CN110399081B - Monitoring equipment and display interface layout adjusting method and device thereof - Google Patents
Monitoring equipment and display interface layout adjusting method and device thereof Download PDFInfo
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- CN110399081B CN110399081B CN201910543237.7A CN201910543237A CN110399081B CN 110399081 B CN110399081 B CN 110399081B CN 201910543237 A CN201910543237 A CN 201910543237A CN 110399081 B CN110399081 B CN 110399081B
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Abstract
The application discloses monitoring equipment and display interface layout adjusting method and device thereof, touch operation is identified by detecting touch operation of a user, whether the touch operation accords with a preset layout adjusting gesture is judged, and display interface layout is adjusted based on the touch operation of the user when the touch operation accords with the preset layout adjusting gesture, so that the user can directly adjust interface layout at a real-time interface, operation steps of the user are reduced, operation mainly depends on the touch operation of the user, operation habits of people are better met, operation is more visual and simple, layout adjusting efficiency and usability are improved, and user experience is improved.
Description
The application is a divisional application of the following parent cases:
the parent application date is 2013.12.31, the Chinese application number is 201310754521.1, and the name of the parent application is monitoring equipment and a display interface layout adjusting method and device thereof.
Technical Field
The present application relates to monitoring devices, and more particularly, to a method and an apparatus for adjusting a layout of a display interface of a monitoring device.
Background
The monitoring devices are used for displaying or playing back vital sign data (such as electrocardio, pulse rate, blood oxygen, blood pressure, respiration, body temperature, etc.) of a patient in real time, and commonly used monitoring devices include monitors, anesthetics, ventilators, defibrillators, central stations, etc. When the vital sign data is displayed on the display interface, the displayed form of the vital sign data comprises characters (such as numbers, characters, symbols and the like) and/or waveforms and the like. In practical applications, users often need to adjust the display interface layout of the monitoring device, for example, to display in a user-preferred layout, or to place critical vital sign data of patients in more prominent positions to assist clinical observation and judgment of users, and so on. The adjustment of the display layout generally comprises the switching of different layouts and the adjustment of the patient sign information displayed at different positions of the same layout. At present, the display interface layout of the monitoring device is adjusted in the following manner: a special layout setting interface is opened through a mouse, a knob, a navigation key or a direct click touch screen, and different layouts are selected on the setting interface, so that the switching of the layouts is realized. In addition, a schematic diagram of a designated layout is displayed on a setting interface, and the patient sign data displayed at the position is set by selecting the designated position of the schematic diagram, so that the setting of the layout display elements is realized, and the adjusted layout is displayed on the interface after the setting is effective.
The current adjusting mode has multiple operation steps and is not intuitive and convenient to operate.
Disclosure of Invention
The application provides a monitoring device and a display interface layout adjusting method and device thereof, which can facilitate the operation of a user.
According to a first aspect of the present application, there is provided a display interface layout adjustment method for a monitoring device, the monitoring device including a multi-touch screen as a display and input device, the method including:
detecting touch operation input by a user through a touch screen in a vital sign display interface state to generate touch information;
recognizing the action of the touch operation of the user according to the touch information to generate action information;
judging whether the detected touch action conforms to a preset layout adjustment gesture;
if so, starting a corresponding layout adjustment process according to the touch action, otherwise, keeping the current display interface unchanged.
According to a second aspect of the present application, there is provided an apparatus for adjusting a display interface layout of a monitoring device, the monitoring device comprising a multi-touch screen for functioning as a display and input device, the apparatus comprising:
the action recognition unit is used for receiving touch information output by the touch screen in the state of the vital sign display interface, recognizing the action of touch operation of a user according to the touch information and generating action information;
the adjustment judging unit is used for judging whether the detected touch action conforms to a preset layout adjustment gesture;
and the layout adjusting unit is used for starting a corresponding layout adjusting process according to the touch action when the touch action conforms to a preset layout adjusting gesture, and keeping the current display interface unchanged when the touch action does not conform to the preset layout adjusting gesture.
According to a third aspect of the present application, there is provided a monitoring device comprising:
the data detection module is used for detecting vital sign data of the monitored person;
the input end of the data processing module is coupled to the output end of the data detection module and is used for analyzing and processing the vital sign data;
the display processing module is used for generating visual display data according to the result analyzed and processed by the data processing module;
the touch screen is a multi-point touch display screen, is in signal connection with the display processing module, and is used for providing a visual display interface and a user input interface for the monitoring equipment and outputting touch information when sensing touch operation of a user;
the display processing module comprises the display interface layout adjusting device, and the display interface layout adjusting device receives touch information output by the touch screen and adjusts the display interface layout according to the touch information.
