CN113129344B - Resolution adaptive method, ultrasonic apparatus, and storage medium - Google Patents

Abstract

The invention relates to the technical field of ultrasonic equipment, and particularly discloses a resolution self-adaption method, which comprises the following steps: acquiring an ultrasonic image to be displayed; calculating the size of an ultrasonic image to be displayed; obtaining display templates in a display template library in a self-adaptive manner according to the size of an ultrasonic image to be displayed to obtain display templates matched with the ultrasonic image to be displayed, wherein the display template library comprises a plurality of display templates, each display template comprises a plurality of display areas, each display area corresponds to a display proportion, and each display template corresponds to a priority; and displaying the ultrasonic image to be displayed on a display of the ultrasonic device through a display template matched with the ultrasonic image to be displayed. The invention also discloses a storage medium and ultrasonic equipment. The resolution self-adaption method provided by the invention can adapt to the resolution of the current display, thereby realizing the purpose of clearly displaying the ultrasonic image to be displayed on the current display.

Description

Resolution adaptive method, ultrasonic apparatus, and storage medium

Technical Field

The present invention relates to the field of ultrasound apparatuses, and in particular, to a resolution adaptive method, an ultrasound apparatus, and a storage medium.

Background

When the resolution of the display is different from the interface resolution of the application interface to be displayed, the application interface cannot be clearly and completely displayed, so that the resolution of the display needs to be adapted; at present, the resolution of the display of the cart-based ultrasonic device is matched with the resolution of the ultrasonic interface to be displayed, however, when the display of the cart-based ultrasonic device needs to be replaced, the display with the same resolution is required to accurately display the ultrasonic interface.

Disclosure of Invention

The invention provides a resolution self-adaption method, ultrasonic equipment and a storage medium, which solve the problem that an ultrasonic image in the related technology cannot be self-adaptively adapted with displays of different ultrasonic equipment.

As a first aspect of the present invention, there is provided a resolution adaptation method, comprising:

Acquiring an ultrasonic image to be displayed;

Calculating the size of the ultrasonic image to be displayed;

obtaining display templates in a display template library in a self-adaptive manner according to the size of the ultrasonic image to be displayed to obtain display templates matched with the ultrasonic image to be displayed, wherein the display template library comprises a plurality of display templates, each display template comprises a plurality of display areas, each display area corresponds to a display proportion, and each display template corresponds to a priority;

and displaying the ultrasonic image to be displayed on a display of ultrasonic equipment through a display template matched with the ultrasonic image to be displayed.

Further, the adaptively obtaining a display template in a display template library according to the size of the ultrasonic image to be displayed, to obtain a display template adapted to the ultrasonic image to be displayed, includes:

acquiring a display template with highest current priority in a display template library;

calculating the size of an image display area of the display template with the highest current priority;

Judging whether the size of the ultrasonic image to be displayed is matched with the size of the image display area of the display template with the highest current priority;

and if so, determining the display template with the highest current priority as the display template matched with the ultrasonic image to be displayed.

Further, the step of adaptively obtaining a display template in a display template library according to the size of the ultrasonic image to be displayed to obtain a display template adapted to the ultrasonic image to be displayed, further includes:

And if the display template is not adapted, returning to the step of acquiring the display template with the highest priority from the remaining display templates in the display template library.

Further, the calculating the size of the image display area of the display template with the highest current priority comprises:

Acquiring the resolution of a display of the current ultrasonic equipment;

acquiring the display proportion of an image display area in a display template with the highest current priority;

And calculating the size of the image display area of the display template with the highest current priority according to the resolution of the display and the display proportion of the image display area in the display template with the highest current priority.

Further, the determining whether the size of the ultrasound image to be displayed is adapted to the size of the image display area of the display template with the highest current priority includes:

Judging whether the size of an image display area of a display template with the highest current priority is larger than or equal to the size of the ultrasonic image to be displayed;

If yes, judging that the size of the ultrasonic image to be displayed is matched with the size of the image display area of the display template with the highest current priority;

if not, judging that the size of the ultrasonic image to be displayed is not matched with the size of the image display area of the display template with the highest current priority.

Further, the resolution adaptation method further comprises the steps of after the step of obtaining a display template adapted to the ultrasound image to be displayed:

acquiring the display proportion of each display area in a display template matched with the ultrasonic image to be displayed;

and calculating the sizes of all the display areas except the image display areas in the display template according to the display proportion of all the display areas of the display template matched with the ultrasonic image to be displayed and the size of the image display area in the display template matched with the ultrasonic image to be displayed.

