of foetus judges to generally use.Surface Imaging is the most directly perceived for the reflection of fetus cuticle topography, solid shape and mutual position relationship；Multiple plane imaging is to needing Observation area to be focused on carries out multi-angle observation.

CN101081168A discloses a kind of method for shielding sex part on foetus image for preventing recognizing foetus sex, and the method is by doubting fetus It is identified like sex position, then uses shielded image to shield.But the method is only to doubtful sex position Carrying out profile judgement and image data base contrasts, positioning precision is relatively low, and later image shielding area can be caused excessive, separately Outward, all kinds of images obtained during identification do not have safety precautions, especially original image, it is easy to obtained by other people, The most just lose the meaning carrying out sex shielding；And the method is single-set operation, it is impossible to carry out the intelligent medical tube of macroscopic view Reason.

Along with the fast development of mechanics of communication, at a high speed, the wireless communication standard of high bandwidth also at continuous improving performance, be super Acoustic imaging system wireless penetration provides technical foundation.Therefore design realize a safer efficient handheld wireless intelligent surpass Sound fetus three peacekeeping four-dimensional imaging system sex examination screen method is possibly realized.

Summary of the invention

It is an object of the invention to be achieved through the following technical solutions.

According to the embodiment of the present invention, proposing a kind of intelligent wireless ultrasonic fetal imaging screen method, described method is used In ultrasonic image-forming system, it is characterised in that described method comprises the steps:

S1, intelligent mobile terminal send data acquisition instructions, running parameter to wireless transmission unit, and reception is wirelessly transferred The ultrasound image data that unit returns；

S2, the CPU processor of described extension process unit receive data acquisition instructions, work ginseng by wireless transmission unit Number, starts motor unit according to above-mentioned running parameter, and makes each parts power on, and generates control parameter and export at extension The FPGA processor of reason unit, this FPGA processor realizes sending out the ultrasound wave of front-end configuration unit under the control controlling parameter Penetrate, reception processes；

S3, described front-end configuration unit generate launching beam according to described control parameter and send to ultrasonic recognition unit；

The fetus of anemia of pregnant woman, by front-end configuration element excitation, is launched ultrasound wave by S4, described ultrasonic recognition unit；Complete to launch After, ultrasonic recognition unit enters the reception cycle；

S5, described motion sensor acquisition scans parameter, including movement locus and the scope of ultrasonic recognition unit, and will adopt Collection result feeds back to CPU processor, CPU processor carry out the regulation of ultrasound emission according to feedback result；

S6, described motor unit are according to the speed of the regulation Signal Regulation electric machine rotation of CPU processor and acceleration；

S7, described front-end configuration unit receive the wave beam returned and are sent to FPGA processor and carry out image procossing；

The original image that S8, the described preposition ciphering unit picture signal to obtaining from FPGA processor is extracted is carried out for the first time Encryption；

S9, the described fixed point screen unit picture signal location fetus genital area to obtaining from FPGA processor, and The fetus genital area image of location is carried out fixed point shielding；

S10, described machine vision processing unit will pinpoint the area image after shielding and the matching again of other parts of images, Generate new visual pattern；

S11, the new visual pattern generated is sent to intelligent mobile terminal and show；And

S12, described transmission ciphering unit prepare to transmit the ultrasonoscopy to high in the clouds data center to from intelligent mobile terminal Carry out secondary encryption.

According to the detailed description of the invention of the present invention, the front-end configuration unit of described step S7 receives the wave beam returned and specifically wraps Include:

S7-1, to return ultrasonic signal carry out AF panel；

S7-2, two channel reception modes are used the signal after AF panel to carry out noise elimination, down coversion, amplifies and filter Ripple, is reconverted into digital signal, and

S7-3, the digital signal received is converted to digital beam signal, processes for outside FPGA processor.

This intelligent wireless ultrasonic fetal imaging screen method, compared with existing ultrasonic imaging method, has following useful effect Really:

The present invention quick, intelligent can realize fetal ultrasound three-dimensional, the sex examination of four-dimensional imaging, and shields.To tire Youngster's sex spots localization degree of accuracy is high, and by the multi-enciphering to acquired ultrasonoscopy, preferably protects fetus Sensitive information, social progress is had positive assosting effect.

