CN102783971A - Method and device for displaying multiple ultrasound patterns as well as ultrasound equipment - Google Patents
Method and device for displaying multiple ultrasound patterns as well as ultrasound equipment Download PDFInfo
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- CN102783971A CN102783971A CN2012102804997A CN201210280499A CN102783971A CN 102783971 A CN102783971 A CN 102783971A CN 2012102804997 A CN2012102804997 A CN 2012102804997A CN 201210280499 A CN201210280499 A CN 201210280499A CN 102783971 A CN102783971 A CN 102783971A
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Abstract
The embodiment of the invention provides a method and a device for displaying multiple ultrasound patterns and ultrasound equipment, so as to improve the value of the ultrasound patterns in clinical diagnosis. The method comprises the following steps of: respectively generating n parameter lists for n ultrasound patterns; correspondingly processing ultrasound pattern data obtained by an ultrasound front-end unit into n displayable ultrasound patterns according to imaging parameters of each parameter list in the n parameter lists and storing ultrasound pattern data corresponding to the n processed ultrasound patterns into n storage units; and taking out the ultrasound pattern data corresponding to the n processed ultrasound patterns from the n storage units and respectively displaying the n ultrasound patterns on n display areas partitioned on an ultrasound pattern area. The method provided by the embodiment of the invention is capable of independently regulating the imaging parameter corresponding to each ultrasound pattern, so that diagnostic information with better clinical value than diagnostic information obtained by a method of regulating the shared imaging parameter can be obtained, and the clinical diagnosis accuracy of medical care personnel can be improved.
Description
Technical field
The present invention relates to the medical imaging field, relate in particular to several ultrasound pattern display methods, device and a kind of ultrasonic device.
Background technology
Along with the development of display device technology, multiple image is presented at have been become a kind of comparatively mature technique and has been applied to every field on the same display device.In the medical imaging field, the sufferer image information that the medical equipment front end is obtained adopts the form of several ultrasonoscopys to be presented on the same display terminal of this medical equipment rear end, and for example liquid crystal display has the important clinical meaning.So-called several ultrasonoscopys that on same display terminal, show are meant in the display screen of medical equipment (for example, Ultrasound Instrument etc.) to show the ultrasonoscopy that obtains under several different conditions simultaneously.The clinical value that shows several ultrasonoscopys is and can the ultrasonoscopy that multiple different conditions obtains be down compared, and to the clinical medical and nursing personnel more relevant diagnosis information is provided, and helps it to make diagnosis more accurately.
A kind of several ultrasound pattern display methods that prior art provides are: being taken to rare a kind of scan pattern is that identical scan pattern obtains several ultrasonoscopys, then, the multiple image that obtains under this scan pattern is presented on the display screen.For example; For showing two width of cloth ultrasonoscopys, if having at least a kind of scan pattern identical, then possibly be: a width of cloth ultrasonoscopy is to adopt the B pattern to obtain; Another width of cloth ultrasonoscopy also is to adopt the B pattern to obtain; Perhaps, a width of cloth ultrasonoscopy is to adopt the B pattern to obtain, and another width of cloth ultrasonoscopy is to adopt B pattern+CFM pattern to obtain.Several ultrasound pattern display methods that above-mentioned prior art provides, it is dynamic show state that a width of cloth wherein can only be arranged, other width of cloth images are non real-time static history image interface; Can't accomplish that two width of cloth ultrasonoscopys all are to be in dynamic show state.
This case inventor finds; In several ultrasound pattern display methods that above-mentioned prior art provides; Because same a kind of imaging parameters of all ultrasonoscopys is all shared by each width of cloth ultrasonoscopy, and all ultrasonoscopys have only a shared ultrasound image data spatial cache.So, for a kind of imaging parameters, can only be to have an effect simultaneously if need regulate, can't accomplish the separate adjusting of parameter of several ultrasonoscopys; For shared same ultrasound image data spatial cache; The new ultrasound image data that the pairing view data buffer memory of ultrasonoscopy in frozen state zone will be in thawed state ultrasonoscopy district covers, and can't dynamically show simultaneously by several ultrasonoscopys of way.Yet in most cases, the ultrasonoscopy of some difficult miscellaneous diseases particularly, through the independent regulation imaging parameters, the diagnostic message of acquisition will be abundanter, and its clinical meaning is often greater than through regulating the clinical meaning of sharing the diagnostic message that imaging parameters obtains.In other words, owing to can't carry out independent regulation respectively to the imaging parameters of every width of cloth image, therefore, several ultrasound pattern display methods that prior art provides are unfavorable for clinical practice.
Summary of the invention
The embodiment of the invention provides several ultrasound pattern display methods, device and a kind of ultrasonic device, to improve the value of ultrasonoscopy to clinical diagnosis.
The embodiment of the invention provides a kind of several ultrasound pattern display methods, and said method comprises:
For n width of cloth ultrasonoscopy generates n parameter list respectively, said n is the natural number more than or equal to 1;
Imaging parameters according to each parameter list in the said n parameter list; The ultrasound image data correspondence that ultrasonic front end unit is obtained is processed into displayable n width of cloth ultrasonoscopy and the ultrasound image data that the n width of cloth ultrasonoscopy after the said processing is corresponding is stored in n memory element, and each memory element in the said n memory element is corresponding with each width of cloth ultrasonoscopy in the said n width of cloth ultrasonoscopy;
Take out the corresponding ultrasound image data of n width of cloth ultrasonoscopy after the said processing and n the viewing area of dividing in the ultrasonoscopy district shows said n width of cloth ultrasonoscopy respectively from a said n memory element; N viewing area dividing in the said ultrasonoscopy district is corresponding with each width of cloth ultrasonoscopy in the said n width of cloth ultrasonoscopy, and each parameter list in the said n parameter list is to being applied to control each viewing area of a said n viewing area.
The embodiment of the invention provides a kind of several ultrasonoscopy display devices, and said device comprises:
The parameter list generation module is used to n width of cloth ultrasonoscopy and generates n parameter list respectively, and said n is the natural number more than or equal to 1;
Image processing module; Be used for imaging parameters according to said n each parameter list of parameter list; The ultrasound image data correspondence that ultrasonic front end unit is obtained is processed into displayable n width of cloth ultrasonoscopy and the ultrasound image data that the n width of cloth ultrasonoscopy after the said processing is corresponding is stored in n memory element, and each memory element in the said n memory element is corresponding with each width of cloth ultrasonoscopy in the said n width of cloth ultrasonoscopy;
Image display; Be used for taking out the corresponding ultrasound image data of n width of cloth ultrasonoscopy after the said processing and n the viewing area of dividing in the ultrasonoscopy district shows said n width of cloth ultrasonoscopy respectively from a said n memory element; N viewing area dividing in the said ultrasonoscopy district is corresponding with each width of cloth ultrasonoscopy in the said n width of cloth ultrasonoscopy takes out the corresponding ultrasound image data of n width of cloth ultrasonoscopy after the said processing and n the viewing area of dividing in the ultrasonoscopy district shows said n width of cloth ultrasonoscopy respectively from a said n memory element; N viewing area dividing in the said ultrasonoscopy district is corresponding with each width of cloth ultrasonoscopy in the said n width of cloth ultrasonoscopy, and each parameter list in the said n parameter list is to being applied to control each viewing area of a said n viewing area.
The embodiment of the invention also provides a kind of ultrasonic device, and this ultrasonic device comprises several ultrasonoscopy display devices that the foregoing description provides.
