CN109064541A - One kind underwater virtual reality imaging system based on ultrasound and its application method - Google Patents

Abstract

The invention belongs to ultrasonic measurement technical fields, specifically, it is related to one kind underwater virtual reality imaging system based on ultrasound and its application method, discloses a kind of underwater virtual reality imaging system based on ultrasound, including following module: ultrasonic transducer module；Ultrasonic phase array control module；Imaging module；Virtual image module；Display module.A kind of application method of underwater virtual reality imaging system based on ultrasound is also disclosed, includes the following steps: to emit ultrasonic wave；Receive ultrasonic wave；Transmit signal；3D modeling；Virtual image conversion；Image is shown.One kind underwater virtual reality imaging system based on ultrasound of the invention and its application method utilize ultrasonic reflections to obtain the relevant information in underwater narrow environment, it is directly displayed in VR equipment, diving personnel can be effectively assisted accurately to make various judgements when taking action in water, and then diving personnel is reduced when taking action under water, the danger encountered.

Description

One kind underwater virtual reality imaging system based on ultrasound and its application method

Technical field

The invention belongs to ultrasonic measurement technical fields, specifically, being related to a kind of underwater virtual reality based on ultrasound Imaging system and its application method.

Background technique

In profound or muddy underwater narrow environment (such as solution cavity and sewers environment), due to the moisture in water body The various substances contained in son and water body all have absorption to light, therefore even if visual distance is often very short by strong light, Effective visible sensation can not be even formed, in the action such as the exploration of such as solution cavity or rescue action, diving personnel is in complicated underwater environment In due to vision limitation, underwater environment situation can not be seen clearly, be likely to encounter as collided precipice, fall hole, setting encounters water The danger such as bottom undercurrent are extremely unfavorable for the expansion of action.

Summary of the invention

Technical problem to be solved of the invention is that providing one kind is based on ultrasonic wave real-time detection underwater environment situation, And underwater environment formation virtual image is supplied to diving personnel so that diving personnel clearer can obtain underwater ring in real time The underwater virtual reality imaging system and its application method in border.

The technical solution of present invention solution above-mentioned technical problem are as follows:

A kind of underwater virtual reality imaging system based on ultrasound, including following module:

Ultrasonic transducer module, for transmitting and receiving ultrasonic wave；

Ultrasonic phase array control module is launched ultrasonic wave for controlling ultrasonic transducer module and is detected to underwater environment, And the reflected Ultrasonic transformation that ultrasonic transducer module receives is ultrasonic signal, and ultrasonic signal is transmitted；

Imaging module, for handling the ultrasonic signal transmitted from ultrasonic phase array control module, according to ultrasonic signal Carry out real-time 3D/4D image modeling and 3D/4D image reconstruction；

Virtual image module, for the 3D/4D image established or rebuild in imaging module to be converted to stereo-picture；

Display module, for show virtual image processing after the completion of stereo-picture.

Specifically, being additionally provided with following module in the imaging module:

Image enhancement module, for corresponding to and scheming in 3D/4D according to the ultrasonic signal transmitted from ultrasonic phase array control module Environment, distance, dimension information are superimposed as in.

Specifically, including following module in the image enhancement module:

Distance-measurement module, for the ultrasonic signal that foundation is transmitted from ultrasonic phase array control module, according to supersonic sounding Principle measures the distance between foreign matter and test point in water, and by corresponding data investigation into 3D/4D image；

Dimensional measurement module, for the ultrasonic signal that foundation is transmitted from ultrasonic phase array control module, according to ultrasonic Flaw Foreign matter whether there is hole and judge the size of hole in testing principle measurement water, and last corresponding data investigation is schemed to 3D/4D As in；

Water body measurement module, for according to from ultrasonic phase array control module transmit ultrasonic signal, according to Doppler at The flow direction of the principle measurement water body of picture and flow rate, the muddy degree of water body is measured according to the principle of acoustical attenuation measurement, Finally by corresponding data investigation into 3D/4D image.

Specifically, the ultrasonic transducer module is made of in the way of array arrangement at least one ultrasonic transducer.

Preferably, the display module is VR equipment.