According to the method and the device, the touch operation of the user is detected, the touch action of the user is recognized, the touch action is compared with the preset layout adjusting gesture, and the display interface layout is adjusted based on the touch action of the user when the touch action is met, so that the user can directly adjust the interface layout at a real-time interface, the operation steps of the user are reduced, the operation mainly depends on the touch operation of the user, the operation habit of people is better met, the operation is more visual and simple, the efficiency and the usability of layout adjustment are improved, and the user experience is improved.
Drawings
FIG. 1 is a schematic structural diagram of a monitoring device according to an embodiment of the present application;
fig. 2 is a schematic structural diagram of a display interface layout adjustment apparatus according to an embodiment of the present application;
FIG. 3 is a flow chart of layout adjustment according to an embodiment of the present application;
fig. 4 is a schematic structural diagram of a layout adjustment unit according to an embodiment of the present application;
FIG. 5 is a flow chart of exchanging layout display elements according to an embodiment of the present application;
fig. 6 is a schematic structural diagram of a layout adjustment unit according to a second embodiment of the present application;
FIG. 7 is a flow chart of exchanging layout display elements according to the second embodiment of the present application;
FIG. 8 is a schematic diagram of displaying a corresponding view of the original display area in the vicinity of the original display area;
FIG. 9 is a diagram illustrating an interface object of an original display area being changed to a draggable state;
FIG. 10 is a schematic diagram of a layout before and after an element swap;
FIG. 11 is a diagram of a layout selection interface in accordance with an embodiment of the present application;
fig. 12 is a flowchart illustrating a layout display element change according to a sixth embodiment of the present application;
fig. 13 is a schematic diagram showing the vital sign data items displayed as thumbnails.
Detailed Description
The present invention will be described in further detail with reference to the following detailed description and accompanying drawings.
Referring to fig. 1, the monitoring device includes a display processing module 1, a data detecting module 2, a data processing module 3 and a touch screen 4, wherein the data detecting module 2 is used for detecting vital sign data of a monitored person; the input end of the data processing module 3 is coupled to the output end of the data detection module and is used for analyzing and processing the vital sign data; the display processing module 1 is used for generating visual display data according to the result analyzed and processed by the data processing module; the touch screen 4 is a multi-touch display screen, is in signal connection with the display processing module 1, and is used for providing a visual display interface and a user input interface for the monitoring device and outputting touch information when sensing touch operation of a user. In order to adjust the display interface layout, in this embodiment of the application, the display processing module 1 further includes a display interface layout adjusting device 10, where the display interface layout adjusting device 10 receives touch information output by the touch screen and adjusts the display interface layout according to the touch information.
Referring to fig. 2, the display interface layout adjusting apparatus 10 includes a motion recognition unit 11, an adjustment determination unit 12, and a layout adjusting unit 13. The action recognition unit 11 is configured to receive touch information output by the touch screen in the vital sign display interface state, recognize an action of a user touch operation according to the touch information, and generate action information; the adjusting and judging unit 12 is configured to judge whether the detected touch action meets a predetermined layout adjusting gesture; the layout adjusting unit 13 is configured to start a corresponding layout adjusting process according to the touch action when the touch action meets a predetermined layout adjusting gesture, and keep the current display interface unchanged when the touch action does not meet the predetermined layout adjusting gesture.
The layout adjustment method based on the monitoring device is shown in fig. 3, and includes the following steps:
and step 20, displaying an initial state real-time interface. The display interface displays the vital sign data of the patient in real time according to the setting of the current layout. By setting the layout, the display mode of the entire layout, the display mode of the vital sign data items, the display area of the vital sign data items, and the like can be specified.
The display of the layout can take several basic forms:
1. and displaying according to the text description of the layout.
2. By predefined schematic or thumbnail display of the layout.
3. And displaying the thumbnail of the interface display effect after the effective layout.
The vital signs data items may be displayed in several basic forms:
1. in textual description or abbreviated form of vital sign data.
2. Displayed in the form of a predefined schematic of vital sign data.
3. And selecting a thumbnail of the interface effect of the area after the vital sign takes effect.
And step 21, detecting the touch operation input by the user through the touch screen. When a user desires to adjust the real-time interface layout, the user contacts the touch screen, the touch screen outputs touch information when sensing the touch operation of the user, and the action recognition unit receives the touch information output by the touch screen, wherein the touch information is mainly related information of a touch point, including but not limited to coordinates of the touch point, touch time and pressure of the touch point.