Can know from the invention described above embodiment; Because n width of cloth ultrasonoscopy has generated n parameter list respectively; Be that each parameter list in n the parameter list is to being applied to control each width of cloth ultrasonoscopy in the said n width of cloth ultrasonoscopy; The ultrasound image data correspondence is being processed into displayable n width of cloth ultrasonoscopy and with the n width of cloth ultrasonoscopy after the said processing after corresponding ultrasound image data is stored in n memory element, the n that in the ultrasonoscopy district, a divides viewing area shows said n width of cloth ultrasonoscopy respectively.Compare with all sharing of all ultrasonoscopys in the prior art by each width of cloth ultrasonoscopy with a kind of imaging parameters; The method that the embodiment of the invention provides can independent regulation the corresponding imaging parameters of each width of cloth ultrasonoscopy; Therefore can obtain the diagnostic message of obtaining than the shared imaging parameters of adjusting more has the diagnostic message of clinical value, has improved the accuracy of medical personnel's clinical diagnosises.
Description of drawings
In order to be illustrated more clearly in the technical scheme of the embodiment of the invention; To do to introduce simply to the accompanying drawing of required use in prior art or the embodiment description below; Obviously; Accompanying drawing in describing below only is some embodiments of the present invention, to those skilled in the art, can also obtain other accompanying drawing like these accompanying drawings.
Fig. 1 is several ultrasound pattern display method schematic flow sheets that the embodiment of the invention provides;
Fig. 2 be the embodiment of the invention provide show the Stored Procedure sketch map of ultrasonoscopy at place an order real-time double width of uniplane transducer working condition;
Fig. 3 be the embodiment of the invention provide show the flow for displaying sketch map of ultrasonoscopy at place an order real-time double width of uniplane transducer working condition;
Fig. 4 is the Stored Procedure sketch map that two double widths in real time that another embodiment of the present invention provides show ultrasonoscopys;
Fig. 5 is the flow for displaying sketch map that two double widths in real time that another embodiment of the present invention provides show ultrasonoscopys;
Fig. 6 is several ultrasonoscopy display device structure sketch maps that the embodiment of the invention provides;
Fig. 7 is several ultrasonoscopy display device structure sketch maps that another embodiment of the present invention provides;
Fig. 8 is several ultrasonoscopy display device structure sketch maps that another embodiment of the present invention provides;
Fig. 9 is several ultrasonoscopy display device structure sketch maps that another embodiment of the present invention provides;
Figure 10 is several ultrasonoscopy display device structure sketch maps that another embodiment of the present invention provides;
Figure 11 is several ultrasonoscopy display device structure sketch maps that another embodiment of the present invention provides;
Figure 12 a is several ultrasonoscopy display device structure sketch maps that another embodiment of the present invention provides;
Figure 12 b is several ultrasonoscopy display device structure sketch maps that another embodiment of the present invention provides;
Figure 12 c is several ultrasonoscopy display device structure sketch maps that another embodiment of the present invention provides;
Figure 12 d is several ultrasonoscopy display device structure sketch maps that another embodiment of the present invention provides;
Figure 12 e is several ultrasonoscopy display device structure sketch maps that another embodiment of the present invention provides.
The specific embodiment
To combine the accompanying drawing in the embodiment of the invention below, the technical scheme in the embodiment of the invention is carried out clear, intactly description, obviously, described embodiment only is the present invention's part embodiment, rather than whole embodiment.Based on the embodiment among the present invention, the every other embodiment that those skilled in the art obtained belongs to the scope that the present invention protects.
Seeing also accompanying drawing 1, is several ultrasound pattern display method schematic flow sheets that the embodiment of the invention provides, and mainly comprises step S101, step S102 and step S103:
S101, for n width of cloth ultrasonoscopy generates n parameter list respectively, said n is the natural number more than or equal to 1.
S102; Imaging parameters according to each parameter list in the said n parameter list; The ultrasound image data correspondence that ultrasonic front end unit is obtained is processed into displayable n width of cloth ultrasonoscopy and the ultrasound image data that the n width of cloth ultrasonoscopy after the said processing is corresponding is stored in n memory element, and each memory element in the said n memory element is corresponding with each width of cloth ultrasonoscopy in the said n width of cloth ultrasonoscopy.
In embodiments of the present invention; Ultrasonic front end unit is a functional module of being made up of ultrasonic probe, radiating circuit, receiving circuit and front-end control unit etc. in the Ultrasound Instrument; Its with the imaging parameters in the parameter list that receives as running parameter; Main completion ultrasonic emitting, ultrasound wave reception and the ultrasonic signal be responsible for handled or the like, and the ultrasound image signal that forms behind the signal processing is sent to next stage processing unit, for example graphics processing unit.And graphics processing unit receives the original ultrasound image data from ultrasonic front end unit; Imaging parameters with each parameter list in n the parameter list is the Flame Image Process parameter; According to the imaging parameters of each parameter list in the said n parameter list and according to certain Flame Image Process flow process, algorithm; The ultrasound image data correspondence that ultrasonic front end unit is obtained is processed into displayable n width of cloth ultrasonoscopy; Meanwhile, the corresponding ultrasound image data of n width of cloth ultrasonoscopy after this processing is stored in n memory element.In embodiments of the present invention, each memory element in the said n memory element is corresponding with each width of cloth ultrasonoscopy in the said n width of cloth ultrasonoscopy, is used for storing the pairing ultrasound image data of said each width of cloth ultrasonoscopy of n width of cloth ultrasonoscopy.Because n width of cloth ultrasound image data is enjoyed separately independently image data storage space, therefore, n width of cloth ultrasonoscopy can dynamically show, can provide more convenience for clinical diagnosis.
S103; Take out the corresponding ultrasound image data of n width of cloth ultrasonoscopy after the said processing and n the viewing area of dividing in the ultrasonoscopy district shows said n width of cloth ultrasonoscopy respectively from a said n memory element; N viewing area dividing in the said ultrasonoscopy district is corresponding with each width of cloth ultrasonoscopy in the said n width of cloth ultrasonoscopy, and each parameter list in the said n parameter list is to being applied to control each viewing area of a said n viewing area.
In embodiments of the present invention; It is corresponding with it that n viewing area generated n parameter list respectively, the imaging parameters in the said parameter list comprise the ultrasonoscopy district scan pattern, launch hyperacoustic parameter, the parameter that receives ultrasonic echo, subsequent image processing parameter and to influential other parameters of final ultra sonic imaging performance or the like.All shared differently by each width of cloth ultrasonoscopy with same a kind of imaging parameters of all ultrasonoscopys in the prior art, in embodiments of the present invention, each parameter list in n parameter list is to being applied to control each viewing area of a said n viewing area; The n that divides in a ultrasonoscopy district viewing area is corresponding with each width of cloth ultrasonoscopy in the said n width of cloth ultrasonoscopy to be that n the viewing area of dividing in the ultrasonoscopy district is respectively applied for each width of cloth ultrasonoscopy that shows in the said n width of cloth ultrasonoscopy.Because each parameter list in n parameter list is to being applied to control each viewing area of a said n viewing area; Therefore; When the imaging parameters that any parameter list comprises in to n parameter list is regulated, all do not influence other parameter lists in n the parameter list, promptly in embodiments of the present invention; For each parameter list in n the parameter list, its adjusting is all independently carried out.