Accompanying drawing explanation

By reading the detailed description of hereafter preferred implementation, various other advantage and benefit common for this area Technical staff will be clear from understanding.Accompanying drawing is only used for illustrating the purpose of preferred implementation, and is not considered as the present invention Restriction.And in whole accompanying drawing, it is denoted by the same reference numerals identical parts.In the accompanying drawings:

Accompanying drawing 1 is the intelligent wireless ultrasonic fetal imaging shielding system structure schematic diagram according to embodiment of the present invention；

Accompanying drawing 2 is the intelligent wireless ultrasonic fetal imaging shielding method flow diagram according to embodiment of the present invention.

Detailed description of the invention

It is more fully described the illustrative embodiments of the disclosure below with reference to accompanying drawings.Although accompanying drawing shows these public affairs The illustrative embodiments opened, it being understood, however, that may be realized in various forms the disclosure and the reality that should not illustrated here The mode of executing is limited.On the contrary, it is provided that these embodiments are able to be best understood from the disclosure, and can be by these public affairs What the scope opened was complete conveys to those skilled in the art.

According to the embodiment of the present invention, proposing a kind of intelligent wireless ultrasonic fetal imaging screen method, described method is used In ultrasonic image-forming system, as it is shown in figure 1, described system include intelligent mobile terminal, wireless transmission unit, extension process unit, Front-end configuration unit, ultrasonic recognition unit, motion sensor, motor unit, fixed point screen unit, machine vision process single Ciphering unit first, preposition, transmission ciphering unit, power subsystem and high in the clouds data center；Described intelligent mobile terminal passes through WLAN is connected with wireless transmission unit, and described wireless transmission unit is sequentially connected with extension process unit, front-end configuration unit, ultrasonic Recognition unit, motion sensor and motor unit, described extension process unit is also sequentially connected with preposition ciphering unit, determines Point screen unit and machine vision processing unit；Described extension process unit is also connected with motion sensor and motor list Unit；Described intelligent mobile terminal is also sequentially connected with transmission ciphering unit and high in the clouds data center；

As shown in Figure 2, described method comprises the steps:

S1, intelligent mobile terminal send data acquisition instructions, running parameter to wireless transmission unit, and reception is wirelessly transferred The ultrasound image data that unit returns；Described running parameter includes but not limited to supersonic frequency, intensity, frequency acquisition, stepping electricity Machine regulating command etc.；

S2, the CPU processor of described extension process unit receive data acquisition instructions, work ginseng by wireless transmission unit Number, starts motor unit according to above-mentioned running parameter, and makes each parts power on, and generates control parameter and export at extension The FPGA processor of reason unit, this FPGA processor realizes sending out the ultrasound wave of front-end configuration unit under the control controlling parameter Penetrate, reception processes；

S3, described front-end configuration unit generate launching beam according to described control parameter and send to ultrasonic recognition unit；

The fetus of anemia of pregnant woman, by front-end configuration element excitation, is launched ultrasound wave by S4, described ultrasonic recognition unit；Complete to launch After, ultrasonic recognition unit enters the reception cycle；

S5, described motion sensor acquisition scans parameter, including movement locus and the scope of ultrasonic recognition unit, and will adopt Collection result feeds back to CPU processor, CPU processor carry out the regulation of ultrasound emission according to feedback result；

S6, described motor unit according to the speed of the regulation Signal Regulation electric machine rotation of CPU processor and acceleration, Thus reach the purpose of speed governing and the purpose being accurately positioned；

S7, described front-end configuration unit receive the wave beam returned and are sent to FPGA processor and carry out image procossing；Described Image procossing includes but not limited to the conventional treatment in prior art to ultrasonoscopy；

The original image that S8, the described preposition ciphering unit picture signal to obtaining from FPGA processor is extracted is carried out for the first time Encryption；

S9, the described fixed point screen unit picture signal location fetus genital area to obtaining from FPGA processor, and The fetus genital area image of location is carried out fixed point shielding；

S10, described machine vision processing unit will pinpoint the area image after shielding and the matching again of other parts of images, Generate new visual pattern；

S11, the new visual pattern generated is sent to intelligent mobile terminal and show；And

S12, described transmission ciphering unit prepare to transmit the ultrasonoscopy to high in the clouds data center to from intelligent mobile terminal Carry out secondary encryption.

According to the detailed description of the invention of the present invention, the front-end configuration unit of described step S7 receives the wave beam returned and specifically wraps Include:

S7-1, to return ultrasonic signal carry out AF panel；

S7-2, two channel reception modes are used the signal after AF panel to carry out noise elimination, down coversion, amplifies and filter Ripple, is reconverted into digital signal, and

S7-3, the digital signal received is converted to digital beam signal, processes for outside FPGA processor.

