CN204242159U - Image display processing device - Google Patents

Abstract

The utility model discloses a kind of image display processing device.Image display processing device comprises display device, mobile controller, moving direction determining device and translational speed determining device.Display device display input picture and region-of-interest.Mobile controller controls display device and amplifies the region-of-interest in display input picture and move amplified region-of-interest along motion track on described input picture.Moving direction determining device is determined about the moving direction of region-of-interest on motion track according to the instruction that user inputs, and is supplied to mobile controller.Translational speed determining device determines the speed of region-of-interest movement on the display apparatus according to the instruction that user inputs, and is supplied to mobile controller.By using this image display processing device, can user operation be simplified thus improve Consumer's Experience.

Description

Image display processing device

Technical field

The utility model relates to image processing field, in particular to a kind of image display processing device.

Background technology

Image Graphics Processing is an important branch of image processing field, is with a wide range of applications.Such as, Nonlinear magnify is a kind of common display and control process, the details that user observes, measures and mark the region-of-interest in image can be convenient to, for example, in Medical Image Processing, frequent needs show the image adopting medical imaging devices to obtain, and because display device own dimensions limit, to be sometimes difficult on screen once property and clearly to show medical image.And for example, sometimes need to the region-of-interest on image carry out tracking amplify, thus facilitate user to observe, image browsing.When using some existing image displays, in order to find the region-of-interest (focus etc. as in medical image) in image, usually need operator first downscaled images to show panoramic picture, then repeatedly carry out moving, the operation such as convergent-divergent.And when the region-of-interest amplified exceeds the border of window, need again to move image.This movement repeatedly and convergent-divergent are concerning very inconvenient operator.

Curve reestablishing (Curved-MPR) is often used in curvilinear path is observed.At medical domain, when formation curve track (e.g., blood vessel, vertebra etc.), the sectional view picture of amplification is for showing the cross section of the point along track.In this case, often need two visual angles (trajectory viewing angle and crosscut visual angle), and occupy more screen area.User needs to switch visual angle to change cross section position.If compare two tracks, user often needs to organize special screen layout for so many visual angles, and this is very inconvenient.

Utility model content

Provide hereinafter about brief overview of the present utility model, to provide about the basic comprehension in some of the present utility model.Should be appreciated that this general introduction is not summarize about exhaustive of the present utility model.It is not that intention determines key of the present utility model or pith, neither intended limitation scope of the present utility model.Its object is only provide some concept in simplified form, in this, as the preorder in greater detail discussed after a while.

An object of the present utility model is to provide and a kind ofly simplifies user operation thus improve the image display processing device of Consumer's Experience.

For this reason, in one embodiment, provide a kind of image display processing device, this image display processing device comprises display device, mobile controller, moving direction determining device and translational speed determining device.Display device display input picture and region-of-interest.Mobile controller controls display device and amplifies the region-of-interest in display input picture and move amplified region-of-interest along motion track on described input picture.Moving direction determining device is determined about the moving direction of region-of-interest on motion track according to the instruction that user inputs, and is supplied to mobile controller.Translational speed determining device determines the speed of region-of-interest movement on the display apparatus according to the instruction that user inputs, and is supplied to mobile controller.

In a kind of modification, image display processing device also can comprise user input apparatus, for receiving the instruction of the movement of the instruction region-of-interest of user's input, mobile time-outs, playback, translational speed change, convergent-divergent and/or mark, and be supplied to mobile controller.

In a kind of modification, image display processing device also can comprise motion track determining device, for determining motion track according to the instruction of the trace information that identifies from input picture or user's input, motion track be shown or highlighted display on the display apparatus.

In a kind of modification, image display processing device can also comprise image labeling device, for the instruction of the mark of indicative input image received according to user input apparatus, the input picture shown on the display apparatus marks.

In a kind of modification, image display processing device also can comprise markup information memory storage, for storing the information being marked region on input picture.

In a kind of modification, display device can comprise two or more viewing areas, is respectively used to show two or more input pictures be moved in synchronization.