And step 22, recognizing the touch action. The touch point information is information about a single touch point, not motion information, and it is necessary to recognize a motion of the user from the touch point information, and generate user motion information, and the motion information includes, but is not limited to, any one of a motion, position coordinates of the motion, a motion direction, a motion speed (magnitude and direction), an acceleration (magnitude and direction) of the motion, or a combination thereof. In this step, the user starts the layout adjustment process by performing a predetermined layout adjustment action, which is an interactive process between the user and the monitoring device through the touch screen input device.
And step 23, judging whether the detected touch action conforms to a preset layout adjustment gesture. Namely, according to the user action, whether the touch action is corresponding to a preset layout adjustment gesture or not is judged in an interface operation area of the action. If yes, step 24 is executed, and if the touch action and the preset layout adjustment gesture do not correspond to the same, step 20 is continuously executed, and the current display interface is kept unchanged.
The layout adjustment gesture may be a touch operation, a touch operation trajectory, or other gesture. The touch operation may be, for example, a long click, a contact by a plurality of fingers, a slide motion in a certain direction, a slide motion larger than a certain speed value, a motion of a clip of two fingers, or the like. The touch operation track may be, for example, drawing a certain figure, such as a geometric figure, a letter, and the like, on the interface.
And 24, if the touch action corresponds to a preset layout adjustment gesture, starting a corresponding layout adjustment process by the interface.
The adjustment of the display interface layout includes adjustment of any display mode, display element and display position on the display interface, for example:
and switching the layout, namely switching the current overall layout to another layout.
And changing layout display elements, wherein the display elements refer to vital sign data items which can be displayed in a certain area of a display interface as an independent display unit, the change of the display elements is to change the current vital sign data item displayed in the layout area desired by the user into another vital sign data item selected by the user, and the vital sign data items include but are not limited to electrocardio, pulse rate, blood oxygen, blood pressure, respiration, body temperature and the like.
And exchanging the layout display elements, namely exchanging the vital sign data items displayed in the layout area desired by the user and the vital sign data items displayed in the target area desired by the user.
The three layout adjustments are described as examples below, and those skilled in the art will understand that the layout adjustment scheme of the present application can also be applied to other layout adjustments.
The first embodiment is as follows:
in this embodiment, description will be given taking an example of exchanging layout display elements.
In this embodiment, the layout adjustment gesture is a layout display element exchange gesture, and the schematic structural diagram of the layout adjustment unit includes, as shown in fig. 4, an original display area determining subunit 131, a target display area determining subunit 132, an interchange judging subunit 133, and an exchange subunit 134. The original display area determining subunit 131 is configured to determine an original display area based on a touch operation of a user, and take a display element in the original display area as an object to be exchanged; the target display area determination subunit 132 is configured to determine a target display area based on a touch operation by the user, and take a display element in the target display area as a target object; the interchange judging subunit 133 is configured to judge whether the object to be interchanged in the original display area can be interchanged with the target object in the target display area; the swapping subunit 134 is configured to swap an object to be swapped in the original display area and a target object in the target display area when the determination result is swappable, and keep the original display area and the target display area unchanged when the determination result is not swappable.
In a modified specific example, the layout adjusting unit further includes a first prompting subunit 135, and the first prompting subunit 135 is configured to perform visual prompting according to a determination result made by the interchange determining subunit.
Based on the monitoring device of the embodiment, when the user desires to exchange the layout display elements, the processing method is as shown in fig. 5, and includes the following steps:
In step 213, the original display area is determined. The method for determining the original display area may be various, for example, the display area may be determined by a position of a user touch operation detected later, or the original display area may be determined by a layout display element exchange gesture of the user, after the layout display element exchange gesture of the user is detected, position information of the touch operation that conforms to the layout display element exchange gesture is acquired, a position coordinate of the gesture is detected, a display area where the touch operation that conforms to the layout display element exchange gesture is located is determined according to the position information, and the display area where the touch operation that conforms to the layout display element exchange gesture is located is used as the original display area.
And after the original display area is determined, taking the display elements in the original display area as objects to be exchanged.
In step 214, the target display area is determined. After the original display area is determined, if the touch operation of the user is detected again, the target display area is determined based on the touch operation, and the display elements in the target display area are used as target objects.