According to the detailed description of the invention of the present invention, the preposition ciphering unit of described step S8 is to obtaining from FPGA processor The original image that beam signal extracts is encrypted for the first time and is specifically included:

S8-1, read number health account, obtain and comprise adding of signer identity and subscriber identity information Signature request；

S8-2, the signer identity extracted in additional signature request, subscriber identity information；

S8-3, complete authentication；

S8-4, according to subscriber identity information stochastic generation private key and PKI；

Original image information is encrypted, and is uploaded by intelligent mobile terminal by public key information by S8-5, use private key To high in the clouds data center.

Setting by the preposition ciphering unit of the present invention, it is ensured that ultrasonic original image generate the very first time just Encrypted process, without permission, even operator also cannot obtain sex of foetus information.

According to the detailed description of the invention of the present invention, the transmission ciphering unit of described step S12 is to accurate from intelligent mobile terminal Standby transmission to the ultrasonoscopy of high in the clouds data center carries out secondary encryption and specifically includes:

S12-1, transmission ciphering unit obtain intelligent mobile terminal write request, comprise filename, write request rise Beginning position and write request length；

S12-2, calculate the block number at write request original position place, calculate write request start bit in data block Put and end position；

S12-3, judge that whether original position and end position are at the edge of section；

If S12-4 is not at edge, data to be written in this block are carried out sectional encryption, and be written to multiple backup and deposit Reservoir.

By the setting of the transmission ciphering unit of the present invention, the view data uploaded is carried out sectional encryption storage, enters one Step reduces the probability that sensitive image is acquired, and achieves more thorough shield effectiveness.

The above, the only present invention preferably detailed description of the invention, but protection scope of the present invention is not limited thereto, Any those familiar with the art in the technical scope that the invention discloses, the change that can readily occur in or replacement, All should contain within protection scope of the present invention.Therefore, protection scope of the present invention answers the described protection model with claim Enclose and be as the criterion.

Claims (2)

1. an intelligent wireless ultrasonic fetal imaging screen method, described method is used for ultrasonic image-forming system, it is characterised in that institute The method of stating comprises the steps:

S1, intelligent mobile terminal send data acquisition instructions, running parameter to wireless transmission unit, and receive wireless transmission unit The ultrasound image data returned；

S2, the CPU processor of described extension process unit receive data acquisition instructions, running parameter by wireless transmission unit, Start motor unit according to above-mentioned running parameter, and make each parts power on, and generate control parameter and export extension process The FPGA processor of unit, this FPGA processor realizes sending out the ultrasound wave of front-end configuration unit under the control controlling parameter Penetrate, reception processes；

S3, described front-end configuration unit generate launching beam according to described control parameter and send to ultrasonic recognition unit；

The fetus of anemia of pregnant woman, by front-end configuration element excitation, is launched ultrasound wave by S4, described ultrasonic recognition unit；After completing to launch, Ultrasonic recognition unit enters the reception cycle；

S5, described motion sensor acquisition scans parameter, including movement locus and the scope of ultrasonic recognition unit, and tie collection Fruit feeds back to CPU processor, CPU processor carry out the regulation of ultrasound emission according to feedback result；

S6, described motor unit are according to the speed of the regulation Signal Regulation electric machine rotation of CPU processor and acceleration；

S7, described front-end configuration unit receive the wave beam returned and are sent to FPGA processor and carry out image procossing；

The original image that S8, the described preposition ciphering unit picture signal to obtaining from FPGA processor is extracted adds for the first time Close；

S9, the described fixed point screen unit picture signal location fetus genital area to obtaining from FPGA processor, and to fixed The fetus genital area image of position carries out fixed point shielding；

S10, described machine vision processing unit, by the area image after fixed point shielding and the matching again of other parts of images, generate New visual pattern；

S11, the new visual pattern generated is sent to intelligent mobile terminal and show；And

The ultrasonoscopy preparing to transmit to high in the clouds data center from intelligent mobile terminal is carried out by S12, described transmission ciphering unit Secondary is encrypted.

2. a method of claim 1, the front-end configuration unit of described step S7 receives the wave beam returned and specifically wraps Include:

S7-1, to return ultrasonic signal carry out AF panel；

S7-2, two channel reception modes are used the signal after AF panel to carry out noise elimination, down coversion, amplifies and filter, It is reconverted into digital signal, and

S7-3, the digital signal received is converted to digital beam signal, processes for outside FPGA processor.