In a kind of modification, display device can comprise two or more viewing areas, two or more region-of-interests corresponded to each other described in two or more region-of-interests corresponded to each other be respectively used in the same input picture of amplification display also move along two or more motion tracks corresponded to each other.

In a kind of modification, image display processing device also can comprise: user preference memory storage, for stored user profile information and be supplied to mobile controller with according to user preference information select region-of-interest.

In a kind of modification, user input apparatus comprise in mouse, touch-screen and keyboard one or more.

By according to the technical solution of the utility model, user can automatically along the motion track viewing region-of-interest of expection, or to move along the motion track of expecting by means of only shirtsleeve operation (such as, roll mouse or pressing direction key) and watch region-of-interest.In addition, user can compare the same position (diseased region in the image of such as, captured object) of the image between different series/inspection/mode easily.In addition, user easily can complete the comparison of the multiple corresponding sites (such as, symmetrical anatomical structure) to input picture.In addition, user can select opacity, intensity, render mode and the modality images different from the input picture of panorama for the region-of-interest be exaggerated.

Accompanying drawing explanation

With reference to below in conjunction with the explanation of accompanying drawing to the utility model embodiment, above and other objects, features and advantages of the present utility model can be understood more easily.Parts in accompanying drawing are just in order to illustrate principle of the present utility model.In the accompanying drawings, same or similar technical characteristic or parts will adopt same or similar Reference numeral to represent.

Fig. 1 is the schematic block diagram of the structure of the image display processing device illustrated according to the first embodiment of the present utility model;

Fig. 2 is the schematic block diagram of the structure of the image display processing device illustrated according to the second embodiment of the present utility model;

Fig. 3 is the schematic block diagram of the structure of the image display processing device illustrated according to the 3rd embodiment of the present utility model;

Fig. 4 is the schematic block diagram of the structure of the image display processing device illustrated according to the 4th embodiment of the present utility model;

Fig. 5 is the schematic block diagram of the structure of the image display processing device illustrated according to the 5th embodiment of the present utility model;

Fig. 6 is the schematic block diagram of the structure of the image display processing device illustrated according to the 6th embodiment of the present utility model; And

Fig. 7 is the block diagram of the structure that the computing machine that can realize embodiment/example of the present utility model is shown.

Embodiment

With reference to the accompanying drawings embodiment of the present utility model is described.The element described in an accompanying drawing of the present utility model or a kind of embodiment and feature can combine with the element shown in one or more other accompanying drawing or embodiment and feature.It should be noted that for purposes of clarity, accompanying drawing and eliminate expression and the description of parts that have nothing to do with the utility model, known to persons of ordinary skill in the art and process in illustrating.

Inventor of the present utility model thinks, when using some existing image display processing devices, in order to find the region-of-interest (focus etc. as in medical image) in image, usually need operator first downscaled images to show panoramic picture, then repeatedly carry out moving, the operation such as convergent-divergent.And when the region-of-interest amplified exceeds the border of window, need again to move image.This mobile and zoom operations is very inconvenient repeatedly.Of the present disclosure some embodiments providing a kind ofly is convenient to user operation to improve the image display processing device of Consumer's Experience.

Fig. 1 is the schematic block diagram of the structure of the image display processing device 100 illustrated according to the first embodiment of the present utility model.As shown in Figure 1, image display processing device 100 comprises translational speed determining device 102, moving direction determining device 104, mobile controller 106 and display device 108.

Display device 108 can show input picture and region-of-interest, such as medical image.Such as, display device 108 includes but not limited to liquid crystal display, light emitting diode indicator, organic LED display, plasma scope or cathode-ray tube display etc.Display device 108 can be driven by independent display driver chip (video card), also can be driven by the display driver chip of other integrated chips with image display processing device 100.

Mobile controller 106 can control display device 108 and amplifies the region-of-interest in display input picture and move amplified region-of-interest along motion track over an input image.