The another technical solution of present invention solution above-mentioned technical problem are as follows:

A kind of application method for such as above-mentioned underwater virtual reality imaging system based on ultrasound, includes the following steps:

Emit ultrasonic wave, ultrasonic phase array control module controls the transmitting that ultrasonic transducer module carries out ultrasonic wave, starts ultrasound Detection；

Ultrasonic wave is received, ultrasonic wave touches and be reflected back ultrasonic transducer module by foreign matter in water, and then by ultrasonic transducer mould Block receives, and forms ultrasonic signal through ultrasonic phase array control module processing；

Signal is transmitted, ultrasonic signal is transferred to imaging module by ultrasonic phase array control module；

3D modeling, imaging module carry out real-time 3D/4D image modeling and 3D/4D image reconstruction according to ultrasonic signal, and By the 3D/4D image transmitting of foundation to virtual image module；

Virtual image conversion, virtual image module will receive 3D/4D image using VR technical principle, and being converted to can be by aobvious Show the stereo-picture that module is shown；

Image is shown, stereo-picture is transmitted in display module, is shown.

Specifically, further including following steps in the 3D modeling step:

Image enhancement, the image enhancement module in imaging module carry out the measurement of environmental parameter, and fold according to ultrasonic signal It is added on 3D/4D image.

Specifically, further including following steps in described image enhancing step:

Range measurement analyzes ultrasonic signal according to supersonic sounding principle, obtain water between foreign matter and test point away from From, and be added on 3D/4D image；

Dimensional measurement analyzes ultrasonic signal according to ultrasonic Flaw Detection principle, and obtaining foreign matter in water whether there is hole Hole, hole, then obtain the size of hole if it exists, and is added on 3D/4D image；

Water body measurement analyzes ultrasonic signal, obtains the flowing of water body according to doppler imaging principle and measurement principle of acoustic attenuation Direction, flow rate and muddy degree, and be added on 3D/4D image.

Of the invention has the advantages that the relevant information obtained in underwater narrow environment using ultrasonic reflections, Directly displayed in VR equipment, meanwhile, using virtual reality (VR) technology, make the underwater environment shown in VR equipment with can The image seen depending on eyes practical when environment includes distance, and size etc. is completely the same, so that diving personnel be made to use this When inventing the product provided, diving personnel can effectively be assisted accurately to make various judgements when taking action in water, into And when reducing diving personnel and taking action under water, the danger that is encountered.

Detailed description of the invention

Fig. 1 is a kind of structural block diagram of underwater virtual reality imaging system based on ultrasound of the present invention.

Fig. 2 is a kind of flow chart of underwater virtual reality imaging system application method based on ultrasound of the present invention.

Specific embodiment

It elaborates with reference to the accompanying drawing to the present invention.

One kind underwater virtual reality imaging system based on ultrasound of the embodiment of the present invention is as shown in Figure 1, include as follows Module:

Ultrasonic transducer module, for transmitting and receiving ultrasonic wave；Specifically, the ultrasonic transducer module is surpassed by least one Sonic transducer is constituted in the way of array arrangement, and the ultrasonic wave that ultrasonic transducer issues can be reflected back toward when touching underwater foreign matter In ultrasonic transducer, so that ultrasonic transducer be enable to receive the extraneous ultrasonic wave fed back.The battle array of ultrasonic transducer Column arrangement can be arbitrary geometric array arrangement mode, including and be not limited in one-dimensional, two-dimentional, matrix, sector, annular etc. The combination of any one or more.

Ultrasonic phase array control module is launched ultrasonic wave for controlling ultrasonic transducer module and is examined to underwater environment It surveys, and the reflected Ultrasonic transformation that ultrasonic transducer module receives is ultrasonic signal, and ultrasonic signal is passed It is defeated；Ultrasonic phase array control module is mainly to control the transmitting and reception of ultrasonic transducer module, and basic principle is ultrasonic phase Control array 1 system technology.

Imaging module, for handling the ultrasonic signal transmitted from ultrasonic phase array control module, according to ultrasound Signal carries out real-time 3D/4D image modeling and 3D/4D image reconstruction；The ultrasound that ultrasonic phase array control module is transmitted out Further include in signal ultrasonic transducer transmitting rule and receive rule, thus guarantee imaging module can according to ultrasound Real-time 3D/4D image-forming principle carries out real-time 3D/4D image modeling and 3D/4D image reconstruction to ultrasonic signal, is most starting to make Therefore used time, is for the first time 3D/4D image modeling because not retaining any 3D/4D image, later, due to the movement of diving personnel, The variation for leading to ultrasonic signal is needed to 3D/4D image reconstruction, to guarantee that 3D/4D image can be in real time with diving personnel Action and change.