Need to prove; Imaging parameters in n parameter list in each parameter list except the scan pattern that comprises the ultrasonoscopy district, launch hyperacoustic parameter, the parameter that receives ultrasonic echo, subsequent image processing parameter and to influential other parameters of final ultra sonic imaging performance; Can further include the cineloop that freezes to enable under parameter and the frozen state in the viewing area and enable parameter or the like; These viewing areas freeze to enable parameter and cineloop enables the show state that parameter is used to control a said n viewing area; Wherein, show state comprises frozen state and thawed state.Under frozen state, can staticly show single frames ultrasonoscopy and cineloop multiframe ultrasonoscopy; Under thawed state; Can show the multiframe ultrasonoscopy in real time, and cineloop multiframe ultrasonoscopy shows that with real-time the multiframe ultrasonoscopy all is a kind of mode of dynamic demonstration ultrasonoscopy.
In embodiments of the present invention; Take out the corresponding ultrasound image data of n width of cloth ultrasonoscopy after the said processing and before n the viewing area that the ultrasonoscopy district divides shows said n width of cloth ultrasonoscopy respectively from a said n memory element; May further include: freeze to enable parameter according to said viewing area; At least one viewing area in the said n viewing area is set to frozen state; For example, a viewing area in the said n viewing area is set to frozen state, and all the other n-1 viewing area is set to thawed state; A viewing area in the said n viewing area is set to thawed state, and all the other n-1 viewing area is set to frozen state; Perhaps, a said n viewing area all is set to frozen state or the like.
Take out the corresponding ultrasound image data of n width of cloth ultrasonoscopy after the said processing and before n the viewing area that the ultrasonoscopy district divides shows said n width of cloth ultrasonoscopy respectively from a said n memory element; Freeze to enable at least one viewing area in the said n of the parameter viewing area when being set to frozen state according to said viewing area; As an embodiment under this situation; Take out the corresponding ultrasound image data of n width of cloth ultrasonoscopy after the said processing and n the viewing area of dividing in the ultrasonoscopy district shows that respectively said n width of cloth ultrasonoscopy comprises from a said n memory element: freeze to enable parameter according to said viewing area; A viewing area in the said n viewing area is set to frozen state; All the other n-1 viewing area is set to thawed state; Show n-1 width of cloth ultrasonoscopy respectively in real time in said n-1 the viewing area that is set to thawed state, the ultrasonoscopy (i.e. a width of cloth ultrasonoscopy) that said ultrasound image data is corresponding is shown in the said viewing area (i.e. viewing area) that is set to frozen state behind memory element (i.e. memory element) the taking-up ultrasound image data corresponding with the said viewing area (i.e. viewing area) that is set to frozen state.
Take out the corresponding ultrasound image data of n width of cloth ultrasonoscopy after the said processing and before n the viewing area that the ultrasonoscopy district divides shows said n width of cloth ultrasonoscopy respectively from a said n memory element; Freeze to enable at least one viewing area in the said n of the parameter viewing area when being set to frozen state according to said viewing area; As another embodiment under this situation; Take out the corresponding ultrasound image data of n width of cloth ultrasonoscopy after the said processing and n the viewing area of dividing in the ultrasonoscopy district shows that respectively said n width of cloth ultrasonoscopy comprises from a said n memory element: freeze to enable parameter according to said viewing area; A viewing area in the said n viewing area is set to thawed state; All the other n-1 viewing area is set to frozen state; Show ultrasonoscopy (i.e. a width of cloth ultrasonoscopy) in real time in the said viewing area (i.e. viewing area) that is set to thawed state, take out behind the corresponding ultrasound image data of the n-1 width of cloth ultrasonoscopy viewing area that said n-1 width of cloth ultrasonoscopy is shown in the said n-1 of a being set to frozen state respectively from n-1 the memory element corresponding with said n-1 the viewing area that is set to frozen state.
Take out the corresponding ultrasound image data of n width of cloth ultrasonoscopy after the said processing and before n the viewing area that the ultrasonoscopy district divides shows said n width of cloth ultrasonoscopy respectively from a said n memory element; Freeze to enable at least one viewing area in the said n of the parameter viewing area when being set to frozen state according to said viewing area; As the embodiment again under this situation; Take out the corresponding ultrasound image data of n width of cloth ultrasonoscopy after the said processing and n the viewing area of dividing in the ultrasonoscopy district shows that respectively said n width of cloth ultrasonoscopy comprises from a said n memory element: freeze to enable parameter according to said viewing area; A said n viewing area all is set to frozen state, takes out behind the corresponding ultrasound image data of the n width of cloth ultrasonoscopy viewing area that said n width of cloth ultrasonoscopy is shown in the said n of a being set to frozen state respectively from n the memory element corresponding with said n the viewing area that is set to frozen state.
In embodiments of the present invention; Take out the corresponding ultrasound image data of n width of cloth ultrasonoscopy after the said processing and before n the viewing area that the ultrasonoscopy district divides shows said n width of cloth ultrasonoscopy respectively from a said n memory element; May further include: freeze to enable parameter according to said viewing area; A said n viewing area is set to a kind of show state, and for example, a said n viewing area all is set to thawed state; Perhaps, a said n viewing area all is set to frozen state etc.
Take out the corresponding ultrasound image data of n width of cloth ultrasonoscopy after the said processing and before n the viewing area that the ultrasonoscopy district divides shows said n width of cloth ultrasonoscopy respectively from a said n memory element; Freeze to enable the said n of a parameter viewing area when being set to according to said viewing area with a kind of show state; As an embodiment under this situation; Take out the corresponding ultrasound image data of n width of cloth ultrasonoscopy after the said processing and n the viewing area of dividing in the ultrasonoscopy district shows that respectively said n width of cloth ultrasonoscopy comprises from a said n memory element: freeze to enable parameter according to said viewing area; A said n viewing area all is set to thawed state, shows said n width of cloth ultrasonoscopy in real time in said n the viewing area that is set to thawed state.
Take out the corresponding ultrasound image data of n width of cloth ultrasonoscopy after the said processing and before n the viewing area that the ultrasonoscopy district divides shows said n width of cloth ultrasonoscopy respectively from a said n memory element; Freeze to enable the said n of a parameter viewing area when being set to according to said viewing area with a kind of show state; As another embodiment under this situation; Take out the corresponding ultrasound image data of n width of cloth ultrasonoscopy after the said processing and n the viewing area of dividing in the ultrasonoscopy district shows that respectively said n width of cloth ultrasonoscopy comprises from a said n memory element: freeze to enable parameter according to said viewing area; A said n viewing area all is set to frozen state, takes out behind the corresponding ultrasound image data of the n width of cloth ultrasonoscopy viewing area that said n width of cloth ultrasonoscopy is shown in the said n of a being set to frozen state respectively from n the memory element corresponding with said n the viewing area that is set to frozen state.
In the above-described embodiments; For the viewing area that is set to frozen state; Can also enable parameter according to the cineloop under the frozen state from taking out ultrasound image data, carry out the said ultrasonoscopy of cineloop with the said corresponding memory element in viewing area that is set to frozen state.The cineloop ultrasonoscopy is a kind of mode that dynamically shows ultrasonoscopy.Specifically be meant under the viewing area is set to frozen state; Take out successive some frame ultrasonoscopys from the circulation of ultrasonoscopy memory space and carry out the playback cycle demonstration; With the viewing area is that dynamic real-time under the thawed state shows that ultrasonoscopy compares; It is not to show ultrasonoscopy in real time, but dynamically shows the stored historical ultrasonoscopy.In the ultrasound medicine field, can let real-time collection one width of cloth ultrasonoscopy, let the viewing area freeze then, this width of cloth ultrasonoscopy of cineloop, meanwhile, the ultrasonoscopy that lets an other width of cloth gather in real time dynamically shows.Like this, two width of cloth images all are dynamic demonstrations, help clinical diagnosis.In addition, also can let two width of cloth ultrasonoscopys all cineloop show that dynamically this two width of cloth ultrasonoscopy relatively is convenient to medical personnel and is obtained more clinical diagnosis information, helps clinical diagnosis.