When input picture is medical image, motion track can be such as artery, vein or fibr tissue etc.But be readily appreciated that, input picture is not limited to medical image, and can be other images any.In one embodiment, translucent region-of-interest can be shown as and cover on original input image by display device 108 under the control of mobile controller 106, thus can see region-of-interest and the original input image being concerned region overlay simultaneously.In another embodiment, region-of-interest can be opaque.

In addition, no matter region-of-interest is translucent or opaque, and display device 108 all moves this region-of-interest along motion track under the control of mobile controller 106.Region-of-interest is constantly changing along motion track.For leg image, suppose using the specific artery of leg as motion track, so, region-of-interest using along this specific artery as motion track, the tissue continuously from the movement of tissue of a position to next position.

Moving direction determining device 104 can be determined about the moving direction of region-of-interest on motion track according to the instruction of user's input, and is supplied to mobile controller 106.Such as, moving direction determining device 104 can be determined still to move down region-of-interest along motion track along the motion track region-of-interest that moves up according to the instruction of user's input, and determination result is sent to mobile controller 106.Mobile controller 106 can control the moving direction of the region-of-interest of display in display device 108 according to this determination result.

Translational speed determining device 102 can determine the speed of region-of-interest movement in display device 108 according to the instruction of user's input, and is supplied to mobile controller 106.Such as, many grades of speed can be pre-existing in, which grade speed what translational speed determining device 102 can determine that user selects according to the instruction of user's input is, and this velocity information is supplied to mobile controller 106, mobile controller 106 can control the translational speed of the region-of-interest of display in display device 108 according to this velocity information.Or, translational speed determining device 102 can be determined increase present speed or reduce present speed according to the instruction of user's input, and this information is supplied to mobile controller 106, mobile controller 106 correspondingly can change the translational speed of the region-of-interest of display in display device 108 according to this information.

In addition, if user indicates automatically play region-of-interest, then default speed and the direction of presetting can be sent to mobile controller 106 by translational speed determining device 102 and moving direction determining device 104 respectively, and mobile controller 106 can control display device 108 and shows region-of-interest with this speed preset and default direction and region-of-interest is moved along motion track.Like this, user, just can with predetermined rule (predetermined moving direction and predetermined translational speed etc.) viewing region-of-interest along with motion track moves without the need to doing other operations.In addition, during automatically playing, mobile controller 106 can suspend according to the instruction of user's input, resets, changes translational speed or change moving direction.

Image display processing device 100 can be realized by general or special computing equipment.The example of such computing equipment will be described in the figure 7 after a while.

In one example, moving direction determining device 104 and translational speed determining device 102 can be partly made up of the importation of computing equipment.Such as, the rotating direction of importation determines moving direction, and rolling speed determines translational speed.Can using the direction determining section of importation as moving direction determining device 104, and can using the translational speed determining section of importation as translational speed determining device 102.

In one example, mobile controller 106 can be the processor (such as, CPU) be connected with importation in computing equipment.Image display processing device 100 can be the output in computing equipment.Processor as mobile controller 106 can control the display of the output as image display processing device 100 according to the signal from the importation as moving direction determining device 104 and translational speed determining device 102.

Fig. 2 is the schematic block diagram of the structure of the image display processing device 200 illustrated according to the second embodiment of the present utility model.

As shown in Figure 2, image display processing device 200 can comprise translational speed determining device 202, moving direction determining device 204, mobile controller 206, display device 208 and user input apparatus 210.

Visible, the image display processing device 200 shown in Fig. 2 is with the difference of the image display processing device 100 shown in Fig. 1, and image display processing device 200 can also comprise user input apparatus 210.

User input apparatus 210 can be the input equipment realized by any technology of image display processing device 200, its driver can be independent or with other integrated chips of image display processing device 200.User input apparatus 210 includes but not limited to touch pad, touch-screen, physical keyboard, entity mouse, soft keyboard, soft mouse, entity control panel, soft control panel and voice-input device, or their combination in any.For touch-screen, soft keyboard, soft mouse, soft control panel, they are the touch sensor arrays with display device 208 with spatial correspondence, thus, user can according to the image be presented on display part 200, such as input picture, region-of-interest, keyboard image, mouse images or control panel image, the position corresponding at described image operates.