Further, the priority level corresponding to each display template and the frequency of each display area of the display template used in the display of the current ultrasonic equipment are positively correlated.

Further, each display template in the display template library corresponds to one display interface in the display of the ultrasound device.

As another aspect of the present invention, there is provided a storage medium comprising computer instructions loaded by a processor to perform the resolution adaptation method described hereinbefore.

As another aspect of the present invention, there is provided an ultrasound apparatus comprising a memory and a processor, the memory and the processor being communicatively coupled, the memory having stored therein computer instructions, the processor executing the computer instructions to perform the resolution adaptation method as described hereinbefore.

By the resolution self-adaption method, the display templates in the display template library can be obtained in a self-adaption mode according to the size of the ultrasonic image to be displayed, the resolution of the current display can be self-adaption by the display templates, the purpose that the ultrasonic image to be displayed can be clearly displayed on the current display is achieved, the cost is low, and meanwhile the operation efficiency of operators is improved.

Drawings

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate the invention and together with the description serve to explain, without limitation, the invention. In the drawings:

Fig. 1 is a flowchart of a resolution adaptation method provided by the present invention.

Fig. 2 is a flowchart of an embodiment of a resolution adaptation method provided by the present invention.

Detailed Description

It should be noted that, without conflict, the embodiments of the present invention and features of the embodiments may be combined with each other. The invention will be described in detail below with reference to the drawings in connection with embodiments.

In order that those skilled in the art will better understand the present invention, a technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in which it is apparent that the described embodiments are only some embodiments of the present invention, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the present invention without making any inventive effort, shall fall within the scope of the present invention.

It should be noted that the terms "first," "second," and the like in the description and the claims of the present invention and the above figures are used for distinguishing between similar objects and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used may be interchanged where appropriate in order to describe the embodiments of the invention herein. Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

In this embodiment, a resolution adaptation method is provided, and fig. 1 is a flowchart of the resolution adaptation method according to an embodiment of the present invention, as shown in fig. 1, including:

S110, acquiring an ultrasonic image to be displayed;

specifically, the ultrasound image to be displayed may specifically be an ultrasound image corresponding to a medical record callback medical record of a medical staff.

S120, calculating the size of the ultrasonic image to be displayed;

specifically, the size of the ultrasonic image to be displayed may be calculated by obtaining the pixel point of the ultrasonic image to be displayed.

S130, adaptively acquiring display templates in a display template library according to the size of the ultrasonic image to be displayed to obtain a display template matched with the ultrasonic image to be displayed, wherein the display template library comprises a plurality of display templates, each display template comprises a plurality of display areas, each display area corresponds to a display proportion, and each display template corresponds to a priority;

It should be understood that each display interface corresponds to one display template, and that the display of the ultrasound device may have multiple display interfaces, and thus different display interfaces of each display of the ultrasound device or different display interfaces of the display of different ultrasound devices, respectively, have their corresponding display templates. In addition, each display template comprises a plurality of display areas, the display areas are related to the ultrasonic images to be displayed, and other corresponding functional display areas are arranged on each display template besides the image display areas.

And S140, displaying the ultrasonic image to be displayed on a display of the ultrasonic device through a display template matched with the ultrasonic image to be displayed.

By the resolution self-adaption method, the display templates in the display template library can be obtained in a self-adaption mode according to the size of the ultrasonic image to be displayed, the resolution of the current display can be self-adaption by the display templates, the purpose that the ultrasonic image to be displayed can be clearly displayed on the current display is achieved, the cost is low, and meanwhile the operation efficiency of operators is improved.

In some embodiments, each display template in the display template library corresponds to one display interface in a display of an ultrasound device.

In some embodiments, the display template library is preset, for example, the UI designer may set a display template according to the functional area division of each display interface, and add the set display template to the display template library. In addition, the UI designer sets a priority for each display template at the same time when setting each display template, for example, four display templates A, B, C and D are in one display template library, the priority corresponding to a is 1, the priority corresponding to b is 2, the priority corresponding to c is 3, and the priority corresponding to D is 4, and the higher the priority is, which means that the display template is the highest priority in the display template library.

Since each display template includes a plurality of display areas, it is also necessary to set a display scale for each display area in each display template at the same time when setting each display template. For example, the display template D includes 5 display areas, where the image display area is to implement an image display function, and thus the display proportion of the image display area is generally larger, and in this embodiment, for example, the proportion of the image display area in the display template D: the width is 1/2 and the length is 1/2.