Can know from several ultrasound pattern display methods that the invention described above embodiment provides; Because n width of cloth ultrasonoscopy has generated n parameter list respectively; Be that each parameter list in n the parameter list is to being applied to control each width of cloth ultrasonoscopy in the said n width of cloth ultrasonoscopy; The ultrasound image data correspondence is being processed into displayable n width of cloth ultrasonoscopy and with the n width of cloth ultrasonoscopy after the said processing after corresponding ultrasound image data is stored in n memory element, the n that in the ultrasonoscopy district, a divides viewing area shows said n width of cloth ultrasonoscopy respectively.Compare with all sharing of all ultrasonoscopys in the prior art by each width of cloth ultrasonoscopy with a kind of imaging parameters; The method that the embodiment of the invention provides can independent regulation the corresponding imaging parameters of each width of cloth ultrasonoscopy; And; Because n width of cloth ultrasound image data is enjoyed separately independently image data storage space; N width of cloth ultrasonoscopy can dynamically show, therefore can obtain the diagnostic message that the diagnostic message of obtaining than the shared imaging parameters of adjusting more has clinical value, has improved the accuracy of medical personnel's clinical diagnosises.
Thinking below that 2 width of cloth ultrasonoscopys generate respectively is divided in 2 parameter lists, the ultrasonoscopy district that the corresponding ultrasound image data in 2 viewing areas, 2 width of cloth ultrasonoscopys is stored in 2 memory element and 2 viewing areas in the ultrasonoscopy district, dividing show that respectively 2 width of cloth ultrasonoscopys are example; Through two concrete embodiment, specify several ultrasound pattern display methods that the embodiment of the invention provides.
The previous work that two embodiment all need carry out at first is described, is comprised S1, S2 and S3, particularly:
S1, the ultrasonoscopy zoning is divided into two viewing areas, i.e. and viewing area A1 and viewing area A2 distribute about these two viewing areas can be set to, and also can be set to distribute up and down, and its area can equate, also can be unequal; In the present embodiment, the whole ultrasonoscopy district resolution sizes of regulation is the 512x512 pixel, distributes about the double width demonstration is, and its resolution is respectively the 512x256 pixel;
S2; Be respectively viewing area A1 and viewing area A2 distributing independent memory element; Be memory element B1 and memory element B2, wherein, memory element B1 deposits the corresponding ultrasound image data of ultrasonoscopy that the A1 in the viewing area is shown; Memory element B2 deposits the corresponding ultrasound image data of ultrasonoscopy that the A2 in the viewing area is shown, and the size of each memory element depends on storable scan pattern, maximum frame number, image size and single-point view data bit wide; In this case study on implementation, the scan pattern that each viewing area allows is B pattern, CFM pattern, and the maximum frame number of the storage of every width of cloth ultrasonoscopy is made as 1000, and every width of cloth ultrasonoscopy size is made as the 512x256 pixel;
S3; Be respectively viewing area A1 and viewing area A2 and generate independently two parameter lists; Be parameter list C1 and parameter list C2; Wherein, The ultra sonic imaging that parameter list C1 is used to viewing area A1 provides running parameter, and the ultra sonic imaging that parameter list C2 is used to viewing area A1 provides running parameter, the imaging parameters in each parameter list include this ultrasonoscopy district scan pattern, launch hyperacoustic parameter, receive the parameter, subsequent image processing parameter of ultrasonic echo and influential other parameters of final ultra sonic imaging performance or the like.
See also accompanying drawing 2, be the embodiment of the invention provide show the Stored Procedure sketch map of ultrasonoscopy at place an order real-time double width of uniplane transducer working condition.Wherein, Uniplane transducer refers to the ultrasonic probe that has only one group of array element array and once can only carry out the ultra sonic imaging of a scanning tangent plane; And single double width in real time shows that ultrasonoscopy is meant that the viewing area (being viewing area A1 and viewing area A2) that is used to show two width of cloth ultrasonoscopys can only have one of them to be in real time operation state (being thawed state) at most; To store into from the ultrasound image data of ultrasonic front end unit in the corresponding memory element in the viewing area that is in the real time operation state, and another content that is in the corresponding memory element in the viewing area of non real-time state (being frozen state) remains unchanged.The example of accompanying drawing 2 comprises step S201 to step S211, specifies as follows:
Step S201, the user selects to be in the viewing area of thawed state.
The viewing area that is in thawed state possibly be viewing area A1, also possibly be viewing area A2, also might not be in thawed state.
Step S202 judges whether viewing area A1 is frozen state.
If the show state of viewing area A1 is set to frozen state, then flow process changes step S206 over to, otherwise, get into step S203.
Step S203 keeps the content of memory element B2 storage constant.Because the show state of viewing area A1 is set to thawed state, then show the definition of ultrasonoscopy according to single double width in real time, the show state of viewing area A2 is forced and is set to frozen state, i.e. and the content of memory element B2 storage remains unchanged.At this moment, can regulate and deposit in parameter list C1 to the imaging parameters that comprises among the viewing area A1 corresponding parameters tabulation C1, this operation does not constitute any influence to viewing area A2 corresponding parameters tabulation C2 yet.
Step S204, viewing area A1 shows the ultrasonoscopy that obtains in real time.
With the imaging parameters among the parameter list C1 is that running parameter carries out ultrasonoscopy scanning, and viewing area A1 shows the ultrasonoscopy that obtains in real time.
Step S205, updated stored unit B 1.
Be about to the corresponding ultrasound image data of ultrasonoscopy that obtains in real time that A1 shows in the viewing area and store memory element B1 into.
Step S206 judges whether viewing area A2 is frozen state.
If the show state of viewing area A2 is set to frozen state, then flow process changes step S210 and step S211 over to, otherwise, get into step S207.
Step S207 keeps the content of memory element B1 storage constant.
Because the show state of viewing area A2 is set to thawed state, then show the definition of ultrasonoscopy according to single double width in real time, the show state of viewing area A1 is forced and is set to frozen state, i.e. and the content of memory element B1 storage remains unchanged.At this moment, can regulate and deposit in parameter list C2 to the imaging parameters that comprises among the viewing area A2 corresponding parameters tabulation C2, this operation does not constitute any influence to viewing area A1 corresponding parameters tabulation C1 yet.
Step S208, viewing area A2 shows the ultrasonoscopy that obtains in real time.
With the imaging parameters among the parameter list C2 is that running parameter carries out ultrasonoscopy scanning, and viewing area A2 shows the ultrasonoscopy that obtains in real time.
Step S209, updated stored unit B 2.
Be about to the corresponding ultrasound image data of ultrasonoscopy that obtains in real time that A2 shows in the viewing area and store memory element B2 into.
Step S210 keeps the content of memory element B1 storage constant.
This is because viewing area A1 is set to frozen state.
Step S211 keeps the content of memory element B2 storage constant.
This is because viewing area A2 is set to frozen state.
Please continue to consult accompanying drawing 3, be the embodiment of the invention provide show and the flow for displaying sketch map of ultrasonoscopy comprise that step S301 to step S317, explains as follows at place an order real-time double width of uniplane transducer working condition:
Step S301, the user selects to be in the viewing area of thawed state.
The viewing area that is in thawed state possibly be viewing area A1, also possibly be viewing area A2, also possibly not be in thawed state in two viewing areas.