User input apparatus 210 can receive the instruction of the movement of the instruction region-of-interest of user's input, mobile time-outs, playback, translational speed change, convergent-divergent and/or mark, and is supplied to mobile controller 206.

When user input apparatus 210 comprises entity mouse, user can by mouse moving direction or the moving direction changing region-of-interest, certainly, user also can change the translational speed of region-of-interest, mobile time-out by mouse, or carries out playback, convergent-divergent and/or mark.

When user input apparatus 210 comprises touch pad or touch-screen, user can wait by finger on touch pad or touch-screen, change moving direction from region-of-interest to the direction slip expected or translational speed.Such as, glide direction can determine the moving direction of region-of-interest, and sliding speed can determine the translational speed of region-of-interest.In addition, such as, user can by finger wait click or double-click touch pad or touch-screen carry out moving time-out.In addition, such as, user also can wait touch touch pad or the predetermined icon of touch-screen or presumptive area to carry out playback by finger, can be slided by two sensing two reverse directions simultaneously carry out convergent-divergent, can expect that the region stop schedule time of mark carries out marking etc. by finger.But be readily appreciated that, finger wait with touch pad or touch-screen be not limited to aforesaid way alternately, but can to change along with the difference of preset function.

When user input apparatus 210 comprises physical keyboard, such as, user can change the moving direction of region-of-interest by the upper and lower, left and right directionkeys on keyboard, can be changed the translational speed of region-of-interest by input predetermined number.In addition, such as, user can by suspending by space bar, and user can carry out playback, convergent-divergent and/or mark etc. by self-defined shortcut.

User input apparatus 210 comprises the situation of soft keyboard and user input apparatus 210, and to comprise the situation of physical keyboard similar, that is, for each button of soft keyboard control with can be similar to the control of each button of physical keyboard.Its difference is only that soft keyboard is displayed on screen instead of entity.

User input apparatus 210 comprises the situation of soft mouse and user input apparatus 210, and to comprise the situation of entity mouse similar, that is, for soft mouse control with can be similarly to the control of entity mouse.Difference is only that soft mouse is displayed on screen instead of entity.

User input apparatus 210 comprises the situation of entity control panel and user input apparatus 210, and to comprise the situation of physical keyboard similar, and the control to entity control panel and the control to physical keyboard can be realized by the mode of button.Its difference is, entity control panel often comprises button more targetedly, such as, entity control panel can comprise respectively with moving direction, translational speed, mobile to suspend, or carry out playback, multiple button of convergent-divergent and/or mark correspondence or button.

User input apparatus 210 comprises the situation of soft control panel and user input apparatus 210, and to comprise the situation of entity control panel similar, that is, for each button of soft control panel control with can be similar to the control of each button of entity control panel.Its difference is only that soft control panel is displayed on screen instead of entity.

When user input apparatus 210 comprises voice-input device, such as, user can input to revise moving direction and translational speed by special sound password, carries out moving and suspends or carry out playback, convergent-divergent and/or mark.

Therefore, user by shirtsleeve operation (such as, mouse wheel is rolled or the directionkeys of keyboard presses etc.), region-of-interest can be shown in the mode expected, thus can concentrate one's energy to observe region-of-interest and input picture, and need not constantly, undertaken amplifying mobile operation by input media repeatedly and select region-of-interest.

Be similar to image display processing device 100, also can realize image display processing device 200 with general or special computing equipment.In this case, its translational speed determining device 202, moving direction determining device 204 can be partly made up of the importation of computing equipment, mobile controller 206 can be regarded as the processor that is connected with importation in computing equipment (such as, CPU), display device 208 can be regarded as the output of computing equipment, and user input apparatus 210 may be implemented as the importation of computing equipment.But these CPU, output and importation are configured to the function realizing proposing in the utility model scheme.