The also built-in image enhancement module in imaging module, for being transmitted according to from ultrasonic phase array control module And the ultrasonic signal come, it is corresponding that environment, distance, dimension information are superimposed in 3D/4D image.In order to reach the mesh of image enhancement , include following module in image enhancement module:

Distance-measurement module, for the ultrasonic signal that foundation is transmitted from ultrasonic phase array control module, according to supersonic sounding Principle measures the distance between foreign matter and test point in water, and by corresponding data investigation into 3D/4D image；The survey of distance Amount, effectively can provide foreign matter in the water of front for diving personnel includes the various foreign matters such as precipice, organism in water and diving personnel Distance, facilitate diving personnel to evade.

Dimensional measurement module, for the ultrasonic signal that foundation is transmitted from ultrasonic phase array control module, according to ultrasound Foreign matter whether there is hole and judge the size of hole in defects detection principle measurement water, last corresponding data investigation to 3D/ In 4D image；Main function is for judging that whether hole present in foreign matter can be current for diving personnel in water, especially fits It closes and the exploration of underwater solution cavity or rescue action.

Water body measurement module, for the ultrasonic signal that foundation is transmitted from ultrasonic phase array control module, according to how general Flow direction and the flow rate for strangling the principle measurement water body of imaging, according to the muddy journey of the principle measurement water body of acoustical attenuation measurement Degree, finally by corresponding data investigation into 3D/4D image.The module mainly measures the basic condition of water body, prevents ducker Member encounters undercurrent, and when cloudiness exception, it is possible to determine that front is likely to occur abnormal conditions, needs to add to notice.

Virtual image module, for the 3D/4D image established or rebuild in imaging module to be converted to stereo-picture； It is that virtual reality (VR) technology is realized that the module, which uses, and therefore, the stereo-picture after foundation is seen with extraneous eyes substantially The institute arrived is consistent, can give a kind of intuitive visual experience of people.

Display module, for show virtual image processing after the completion of stereo-picture.Preferably, the display module is VR Equipment.In order to facilitate underwater operation, the general VR glasses for selecting waterproofing grade high, diving personnel will not influence after taking VR glasses To its activity condition.Preferably, one kind provided by the invention underwater virtual reality imaging system based on ultrasound is fully-integrated In VR glasses.

The present invention also provides a kind of application sides for such as above-mentioned underwater virtual reality imaging system based on ultrasound Method is as shown in Fig. 2, include the following steps:

Emit ultrasonic wave, ultrasonic phase array control module controls the transmitting that ultrasonic transducer module carries out ultrasonic wave, starts ultrasound Detection；

Ultrasonic wave is received, ultrasonic wave touches and be reflected back ultrasonic transducer module by foreign matter in water, and then by ultrasonic transducer mould Block receives, and forms ultrasonic signal through ultrasonic phase array control module processing；

Signal is transmitted, ultrasonic signal is transferred to imaging module by ultrasonic phase array control module；

3D modeling, imaging module carry out real-time 3D/4D image modeling and 3D/4D image reconstruction according to ultrasonic signal, and By the 3D/4D image transmitting of foundation to virtual image module；Image enhancement is further comprised in the step, in imaging module Image enhancement module carries out the measurement of environmental parameter, and be added on 3D/4D image, specifically, further including according to ultrasonic signal Following steps:

Range measurement analyzes ultrasonic signal according to supersonic sounding principle, obtain water between foreign matter and test point away from From, and be added on 3D/4D image；

Dimensional measurement analyzes ultrasonic signal according to ultrasonic Flaw Detection principle, and obtaining foreign matter in water whether there is hole Hole, hole, then obtain the size of hole if it exists, and is added on 3D/4D image；

Water body measurement analyzes ultrasonic signal, obtains the flowing of water body according to doppler imaging principle and measurement principle of acoustic attenuation Direction, flow rate and muddy degree, and be added on 3D/4D image.

Virtual image conversion, virtual image module will receive 3D/4D image using VR technical principle, and being converted to can lead to Cross the stereo-picture that display module is shown；

Image is shown, stereo-picture is transmitted in display module, is shown.

The above content is combine specific preferred embodiment to the further description done of the present invention, and it cannot be said that Specific implementation of the invention is only limited to these instructions.For those of ordinary skill in the art to which the present invention belongs, exist Under the premise of not departing from present inventive concept, a number of simple deductions or replacements can also be made, all shall be regarded as belonging to of the invention Protection scope.