Step S302 judges whether viewing area A1 is thawed state.
If the show state of viewing area A1 is set to thawed state, then flow process changes step S310 and step S311 over to, otherwise, get into step S303.
Step S303 judges whether viewing area A2 is thawed state.
If the show state of viewing area A2 is set to thawed state, then flow process changes step S314 and step S315 over to, otherwise, get into step S304 and step S307.
Step S304 determines whether the A1 cineloop ultrasonoscopy in the viewing area.
Because this moment, viewing area A1 and viewing area A2 all were set to frozen state, therefore, viewing area A1 and viewing area A2 can carry out the cineloop ultrasonoscopy.If confirm the A1 cineloop ultrasonoscopy in the viewing area, then flow process changes step S306 over to, otherwise, get into step S305.
Step S305, the static ultrasonoscopy that shows.
Promptly take out the corresponding ultrasound image data of ultrasonoscopy from the memory element B1 corresponding with viewing area A1, A1 carries out the said ultrasonoscopy of the static demonstration of single frames in the viewing area.
Step S306, the cineloop ultrasonoscopy.
Promptly take out the corresponding ultrasound image data of multiframe ultrasonoscopy from the memory element B1 circulation corresponding with viewing area A1, the A1 circulation shows said multiframe ultrasonoscopy in the viewing area.
Step S307 determines whether the A2 cineloop ultrasonoscopy in the viewing area.
Because this moment, viewing area A1 and viewing area A2 all were set to frozen state, therefore, viewing area A1 and viewing area A2 can carry out the cineloop ultrasonoscopy.If confirm the A2 cineloop ultrasonoscopy in the viewing area, then flow process changes step S309 over to, otherwise, get into step S308.
Step S308, the static ultrasonoscopy that shows.
Promptly take out the corresponding ultrasound image data of ultrasonoscopy from the memory element B2 corresponding with viewing area A2, A2 carries out the said ultrasonoscopy of the static demonstration of single frames in the viewing area.
Step S309, the cineloop ultrasonoscopy.
Promptly take out the corresponding ultrasound image data of multiframe ultrasonoscopy from the memory element B2 circulation corresponding with viewing area A2, the A2 circulation shows said multiframe ultrasonoscopy in the viewing area.
Step S310, viewing area A1 shows the ultrasonoscopy that obtains in real time.
Because viewing area A1 is set to thawed state at this moment, therefore, can show the ultrasonoscopy that obtains in real time by A1 in the viewing area.
Step S311 determines whether the A2 cineloop ultrasonoscopy in the viewing area.
Because this moment, viewing area A2 was set to frozen state, therefore, viewing area A2 can carry out the cineloop ultrasonoscopy.If confirm the A2 cineloop ultrasonoscopy in the viewing area, then flow process changes step S313 over to, otherwise, get into step S312.
Step S312, the static ultrasonoscopy that shows.
Promptly take out the corresponding ultrasound image data of ultrasonoscopy from the memory element B2 corresponding with viewing area A2, A2 carries out the said ultrasonoscopy of the static demonstration of single frames in the viewing area.
Step S313, the cineloop ultrasonoscopy.
Promptly take out the corresponding ultrasound image data of multiframe ultrasonoscopy from the memory element B2 circulation corresponding with viewing area A2, the A2 circulation shows said multiframe ultrasonoscopy in the viewing area.
Step S314, viewing area A2 shows the ultrasonoscopy that obtains in real time.
Because viewing area A2 is set to thawed state at this moment, therefore, can show the ultrasonoscopy that obtains in real time by A2 in the viewing area.
Step S315 determines whether the A1 cineloop ultrasonoscopy in the viewing area.
Because this moment, viewing area A1 was set to frozen state, therefore, viewing area A1 can carry out the cineloop ultrasonoscopy.If confirm the A1 cineloop ultrasonoscopy in the viewing area, then flow process changes step S317 over to, otherwise, get into step S316.
Step S316, the static ultrasonoscopy that shows.
Promptly take out the corresponding ultrasound image data of ultrasonoscopy from the memory element B1 corresponding with viewing area A1, A1 carries out the said ultrasonoscopy of the static demonstration of single frames in the viewing area.
Step S317, the cineloop ultrasonoscopy.
Promptly take out the corresponding ultrasound image data of multiframe ultrasonoscopy from the memory element B1 circulation corresponding with viewing area A1, the A1 circulation shows said multiframe ultrasonoscopy in the viewing area.
Seeing also accompanying drawing 4, is the Stored Procedure sketch map that two double widths in real time that another embodiment of the present invention provides show ultrasonoscopys.So-called two double width in real time shows ultrasonoscopy; Be meant that the viewing area (being viewing area A1 and viewing area A2) that is used to show two width of cloth ultrasonoscopys both can be in real time operation state (being thawed state) simultaneously, can be in non real-time state (being frozen state) again simultaneously.The example of accompanying drawing 4 comprises step S401 to step S407, specifies as follows:
Step S401, user select the show state of viewing area.
According to the definition of two real-time double widths demonstration ultrasonoscopys, it can only be that viewing area A1 and viewing area A2 are thawed states or are frozen state that the user selects the show state of viewing area.
Step S402 judges whether viewing area A1 and viewing area A2 are thawed state.
If the show state of viewing area A1 and viewing area A2 all is set to thawed state, then flow process changes step S404 and step S406 over to, otherwise, get into step S403.
Step S403 keeps memory element B 1 constant with the content of memory element B2 storage.
Because the show state of viewing area A1 and viewing area A2 all is set to frozen state, so the content of memory element B1 and memory element B2 storage is constant.
Step S404, viewing area A1 shows the ultrasonoscopy that obtains in real time.
With the imaging parameters among the parameter list C1 is that running parameter carries out ultrasonoscopy scanning, and viewing area A1 shows the ultrasonoscopy that obtains in real time.At this moment, can regulate and deposit in parameter list C2 to the imaging parameters that comprises among the viewing area A2 corresponding parameters tabulation C2, this operation does not constitute any influence to viewing area A1 corresponding parameters tabulation C1 yet.
Step S405, updated stored unit B 1.
That is, will be in the viewing area the corresponding ultrasound image data of ultrasonoscopy that obtains in real time that shows of A1 store memory element B1 into.
Step S406, viewing area A2 shows the ultrasonoscopy that obtains in real time.
With the imaging parameters among the parameter list C2 is that running parameter carries out ultrasonoscopy scanning, and viewing area A2 shows the ultrasonoscopy that obtains in real time.At this moment, can regulate and deposit in parameter list C1 to the imaging parameters that comprises among the viewing area A1 corresponding parameters tabulation C1, this operation does not constitute any influence to viewing area A2 corresponding parameters tabulation C2 yet.
Step S407, updated stored unit B 2.
That is, will be in the viewing area the corresponding ultrasound image data of ultrasonoscopy that obtains in real time that shows of A2 store memory element B2 into.
Please continue to consult accompanying drawing 5, be the flow for displaying sketch map that two double widths in real time that another embodiment of the present invention provides show ultrasonoscopys, comprises that step S501 to step S510, explains as follows:
Step S501, user select the show state of viewing area.
According to the definition of two real-time double widths demonstration ultrasonoscopys, it can only be that viewing area A1 and viewing area A2 are thawed states or are frozen state that the user selects the show state of viewing area.
Step S502, whether what judge viewing area A1 and viewing area A2 is thawed state.
If the show state of viewing area A1 and viewing area A2 all is set to thawed state, then flow process changes step S505 and step S506 over to, otherwise, get into step S503 and step S508.