Fig. 3 is the schematic block diagram of the structure of the image display processing device 300 illustrated according to the 3rd embodiment of the present utility model.

As shown in Figure 3, image display processing device 300 can comprise translational speed determining device 302, moving direction determining device 304, mobile controller 306, display device 308 and motion track determining device 312.

Visible, the image display processing device 300 shown in Fig. 3 is with the difference of the image display processing device 100 shown in Fig. 1, and image display processing device 300 also comprises motion track determining device 312.

Motion track determining device 312 can determine motion track according to the instruction of the trace information identified from input picture or user's input, and motion track can be shown or to be highlightedly presented in display device 308.

When motion track determining device 312 determines motion track according to the instruction that user inputs, motion track determining device 312 can be partly made up of the importation of computing equipment.Such as, the track of being specified over an input image by importation decides the motion track of region-of-interest.Can using the track determining section of importation as motion track determining device 312.

When motion track determining device 312 determines motion track according to the trace information identified from input picture, motion track determining device 312 can be made up of the processor of computing equipment (such as, CPU).Such as, CPU determines motion track according to storage input picture, such as, a particular track in input picture is defined as motion track.

Such as, when input picture is leg image, user can specify a specific artery or vein as motion track, or user can specify the center line of femoral bone central line or shin bone as motion track.Certainly, user also as required, image can draw a motion track.

In addition, motion track can be highlighted.Such as, color that can be different by other parts from input picture shows current motion track, thus user can be more clearly visible current motion track.

Be similar to image display processing device 100, also can realize image display processing device 300 with general or special computing equipment.In this case, its translational speed determining device 302, moving direction determining device 304 and motion track determining device 312 partly can be considered as the importation of computing equipment respectively, mobile controller 306 can be regarded as the processor of computing equipment (such as, CPU), display device 308 can be regarded as the output of computing equipment.In some cases, motion track determining device 312 also can be regarded as the processor of computing equipment.But these importations, processor and output are configured to the function realizing proposing in the utility model scheme.

Fig. 4 is the schematic block diagram of the structure of the image display processing device 400 illustrated according to the 4th embodiment of the present utility model.

As shown in Figure 4, image display processing device 400 can comprise translational speed determining device 402, moving direction determining device 404, mobile controller 406, display device 408, user input apparatus 410 and image labeling device 414.

Visible, image display processing device 400 is as shown in Figure 4 with the difference of image display processing device 200 as shown in Figure 2, and image display processing device 400 also comprises image labeling device 414.

Image labeling device 414 can be the image labeling device realized by any technology of image display processing device 400, its driver can be independent or with other integrated chips of image display processing device 400.

The instruction of the mark of the indicative input image that image labeling device 414 can receive according to user input apparatus 410, the input picture of display in display device 408 marks.In other words, user can input instruction by user input apparatus 410, and this instruction instruction marks input picture, and the input picture that image labeling device 414 shows according to this instruction in display device 408 marks.

Such as, user by marking the specific region on input picture by shortcut, such as, can mark identified region over an input image.

Like this, user can mark identified region easily while motion track viewing region-of-interest and input picture, thus saves viewing time.When input picture is medical image, user can mark identified lesion region easily while motion track viewing region-of-interest and input picture, thus saves viewing time and Diagnostic Time.

Be similar to image display processing device 200, also can realize image display processing device 400 with general or special computing equipment.In this case, its translational speed determining device 402, moving direction determining device 404 partly can be considered as the importation of computing equipment respectively, mobile controller 406 and image labeling device 414 can be regarded as the processor of computing equipment (such as, CPU), display device 408 can be regarded as the output of computing equipment, and user input apparatus 410 can be regarded as the importation of computing equipment.But these processors, importation and output are configured to the function realizing proposing in the utility model scheme.

Fig. 5 is the schematic block diagram of the structure of the image display processing device 500 illustrated according to the 5th embodiment of the present utility model.