In some embodiments, the level of priority corresponding to each display template and the frequency with which each display area of the display template is used in the display of the current ultrasound device are positively correlated.

In some embodiments, such as ultrasound devices of the cart series with a touch screen, because the operator interface is displayed on the touch screen, the display templates emphasizing the image region and the thumbnail region may be set to a higher priority. And for a portable device without a touch screen, a higher priority is set for the display template emphasizing the menu display area and the image area operated by the user. Thus, the setting of the priority of the display template can be set differently according to the ultrasound apparatus.

The resolution adaptation method is described in detail below in conjunction with the flowchart of fig. 2, which shows an embodiment of the resolution adaptation method.

Specifically, the adaptively obtaining a display template in a display template library according to the size of the ultrasound image to be displayed, to obtain a display template adapted to the ultrasound image to be displayed, includes:

acquiring a display template with highest current priority in a display template library;

calculating the size of an image display area of the display template with the highest current priority;

Judging whether the size of the ultrasonic image to be displayed is matched with the size of the image display area of the display template with the highest current priority;

and if so, determining the display template with the highest current priority as the display template matched with the ultrasonic image to be displayed.

In some embodiments, taking the above display template library as an example, four display templates in the display template library are used to obtain the display template D with the highest priority, and since the display proportion of each display area in the display template D is preset, the size of the image display area in the display template D can be calculated according to the display proportion of the display area. Since the size of the ultrasonic image to be displayed is calculated in the foregoing, it is possible to determine whether the display template D is a display template with which the ultrasonic image video to be displayed is displayed by comparing the size of the image display area in the display template D with the size of the ultrasonic image to be displayed. And if the size of the image display area of the display template D is matched with the size of the ultrasonic image to be displayed, determining that the display template D is the display template of the ultrasonic image to be displayed.

Further specifically, the adaptively acquiring, according to the size of the ultrasound image to be displayed, a display template in a display template library to obtain a display template adapted to the ultrasound image to be displayed, further includes:

And if the display template is not adapted, returning to the step of acquiring the display template with the highest priority from the remaining display templates in the display template library.

In some embodiments, taking the above display template D as an example, if the size of the image display area of the display template D is not matched with the size of the ultrasound image to be displayed, returning to continue to obtain the display template with the highest current priority in the display template library, as in the previous embodiment, three display templates A, B, C remain in the current display template library, where the priority of C is the highest, continuing to obtain the display template C to perform the same determination process as the above D until the display template matched with the ultrasound image to be displayed is found.

Further specifically, the calculating the image display area size of the display template with the highest current priority includes:

Acquiring the resolution of a display of the current ultrasonic equipment;

acquiring the display proportion of an image display area in a display template with the highest current priority;

And calculating the size of the image display area of the display template with the highest current priority according to the resolution of the display and the display proportion of the image display area in the display template with the highest current priority.

In some embodiments, the resolution of the display of the current ultrasound device is obtained by detection, and the display proportion of the image display area in the display template with the highest current priority is also known, so that the size of the image display area of the display template with the highest current priority can be calculated by the resolution of the display and the display proportion of the image display area in the display template with the highest current priority. For example, as also described in the above embodiment, the display template D is a display template adapted to an ultrasound image to be displayed, and the display ratio of the image display area of the display template D is 1/2 in width and 1/2 in length, and if the resolution of the display of the current ultrasound apparatus is 1024×768, for example, the size of the image display area of the display template D is 512×384.

Further specifically, the determining whether the size of the ultrasound image to be displayed is adapted to the size of the image display area of the display template with the highest current priority includes:

Judging whether the size of an image display area of a display template with the highest current priority is larger than or equal to the size of the ultrasonic image to be displayed;

If yes, judging that the size of the ultrasonic image to be displayed is matched with the size of the image display area of the display template with the highest current priority;

if not, judging that the size of the ultrasonic image to be displayed is not matched with the size of the image display area of the display template with the highest current priority.

In some embodiments, the display template with the highest current priority is the same as the display template D in the foregoing embodiments, and at this time, whether the display template D is adapted to the ultrasound image to be displayed is determined by determining whether the size of the image display area of the display template D is greater than or equal to the size of the ultrasound image to be displayed. For example, if the size of the ultrasound image to be displayed is 512×260, the size of the ultrasound image to be displayed is smaller than the size of the image display area of the display template D, so that the size of the display template D is adapted to the size of the ultrasound image to be displayed. If the size of the ultrasound image to be displayed is 600×400, the size of the display template D is not adapted to the size of the ultrasound image to be displayed.