Step S503 determines whether the A1 cineloop ultrasonoscopy in the viewing area.
Because this moment, viewing area A1 was set to frozen state, therefore, viewing area A1 can carry out the cineloop ultrasonoscopy.If confirm the A1 cineloop ultrasonoscopy in the viewing area, then flow process changes step S507 over to, otherwise, get into step S504.
Step S504, the static ultrasonoscopy that shows.
Promptly take out the corresponding ultrasound image data of ultrasonoscopy from the memory element B1 corresponding with viewing area A1, A1 carries out the said ultrasonoscopy of the static demonstration of single frames in the viewing area.
Step S505, viewing area A1 shows the ultrasonoscopy that obtains in real time.
Because viewing area A1 is set to thawed state at this moment, therefore, can show the ultrasonoscopy that obtains in real time by A1 in the viewing area.
Step S506, viewing area A2 shows the ultrasonoscopy that obtains in real time.
Because viewing area A2 is set to thawed state at this moment, therefore, can show the ultrasonoscopy that obtains in real time by A2 in the viewing area.
Step S507, the cineloop ultrasonoscopy.
That is, take out the corresponding ultrasound image data of multiframe ultrasonoscopy from the memory element B1 circulation corresponding with viewing area A1, the A1 circulation shows said multiframe ultrasonoscopy in the viewing area.
Step S508 determines whether the A2 cineloop ultrasonoscopy in the viewing area.
Because this moment, viewing area A2 was set to frozen state, therefore, viewing area A2 can carry out the cineloop ultrasonoscopy.If confirm the A2 cineloop ultrasonoscopy in the viewing area, then flow process changes step S510 over to, otherwise, get into step S509.
Step S509, the static ultrasonoscopy that shows.
Promptly take out the corresponding ultrasound image data of ultrasonoscopy from the memory element B2 corresponding with viewing area A2, A2 carries out the said ultrasonoscopy of the static demonstration of single frames in the viewing area.
Step S510, the cineloop ultrasonoscopy.
That is, take out the corresponding ultrasound image data of multiframe ultrasonoscopy from the memory element B2 circulation corresponding with viewing area A2, the A2 circulation shows said multiframe ultrasonoscopy in the viewing area.
Seeing also accompanying drawing 6, is several ultrasonoscopy display device structure sketch maps that the embodiment of the invention provides.For the ease of explanation, only show the part relevant with the embodiment of the invention.Several ultrasonoscopy display devices of accompanying drawing 6 examples comprise parameter list generation module 601, image processing module 602 and image display 603, wherein:
Parameter list generation module 601 is used to n width of cloth ultrasonoscopy and generates n parameter list respectively, and said n is the natural number more than or equal to 1.
In the present embodiment; Ultrasonic front end unit is a functional module of being made up of ultrasonic probe, radiating circuit, receiving circuit and front-end control unit etc. in the Ultrasound Instrument; Its with the imaging parameters in the parameter list that receives as running parameter; Main completion ultrasonic emitting, ultrasound wave reception and the ultrasonic signal be responsible for handled or the like, and the ultrasound image signal that forms behind the signal processing is sent to the next stage processing unit, and for example image processing module 602.And the original ultrasound image data that image processing module 602 receives from ultrasonic front end unit; Imaging parameters with each parameter list in n the parameter list is the Flame Image Process parameter; According to the imaging parameters of each parameter list in the said n parameter list and according to certain Flame Image Process flow process, algorithm; The ultrasound image data correspondence that ultrasonic front end unit is obtained is processed into displayable n width of cloth ultrasonoscopy; Meanwhile, the corresponding ultrasound image data of n width of cloth ultrasonoscopy after this processing is stored in n memory element.In the present embodiment, each memory element in the said n memory element is corresponding with each width of cloth ultrasonoscopy in the said n width of cloth ultrasonoscopy, is used for storing the pairing ultrasound image data of said each width of cloth ultrasonoscopy of n width of cloth ultrasonoscopy.
In the present embodiment; It is corresponding with it that n viewing area generated n parameter list respectively, the imaging parameters in the said parameter list comprise the ultrasonoscopy district scan pattern, launch hyperacoustic parameter, the parameter that receives ultrasonic echo, subsequent image processing parameter and to influential other parameters of final ultra sonic imaging performance or the like.All shared differently by each width of cloth ultrasonoscopy with same a kind of imaging parameters of all ultrasonoscopys in the prior art, in the present embodiment, each parameter list in n parameter list is to being applied to control each viewing area of a said n viewing area; The n that divides in a ultrasonoscopy district viewing area is corresponding with each width of cloth ultrasonoscopy in the said n width of cloth ultrasonoscopy to be that n the viewing area of dividing in the ultrasonoscopy district is respectively applied for each width of cloth ultrasonoscopy that shows in the said n width of cloth ultrasonoscopy.Because each parameter list in n parameter list is to being applied to control each viewing area of a said n viewing area; Therefore; When the imaging parameters that any parameter list comprises in to n parameter list is regulated, all do not influence other parameter lists in n the parameter list, promptly in embodiments of the present invention; For each parameter list in n the parameter list, its adjusting is all independently carried out.
Need to prove; More than in the embodiment of several ultrasonoscopy display devices, the division of each functional module only illustrates, can be as required in the practical application; For example the facility of the realization of the configuration requirement of corresponding hardware or software is considered; And above-mentioned functions is distributed by the different functional completion, the internal structure that is about to said several ultrasonoscopy display devices is divided into different functional, to accomplish all or part of function of above description.And in the practical application, the corresponding functional modules in the present embodiment can be to be realized by relevant hardware; Also can carry out corresponding software by relevant hardware accomplishes; For example, aforesaid parameter list generation module can be to have to carry out the aforementioned hardware that generates n parameter list for n width of cloth ultrasonoscopy respectively; Parameter list maker for example, thus also can be to carry out general processor or other hardware devices that the corresponding computer program is accomplished aforementioned functional; Aforesaid for another example image processing module; Can be to have the aforementioned imaging parameters of execution according to each parameter list in the said n parameter list; The ultrasound image data correspondence that ultrasonic front end unit is obtained is processed into the hardware that displayable n width of cloth ultrasonoscopy and the ultrasound image data that the n width of cloth ultrasonoscopy after the said processing is corresponding are stored in n functional memory cell; Image processor for example, thus also can be to carry out general processor or other hardware devices (each embodiment that this description provides can use the foregoing description principle) that the corresponding computer program is accomplished aforementioned functional.
Need to prove; In several ultrasonoscopy display devices of accompanying drawing 6 examples; Imaging parameters in the said n parameter list in each parameter list except the scan pattern that comprises the ultrasonoscopy district, launch hyperacoustic parameter, the parameter that receives ultrasonic echo, subsequent image processing parameter and to influential other parameters of final ultra sonic imaging performance; Can further include the viewing area and freeze to enable parameter; The show state that parameter is used to control a said n viewing area is freezed to enable in these viewing areas, and wherein, show state comprises frozen state and thawed state.
Several ultrasonoscopy display devices of accompanying drawing 6 examples can comprise that first is provided with module 701 or second module 702 is set, several ultrasonoscopy display devices that another embodiment of the present invention provides shown in accompanying drawing 7, wherein:
First is provided with module 701; Be used for freezing to enable parameter according to said viewing area; At least one viewing area in the said n viewing area is set to frozen state; For example, a viewing area in the said n viewing area is set to frozen state, and all the other n-1 viewing area is set to thawed state; A viewing area in the said n viewing area is set to thawed state, and all the other n-1 viewing area is set to frozen state; Perhaps, a said n viewing area all is set to frozen state or the like;
Second is provided with module 702, is used for freezing to enable parameter according to said viewing area, and a said n viewing area is set to a kind of show state; For example; A said n viewing area all is set to thawed state, and perhaps, a said n viewing area all is set to frozen state etc.