As shown in Figure 5, image display processing device 500 can comprise translational speed determining device 502, moving direction determining device 504, mobile controller 506, display device 508, user input apparatus 510, image labeling device 514 and markup information memory storage 516.

Visible, the difference of the image display processing device shown in Fig. 5 and the image display processing device 400 shown in Fig. 4 is, image display processing device 500 also comprises markup information memory storage 516.

Markup information memory storage 516 can store the information being marked region on input picture.Like this, user can upper once watch time, only select viewing these regions be marked, thus save viewing time.

Be similar to image display processing device 400, also can realize image display processing device 500 with general or special computing equipment.In this case, its translational speed determining device 502, moving direction determining device 504 partly can be considered as the importation of computing equipment respectively, mobile controller 506 and image labeling device 514 can be regarded as the processor of computing equipment (such as, CPU), display device 508 can be regarded as the output of computing equipment, user input apparatus 510 can be regarded as the importation of computing equipment, and markup information memory storage 516 can be regarded as the storage area of computing equipment.But these processors, output, importation and storage area are configured to the function realizing proposing in the utility model scheme.

Fig. 6 is the schematic block diagram of the structure of the image display processing device 600 illustrated according to the 6th embodiment of the present utility model.

As shown in Figure 6, image display processing device 600 can comprise translational speed determining device 602, moving direction determining device 604, mobile controller 606, display device 608 and user preference memory storage 618.

Visible, the image display processing device 600 shown in Fig. 6 and the difference between the image display processing device 100 shown in Fig. 1 are, image display processing device 600 also comprises user preference memory storage 618.

User preference memory storage 618 can stored user profile information and be supplied to mobile controller 606 with according to user preference information select region-of-interest.User preference information can comprise such as: reconstruction render pattern, image modalities type, fused image information, brightness, opacity, amplification window shape, zoom ratio, play mode, broadcasting speed, broadcasting direction etc.

When input picture is medical image, depend on organ or lesion type, user can need to input different preference informations according to diagnosis.

Be similar to image display processing device 100, also can realize image display processing device 600 with general or special computing equipment.In this case, its translational speed determining device 602 and moving direction determining device 604 partly can be considered as the importation of computing equipment respectively, mobile controller 606 can be regarded as the processor of computing equipment (such as, CPU), display device 608 can be regarded as the output of computing equipment, and user preference memory storage 618 can be regarded as the storage area of computing equipment.But these processors, importation, output and storage area are configured to the function realizing proposing in the utility model scheme.

In addition, in one embodiment, display device 108,208,308,408 or 508 can comprise two or more viewing areas, is respectively used to show two or more input pictures be moved in synchronization.Such as, when two or more input pictures be for same target at the image that different angles and/or different time obtain, two or more input pictures described in being moved in synchronization by display on two or more viewing areas, user more easily can observe the characteristic sum change of this object.Here, two or more input pictures described can move along the motion track corresponded to each other respectively.

In addition, in one embodiment, display device (such as, display device 108,208,308,408,508 or 608) two or more viewing areas can be comprised, be respectively used to show two or more input pictures and synchronizing moving and be amplified in two or more region-of-interests corresponded to each other selected in two or more input pictures.

Such as, when input picture is brain neuroblastoma image, can using the neuro images of the neuro images of left brain and right brain as two region-of-interests corresponded to each other, these two region-of-interests can move along the motion track be mutually symmetrical, thus are convenient to the neuro images of more left brain and the neuro images of right brain.Here two symmetrical regions of input picture can be specified by given mirror image face and side-play amount.

Synchronous by two or more viewing areas, is similar to that only to carry out operation to viewing area such, operator can with enough zoom ratio multiple respective regions (such as, two symmetrical regions) of more multiple input picture or input picture.