Specifically, the resolution adaptation method further includes, after the step of obtaining a display template adapted to the ultrasound image to be displayed:

acquiring the display proportion of each display area in a display template matched with the ultrasonic image to be displayed;

and calculating the sizes of all the display areas except the image display areas in the display template according to the display proportion of all the display areas of the display template matched with the ultrasonic image to be displayed and the size of the image display area in the display template matched with the ultrasonic image to be displayed.

In some embodiments, as described above, each display template includes a plurality of display regions, e.g., display template D includes 5 display regions, where the display proportions of each display region are known, and since the size of the image display region in display template D is known by calculation, the size of the other display regions in display template D can be calculated.

As another embodiment of the present invention, a storage medium is provided, comprising computer instructions loaded by a processor to perform the resolution adaptation method described previously.

As another embodiment of the present invention, an ultrasound device is provided that includes a memory communicatively coupled to a processor, the memory having stored therein computer instructions, and a processor that, upon execution of the computer instructions, performs the resolution adaptation method described herein.

It is to be understood that the above embodiments are merely illustrative of the application of the principles of the present invention, but not in limitation thereof. Various modifications and improvements may be made by those skilled in the art without departing from the spirit and substance of the invention, and are also considered to be within the scope of the invention.

Claims (7)

1. A resolution adaptation method, comprising:

Acquiring an ultrasonic image to be displayed;

Calculating the size of the ultrasonic image to be displayed by acquiring the pixel points of the ultrasonic image to be displayed;

Obtaining display templates in a display template library in a self-adaptive manner according to the size of the ultrasonic image to be displayed, and obtaining a display template matched with the ultrasonic image to be displayed, wherein the display template library comprises a plurality of display templates, each display template comprises a plurality of display areas, each display area corresponds to a display proportion, each display template corresponds to a priority, and the height of the priority corresponding to each display template and the frequency of each display area of the display template used in a display of the current ultrasonic device are positively correlated;

Displaying the ultrasonic image to be displayed on a display of ultrasonic equipment through a display template matched with the ultrasonic image to be displayed;

The step of adaptively obtaining the display templates in the display template library according to the size of the ultrasonic image to be displayed, and the step of obtaining the display templates matched with the ultrasonic image to be displayed comprises the following steps:

acquiring a display template with highest current priority in a display template library;

calculating the size of an image display area of the display template with the highest current priority;

Judging whether the size of an image display area of a display template with the highest current priority is larger than or equal to the size of the ultrasonic image to be displayed;

If yes, determining the display template with the highest current priority as the display template matched with the ultrasonic image to be displayed.

2. The resolution adaptation method according to claim 1, wherein the adaptively acquiring the display templates in the display template library according to the size of the ultrasound image to be displayed, to obtain the display templates adapted to the ultrasound image to be displayed, further comprises:

And if not, returning to the step of acquiring the display template with the highest priority in the remaining display templates in the display template library.

3. The resolution adaptation method according to claim 1, wherein the calculating the image display area size of the display template with the highest current priority comprises:

Acquiring the resolution of a display of the current ultrasonic equipment;

acquiring the display proportion of an image display area in a display template with the highest current priority;

And calculating the size of the image display area of the display template with the highest current priority according to the resolution of the display and the display proportion of the image display area in the display template with the highest current priority.

4. The resolution adaptation method according to claim 1, further comprising, after the step of obtaining a display template adapted to the ultrasound image to be displayed:

acquiring the display proportion of each display area in a display template matched with the ultrasonic image to be displayed;

and calculating the sizes of all the display areas except the image display areas in the display template according to the display proportion of all the display areas of the display template matched with the ultrasonic image to be displayed and the size of the image display area in the display template matched with the ultrasonic image to be displayed.

5. The resolution adaptation method according to any one of claims 1 to 4, wherein each display template in the library of display templates corresponds to one display interface in a display of an ultrasound device.

6. A storage medium comprising computer instructions loaded by a processor to perform the resolution adaptation method of any one of claims 1 to 5.

7. An ultrasound device comprising a memory and a processor, the memory being communicatively coupled to the processor, the memory having stored therein computer instructions that, upon execution, cause the processor to perform the resolution adaptation method of any one of claims 1 to 5.