The image display 603 of accompanying drawing 7 examples can comprise the first area display setting device 801 and first display unit 802, several ultrasonoscopy display devices that another embodiment of the present invention provides shown in accompanying drawing 8, wherein:
First area display setting device 801 is used for freezing to enable parameter according to said viewing area, and a viewing area in the said n viewing area is set to frozen state, and all the other n-1 viewing area is set to thawed state;
The image display 603 of accompanying drawing 7 examples can comprise the second area display setting device 901 and second display unit 902, several ultrasonoscopy display devices that another embodiment of the present invention provides shown in accompanying drawing 9, wherein:
Second area display setting device 901 is used for freezing to enable parameter according to said viewing area, and a viewing area in the said n viewing area is set to thawed state, and all the other n-1 viewing area is set to frozen state;
The image display 603 of accompanying drawing 7 examples can comprise the 3rd regional display setting device 1001 and the 3rd display unit 1002, several ultrasonoscopy display devices that another embodiment of the present invention provides shown in accompanying drawing 10, wherein:
The 3rd regional display setting device 1001 is used for freezing to enable parameter according to said viewing area, and a said n viewing area all is set to thawed state;
The 3rd display unit 1002 is used for showing said n width of cloth ultrasonoscopy in real time in said n the viewing area that is set to thawed state.
The image display 603 of accompanying drawing 7 examples can comprise the 4th regional display setting device 1101 and the 4th display unit 1102, several ultrasonoscopy display devices that another embodiment of the present invention provides shown in accompanying drawing 11, wherein:
The 4th regional display setting device 1101 is used for freezing to enable parameter according to said viewing area, and a said n viewing area all is set to frozen state;
The 4th display unit 1102 is used for taking out behind the corresponding ultrasound image data of the n width of cloth ultrasonoscopy viewing area that said n width of cloth ultrasonoscopy is shown in the said n of a being set to frozen state respectively from n the memory element corresponding with said n the viewing area that is set to frozen state.
Several ultrasonoscopy display devices of accompanying drawing 7 to accompanying drawing 11 arbitrary examples can also comprise playback module 1201, several ultrasonoscopy display devices that provide to another embodiment of the present invention shown in the accompanying drawing 12e like accompanying drawing 12a.Playback module 1201 is used for carrying out the said ultrasonoscopy of cineloop from taking out ultrasound image data with the said corresponding memory element in viewing area that is set to frozen state.The cineloop ultrasonoscopy is a kind of mode that dynamically shows ultrasonoscopy.Specifically be meant under the viewing area is set to frozen state; Take out successive some frame ultrasonoscopys from the circulation of ultrasonoscopy memory space and carry out the playback cycle demonstration; With the viewing area is that dynamic real-time under the thawed state shows that ultrasonoscopy compares; It is not to show ultrasonoscopy in real time, but dynamically shows the stored historical ultrasonoscopy.In the ultrasound medicine field, can let real-time collection one width of cloth ultrasonoscopy, let the viewing area freeze then, this width of cloth ultrasonoscopy of cineloop, meanwhile, the ultrasonoscopy that lets an other width of cloth gather in real time dynamically shows.Like this, two width of cloth images all are dynamic demonstrations, help clinical diagnosis.In addition, also can let two width of cloth ultrasonoscopys all cineloop show that dynamically this two width of cloth ultrasonoscopy relatively is convenient to medical personnel and is obtained more clinical diagnosis information, helps clinical diagnosis.
The embodiment of the invention also provides a kind of ultrasonic device, and this ultrasonic device comprises several ultrasonoscopy display devices that above-mentioned accompanying drawing 6 to accompanying drawing 9 any embodiment provide.
Need to prove; Contents such as the information interaction between each module/unit of said apparatus, implementation; Since with the inventive method embodiment based on same design; Its technique effect that brings is identical with the inventive method embodiment, and particular content can repeat no more referring to the narration among the inventive method embodiment here.
One of ordinary skill in the art will appreciate that all or part of step in the whole bag of tricks of the foregoing description is to instruct relevant hardware to accomplish through program, such as following the whole bag of tricks one or more or all:
For n width of cloth ultrasonoscopy generates n parameter list respectively, said n is the natural number more than or equal to 1;
Imaging parameters according to each parameter list in the said n parameter list; The ultrasound image data correspondence that ultrasonic front end unit is obtained is processed into displayable n width of cloth ultrasonoscopy and the ultrasound image data that the n width of cloth ultrasonoscopy after the said processing is corresponding is stored in n memory element, and each memory element in the said n memory element is corresponding with each width of cloth ultrasonoscopy in the said n width of cloth ultrasonoscopy;
Take out the corresponding ultrasound image data of n width of cloth ultrasonoscopy after the said processing and n the viewing area of dividing in the ultrasonoscopy district shows said n width of cloth ultrasonoscopy respectively from a said n memory element; N viewing area dividing in the said ultrasonoscopy district is corresponding with each width of cloth ultrasonoscopy in the said n width of cloth ultrasonoscopy, and each parameter list in the said n parameter list is to being applied to control each viewing area of a said n viewing area.
One of ordinary skill in the art will appreciate that all or part of step in the whole bag of tricks of the foregoing description is to instruct relevant hardware to accomplish through program; This program can be stored in the computer-readable recording medium; Storage medium can comprise: read only memory (ROM; Read Only Memory), random access memory (RAM, Random Access Memory), disk or CD etc.
More than several ultrasound pattern display methods, device and a kind of ultrasonic device that the embodiment of the invention is provided carried out detailed introduction; Used concrete example among this paper principle of the present invention and embodiment are set forth, the explanation of above embodiment just is used for helping to understand method of the present invention and core concept thereof; Simultaneously, for one of ordinary skill in the art, according to thought of the present invention, the part that on the specific embodiment and range of application, all can change, in sum, this description should not be construed as limitation of the present invention.
Claims (15)
1. several ultrasound pattern display methods is characterized in that, said method comprises:
For n width of cloth ultrasonoscopy generates n parameter list respectively, said n is the natural number more than or equal to 1;
Imaging parameters according to each parameter list in the said n parameter list; The ultrasound image data correspondence that ultrasonic front end unit is obtained is processed into displayable n width of cloth ultrasonoscopy and the ultrasound image data that the n width of cloth ultrasonoscopy after the said processing is corresponding is stored in n memory element, and each memory element in the said n memory element is corresponding with each width of cloth ultrasonoscopy in the said n width of cloth ultrasonoscopy;
Take out the corresponding ultrasound image data of n width of cloth ultrasonoscopy after the said processing and n the viewing area of dividing in the ultrasonoscopy district shows said n width of cloth ultrasonoscopy respectively from a said n memory element; N viewing area dividing in the said ultrasonoscopy district is corresponding with each width of cloth ultrasonoscopy in the said n width of cloth ultrasonoscopy, and each parameter list in the said n parameter list is to being applied to control each viewing area of a said n viewing area.
2. the method for claim 1; It is characterized in that; Each parameter list comprises that the viewing area freezes to enable parameter in the said n parameter list; The show state that parameter is used to control a said n viewing area is freezed to enable in said viewing area, and said show state comprises frozen state and thawed state;
Saidly take out the corresponding ultrasound image data of n width of cloth ultrasonoscopy after the said processing and before n the viewing area that the ultrasonoscopy district divides shows said n width of cloth ultrasonoscopy respectively, further comprise from a said n memory element:
Freeze to enable parameter according to said viewing area, at least one viewing area in the said n viewing area is set to frozen state; Perhaps
Freeze to enable parameter according to said viewing area, a said n viewing area is set to a kind of show state.