Claims (8)

1. a kind of underwater virtual reality imaging system based on ultrasound, which is characterized in that including following module:

Ultrasonic transducer module, for transmitting and receiving ultrasonic wave；

Ultrasonic phase array control module is launched ultrasonic wave for controlling ultrasonic transducer module and is detected to underwater environment, And the reflected Ultrasonic transformation that ultrasonic transducer module receives is ultrasonic signal, and ultrasonic signal is transmitted；

Imaging module, for handling the ultrasonic signal transmitted from ultrasonic phase array control module, according to ultrasonic signal Carry out real-time 3D/4D image modeling and 3D/4D image reconstruction；

Virtual image module, for the 3D/4D image established or rebuild in imaging module to be converted to stereo-picture；

Display module, for show virtual image processing after the completion of stereo-picture.

2. underwater virtual reality imaging system according to claim 1, which is characterized in that in the imaging module also Equipped with following module:

Image enhancement module, for corresponding to and scheming in 3D/4D according to the ultrasonic signal transmitted from ultrasonic phase array control module Environment, distance, dimension information are superimposed as in.

3. underwater virtual reality imaging system according to claim 2, which is characterized in that wrapped in the image enhancement module Containing following module:

Distance-measurement module, for the ultrasonic signal that foundation is transmitted from ultrasonic phase array control module, according to supersonic sounding Principle measures the distance between foreign matter and test point in water, and by corresponding data investigation into 3D/4D image；

Dimensional measurement module, for the ultrasonic signal that foundation is transmitted from ultrasonic phase array control module, according to ultrasonic Flaw Foreign matter whether there is hole and judge the size of hole in testing principle measurement water, and last corresponding data investigation is schemed to 3D/4D As in；

Water body measurement module, for according to from ultrasonic phase array control module transmit ultrasonic signal, according to Doppler at The flow direction of the principle measurement water body of picture and flow rate, the muddy degree of water body is measured according to the principle of acoustical attenuation measurement, Finally by corresponding data investigation into 3D/4D image.

4. underwater virtual reality imaging system according to claim 1 to 3, it is characterised in that: the ultrasound is changed Energy device module is made of in the way of array arrangement at least one ultrasonic transducer.

5. underwater virtual reality imaging system according to claim 4, it is characterised in that: the display module sets for VR It is standby.

6. a kind of application method for underwater virtual reality imaging system based on ultrasound as described in claim 1, special Sign is, includes the following steps:

Emit ultrasonic wave, ultrasonic phase array control module controls the transmitting that ultrasonic transducer module carries out ultrasonic wave, starts ultrasound Detection；

Ultrasonic wave is received, ultrasonic wave touches and be reflected back ultrasonic transducer module by foreign matter in water, and then by ultrasonic transducer mould Block receives, and forms ultrasonic signal through ultrasonic phase array control module processing；

Signal is transmitted, ultrasonic signal is transferred to imaging module by ultrasonic phase array control module；

3D modeling, imaging module carry out real-time 3D/4D image modeling and 3D/4D image reconstruction according to ultrasonic signal, and By the 3D/4D image transmitting of foundation to virtual image module；

Virtual image conversion, virtual image module will receive 3D/4D image using VR technical principle, and being converted to can be by aobvious Show the stereo-picture that module is shown；

Image is shown, stereo-picture is transmitted in display module, is shown.

7. application method according to claim 6, which is characterized in that further include following steps in the 3D modeling step:

Image enhancement, the image enhancement module in imaging module carry out the measurement of environmental parameter, and fold according to ultrasonic signal It is added on 3D/4D image.

8. application method according to claim 7, which is characterized in that described image enhances in step, further includes walking as follows It is rapid:

Range measurement analyzes ultrasonic signal according to supersonic sounding principle, obtain water between foreign matter and test point away from From, and be added on 3D/4D image；

Dimensional measurement analyzes ultrasonic signal according to ultrasonic Flaw Detection principle, and obtaining foreign matter in water whether there is hole Hole, hole, then obtain the size of hole if it exists, and is added on 3D/4D image；

Water body measurement analyzes ultrasonic signal, obtains the flowing of water body according to doppler imaging principle and measurement principle of acoustic attenuation Direction, flow rate and muddy degree, and be added on 3D/4D image.