Should be understood that and can be used for carrying out Graphics Processing to various types of image according to the equipment of embodiment of the present disclosure.Such as, display and the process of medical image is can be used for according to the equipment of embodiment of the present disclosure.Here medical image can be data according to the detected person utilizing medical diagnosis imaging device to obtain and the image formed.Here medical diagnosis device includes but not limited to: x-ray imaging diagnostic device, ultrasound wave (UL) diagnostic imaging device, computed tomography (CT) device, magnetic resonance imaging (MRI) diagnostic imaging device, positron emission computerized tomography (Positron EmissionTomography, PET) device etc.Particularly, the input picture handled by the equipment of embodiment of the present disclosure can be the medical image utilizing medical imaging devices certain position to human body to scan and obtain, and the cerebral artery image etc. of the patient obtained as utilized CT, does not enumerate here.

In addition, the equipment of embodiment of the present disclosure and method can be tieed up image to n and process, n=1, and 2,3 ..., N(N >=1).

The Graphics Processing of various image can be applied to according to the image display processing device of embodiment of the present disclosure.These images can be one dimension or multidimensional (as two dimension or three-dimensional etc.).Such as, the Graphics Processing of medical image (image as formed according to the data obtained by medical diagnosis device) is can be applicable to according to the image display processing device of embodiment of the present disclosure.As an example, the all modules of the said equipment and/or unit may be embodied as software in medical diagnosis device (as radiographic apparatus, UL diagnostic device, CT device, MRI diagnostic device or PET device etc.), firmware, hardware or its combination, and as the part in this medical diagnosis device.As an example, can implement according to the said equipment of the present disclosure in existing medical diagnosis device, wherein each ingredient of existing medical diagnosis device necessarily be revised.As another example, all modules of the said equipment and/or unit may be embodied as the device independent of described medical diagnosis device.When in the said equipment, all modules, unit are configured by software, firmware, hardware or its mode combined, spendable concrete means or mode are well known to those skilled in the art, and do not repeat them here.

By according to the technical solution of the utility model, user can automatically along the motion track viewing region-of-interest of expection, or to move along the motion track of expecting by means of only shirtsleeve operation (such as, roll mouse or pressing direction key) and watch region-of-interest.In addition, user can compare the same position (diseased region in the image of such as, captured object) of the image between different series/inspection/mode easily.In addition, user easily can complete the comparison of the multiple corresponding sites (such as, symmetrical anatomical structure) to input picture.In addition, user can select opacity, intensity, render mode and the modality images different from the input picture of panorama for the region-of-interest be exaggerated.

As an example, all modules of the said equipment and/or unit may be embodied as software, firmware, hardware or its combination.When being realized by software or firmware, to the computing machine (multi-purpose computer 700 such as shown in Fig. 7) with specialized hardware structure, the program being configured for the software implementing said apparatus can be installed from storage medium or network, this computing machine, when being provided with various program, can perform various functions etc.

In the figure 7, operation processing unit (i.e. CPU) 701 performs various process according to the program stored in ROM (read-only memory) (ROM) 702 or from the program that storage area 708 is loaded into random access memory (RAM) 703.In RAM703, also store the data required when CPU701 performs various process etc. as required.CPU701, ROM702 and RAM703 are via bus 704 link each other.Input/output interface 705 also link to bus 704.

Following parts link is to input/output interface 705: importation 706(comprises keyboard, mouse etc.), output 707(comprises display, such as cathode-ray tube (CRT) (CRT), liquid crystal display (LCD) etc., and loudspeaker etc.), storage area 708(comprises hard disk etc.), communications portion 709(comprises network interface unit such as LAN card, modulator-demodular unit etc.).Communications portion 709 is via network such as the Internet executive communication process.As required, driver 710 also can link to input/output interface 705.Detachable media 711 such as disk, CD, magneto-optic disk, semiconductor memory etc. are installed on driver 710 as required, and the computer program therefrom read is installed in storage area 708 as required.

When series of processes above-mentioned by software simulating, from network such as the Internet or storage medium, such as detachable media 711 installs the program forming software.