3. method as claimed in claim 2; It is characterized in that, saidly take out the corresponding ultrasound image data of n width of cloth ultrasonoscopy after the said processing and n the viewing area of dividing in the ultrasonoscopy district shows that respectively said n width of cloth ultrasonoscopy comprises from a said n memory element:
Freeze to enable parameter according to said viewing area, a viewing area in the said n viewing area is set to frozen state, and all the other n-1 viewing area is set to thawed state;
Show n-1 width of cloth ultrasonoscopy respectively in real time in said n-1 the viewing area that is set to thawed state, the ultrasonoscopy that said ultrasound image data is corresponding is shown in the said viewing area that is set to frozen state behind the memory element taking-up ultrasound image data corresponding with the said viewing area that is set to frozen state.
4. method as claimed in claim 2; It is characterized in that, saidly take out the corresponding ultrasound image data of n width of cloth ultrasonoscopy after the said processing and n the viewing area of dividing in the ultrasonoscopy district shows that respectively said n width of cloth ultrasonoscopy comprises from a said n memory element:
Freeze to enable parameter according to said viewing area, a viewing area in the said n viewing area is set to thawed state, and all the other n-1 viewing area is set to frozen state;
Show ultrasonoscopy in real time in the said viewing area that is set to thawed state, take out behind the corresponding ultrasound image data of the n-1 width of cloth ultrasonoscopy viewing area that said n-1 width of cloth ultrasonoscopy is shown in the said n-1 of a being set to frozen state respectively from n-1 the memory element corresponding with said n-1 the viewing area that is set to frozen state.
5. method as claimed in claim 2; It is characterized in that, saidly take out the corresponding ultrasound image data of n width of cloth ultrasonoscopy after the said processing and n the viewing area of dividing in the ultrasonoscopy district shows that respectively said n width of cloth ultrasonoscopy comprises from a said n memory element:
Freeze to enable parameter according to said viewing area, a said n viewing area all is set to thawed state;
Show said n width of cloth ultrasonoscopy in real time in said n the viewing area that is set to thawed state.
6. method as claimed in claim 2; It is characterized in that, saidly take out the corresponding ultrasound image data of n width of cloth ultrasonoscopy after the said processing and n the viewing area of dividing in the ultrasonoscopy district shows that respectively said n width of cloth ultrasonoscopy comprises from a said n memory element:
Freeze to enable parameter according to said viewing area, a said n viewing area all is set to frozen state;
Take out behind the corresponding ultrasound image data of the n width of cloth ultrasonoscopy viewing area that said n width of cloth ultrasonoscopy is shown in the said n of a being set to frozen state respectively from n the memory element corresponding with said n the viewing area that is set to frozen state.
7. like any described method of claim 2 to 6, it is characterized in that said method further comprises:
Carry out the said ultrasonoscopy of cineloop from taking out ultrasound image data with the said corresponding memory element in viewing area that is set to frozen state.
8. several ultrasonoscopy display devices is characterized in that said device comprises:
The parameter list generation module is used to n width of cloth ultrasonoscopy and generates n parameter list respectively, and said n is the natural number more than or equal to 1;
Image processing module; Be used for imaging parameters according to said n each parameter list of parameter list; The ultrasound image data correspondence that ultrasonic front end unit is obtained is processed into displayable n width of cloth ultrasonoscopy and the ultrasound image data that the n width of cloth ultrasonoscopy after the said processing is corresponding is stored in n memory element, and each memory element in the said n memory element is corresponding with each width of cloth ultrasonoscopy in the said n width of cloth ultrasonoscopy;
Image display; Be used for taking out the corresponding ultrasound image data of n width of cloth ultrasonoscopy after the said processing and n the viewing area of dividing in the ultrasonoscopy district shows said n width of cloth ultrasonoscopy respectively from a said n memory element; N viewing area dividing in the said ultrasonoscopy district is corresponding with each width of cloth ultrasonoscopy in the said n width of cloth ultrasonoscopy takes out the corresponding ultrasound image data of n width of cloth ultrasonoscopy after the said processing and n the viewing area of dividing in the ultrasonoscopy district shows said n width of cloth ultrasonoscopy respectively from a said n memory element; N viewing area dividing in the said ultrasonoscopy district is corresponding with each width of cloth ultrasonoscopy in the said n width of cloth ultrasonoscopy, and each parameter list in the said n parameter list is to being applied to control each viewing area of a said n viewing area.
9. device as claimed in claim 8; It is characterized in that; Each parameter list comprises that the viewing area freezes to enable parameter in the said n parameter list; The show state that parameter is used to control a said n viewing area is freezed to enable in said viewing area, and said show state comprises frozen state and thawed state;
Said device further comprises:
First is provided with module, is used for freezing to enable parameter according to said viewing area, and at least one viewing area in the said n viewing area is set to frozen state; Perhaps
Second is provided with module, is used for freezing to enable parameter according to said viewing area, and a said n viewing area is set to a kind of show state.
10. device as claimed in claim 9 is characterized in that, said image display comprises:
The first area display setting device is used for freezing to enable parameter according to said viewing area, and a viewing area in the said n viewing area is set to frozen state, and all the other n-1 viewing area is set to thawed state;
First display unit; Be used for showing n-1 width of cloth ultrasonoscopy respectively in real time that the ultrasonoscopy that said ultrasound image data is corresponding is shown in the said viewing area that is set to frozen state behind the memory element taking-up ultrasound image data corresponding with the said viewing area that is set to frozen state in said n-1 the viewing area that is set to thawed state.
11. device as claimed in claim 9 is characterized in that, said image display comprises:
The second area display setting device is used for freezing to enable parameter according to said viewing area, and a viewing area in the said n viewing area is set to thawed state, and all the other n-1 viewing area is set to frozen state;
Second display unit; Be used for showing ultrasonoscopy in real time, take out behind the corresponding ultrasound image data of the n-1 width of cloth ultrasonoscopy viewing area that said n-1 width of cloth ultrasonoscopy is shown in the said n-1 of a being set to frozen state respectively from n-1 the memory element corresponding with said n-1 the viewing area that is set to frozen state in the said viewing area that is set to thawed state.
12. device as claimed in claim 9 is characterized in that, said image display comprises:
The 3rd regional display setting device is used for freezing to enable parameter according to said viewing area, and a said n viewing area all is set to thawed state;
The 3rd display unit is used for showing said n width of cloth ultrasonoscopy in real time in said n the viewing area that is set to thawed state.
13. device as claimed in claim 9 is characterized in that, said image display comprises:
The 4th regional display setting device is used for freezing to enable parameter according to said viewing area, and a said n viewing area all is set to frozen state;
The 4th display unit is used for taking out behind the corresponding ultrasound image data of the n width of cloth ultrasonoscopy viewing area that said n width of cloth ultrasonoscopy is shown in the said n of a being set to frozen state respectively from n the memory element corresponding with said n the viewing area that is set to frozen state.
14., it is characterized in that said device further comprises like any described device of claim 9 to 13:
Playback module is used for carrying out the said ultrasonoscopy of cineloop from taking out ultrasound image data with the said corresponding memory element in viewing area that is set to frozen state.
15. a ultrasonic device is characterized in that, said ultrasonic device comprises any described device of claim 8 to 14.
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