It will be understood by those of skill in the art that this storage medium is not limited to wherein having program stored therein shown in Fig. 7, distributes the detachable media 711 to provide program to user separately with equipment.The example of detachable media 711 comprises disk (comprising floppy disk (registered trademark)), CD (comprising compact disc read-only memory (CD-ROM) and digital universal disc (DVD)), magneto-optic disk (comprising mini-disk (MD) (registered trademark)) and semiconductor memory.Or hard disk that storage medium can be ROM702, comprise in storage area 708 etc., wherein computer program stored, and user is distributed to together with comprising their equipment.

Figure 7 shows that the example of universal computing device, but image display processing device of the present utility model also can realize with dedicated computing equipment, but its to realize principle be similar.

Correspondingly, be also included within of the present disclosure disclosing for carrying the above-mentioned storage medium storing the program product of the instruction code of machine-readable.Described storage medium includes but not limited to floppy disk, CD, magneto-optic disk, storage card, memory stick etc.

In the description above to disclosure specific embodiment, the feature described for a kind of embodiment and/or illustrate can use in one or more other embodiment by same or similar mode, combined with the feature in other embodiment, or substitute the feature in other embodiment.

Should emphasize, term " comprises/comprises " existence referring to feature, key element, step or assembly when using herein, but does not get rid of the existence or additional of one or more further feature, key element, step or assembly.

In above-described embodiment and example, have employed the Reference numeral of numeral composition to represent each step and/or unit.Those of ordinary skill in the art should be understood that these Reference numerals just for the ease of describing and drawing, and not represents its order or any other restriction.

Although above by disclosing the disclosure the description of specific embodiment of the present disclosure, should be appreciated that, above-mentioned all embodiments and example are all illustrative, and not restrictive.Those skilled in the art can design various amendment of the present disclosure, improvement or equivalent in the spirit and scope of claims.These amendments, improvement or equivalent also should be believed to comprise in protection domain of the present disclosure.

Claims (10)

1. an image display processing device, comprising:

Display device, for showing input picture and region-of-interest;

Mobile controller, amplifies the region-of-interest in the described input picture of display for controlling described display device and move amplified region-of-interest along motion track on described input picture;

Moving direction determining device, the instruction for inputting according to user is determined about the moving direction of described region-of-interest on described motion track, and is supplied to described mobile controller; And

Translational speed determining device, the speed of described region-of-interest movement is on said display means determined in the instruction for inputting according to user, and is supplied to described mobile controller.

2. image display processing device according to claim 1, also comprises:

User input apparatus, for receiving the instruction of the movement of the described region-of-interest of instruction of user's input, mobile time-outs, playback, translational speed change, convergent-divergent and/or mark, and is supplied to described mobile controller.

3. image display processing device according to claim 1, also comprises:

Motion track determining device, for determining described motion track according to the instruction of the trace information that identifies from described input picture or user's input, described motion track be shown or highlighted display on said display means.

4. image display processing device according to claim 2, also comprises:

Motion track determining device, for determining described motion track according to the instruction of the trace information that identifies from described input picture or user's input, described motion track be shown or highlighted display on said display means.

5. image display processing device according to claim 2, also comprises:

Image labeling device, the instruction of the mark of the described input picture of the instruction for receiving according to described user input apparatus, the input picture shown on said display means marks.

6. image display processing device according to claim 5, also comprises:

Markup information memory storage, for storing the information being marked region on described input picture.

7. image display processing device according to claim 1, wherein, described display device comprises two or more viewing areas, is respectively used to show two or more input pictures be moved in synchronization.

8. image display processing device according to claim 1, wherein, described display device comprises two or more viewing areas, two or more region-of-interests corresponded to each other described in two or more region-of-interests corresponded to each other be respectively used in the same input picture of amplification display also move along two or more motion tracks corresponded to each other.

9. image display processing device according to any one of claim 1 to 8, also comprises:

User preference memory storage, is supplied to described mobile controller to select described region-of-interest according to described user preference information for stored user profile information.

10. image display processing device according to claim 2, wherein, described user input apparatus comprise in mouse, touch-screen and keyboard one or more.