The method for judging whether the object to be exchanged in the original display area can be exchanged with the target object in the target display area can judge according to whether the sizes of the original display area and the target display area are equal or similar, when the shapes and the areas of the original display area and the target display area are the same, the exchange is allowed, otherwise, the exchange is not allowed; or judging whether the object to be exchanged and the target object belong to the same type, for example, if both are waveform diagrams or both are text descriptions, the object to be exchanged and the target object are allowed to be exchanged, and if one is a waveform diagram and the other is a text description, the object to be exchanged and the target object are not allowed to be exchanged; the determination may also be performed according to the vital sign data items corresponding to the object to be exchanged and the target object, for example, it is preset which vital sign data items can be exchanged and which cannot be exchanged. In a preferred embodiment, the step of determining whether the object to be exchanged in the original display area can be exchanged with the target object in the target display area comprises the following steps:
acquiring a vital sign data item corresponding to a subject to be exchanged;
acquiring a vital sign data item corresponding to a target object;
judging whether the object to be exchanged in the original display area can be exchanged with the target object in the target display area or not according to the vital sign data items of the two and a preset display area-vital sign corresponding table; the display area-vital sign correspondence table specifies all vital sign data items allowed to be displayed in each display area, or specifies an area in which each vital sign data item can be displayed, for example, according to a standard or a use habit of a user; only a few specific vital sign data items such as electrocardio, heart rate and the like can be displayed in the significant area;
when the vital sign data items corresponding to the objects to be exchanged are allowed to be displayed in the target display area and the vital sign data items corresponding to the target objects are allowed to be displayed in the original display area, the objects to be exchanged in the original display area can be considered to be exchanged with the target objects in the target display area, otherwise, the objects to be exchanged in the original display area cannot be considered to be exchanged with the target objects in the target display area.
And step 216, outputting visual prompt information to prompt a user that the object to be exchanged in the original display area and the target object in the target display area can be exchanged.
In the prior art, the display elements of the display area can be changed by setting the layout on the layout setting interface, but the operation steps are complicated. In the embodiment, the display elements of the two display areas expected by the user can be interchanged by directly operating the display interface by the user, and the operation is simple. In the embodiment, the user can be prompted whether the interchange is allowed or not through the interchange judgment and the prompting information, and if the interchange is not allowed, the user can select the target area again according to the prompt.
Example two:
in another embodiment, referring to fig. 6, the layout adjustment unit includes an original display area determining subunit 131, a target display area determining subunit 132, an interchange judging subunit 133, an interchange subunit 134, and a second prompting subunit 136. The interchange judgment subunit 133 further identifies, after determining the original display area, a first type of display area that allows the object to be exchanged to display and a second type of display area that does not allow the object to be exchanged to display in all other display areas except the original display area on the display interface according to the vital sign data item corresponding to the object to be exchanged; the second prompting subunit 136 is configured to perform different highlighting on the first-type display area and the second-type display area according to the recognition result output by the interchange judgment subunit.
Based on the monitoring device of the embodiment, when the user desires to exchange the layout display elements, the processing method is as shown in fig. 7, and includes the following steps:
At step 223, the original display area is determined. The method for determining the original display area is the same as that of the first embodiment. And after the original display area is determined, taking the display elements in the original display area as objects to be exchanged.
At step 224, the interchangeability of the regions is identified. The method comprises the steps of obtaining vital sign data items corresponding to a subject to be exchanged, and identifying a first type of display area allowing the subject to be exchanged to display and a second type of display area not allowing the subject to be exchanged to display in all other display areas except an original display area on a display interface according to the vital sign data items corresponding to the subject to be exchanged.
And 225, highlighting the first type display area and the second type display area differently according to the identification result. In one embodiment, the system pre-defines whether each region displays the vital sign data items interchangeably, such as by specifying all the vital sign data items that each display region allows for display via a display region-vital sign correspondence table, or specifying the region in which each vital sign data item can be displayed. For example, the icon or interface Object of Area1 is Object1, and the display Area includes (Area 1, area2, area3, area4, area 5), assuming that Area1 is adjustable with (Area 3, area 5) and not interchangeable with (Area 2, area 4). The borders of Area3 and Area5 display the exchangeable label colors and the non-exchangeable label colors of the borders of Area2 and Area 4.
In step 226, the target display area is determined. And determining a target display area based on the touch operation of the user, and taking the display element in the target display area as a target object. Since the interchangeable area and the non-interchangeable area are highlighted in different manners, the user can know in advance which areas are interchangeable and which are not interchangeable, so that the user has a more definite target when determining the target display area.
And 227, interchanging the object to be interchanged in the original display area and the target object in the target display area.
Example three:
the present embodiment is different from the foregoing embodiments in that the layout adjusting unit further includes a dragging subunit, where the dragging subunit is configured to, after determining the original display area, display a corresponding icon of the original display area in the vicinity of the original display area or change a display manner of an interface object of the original display area, and then move the corresponding icon or the interface object of the original display area along a touch operation trajectory of a user according to a touch operation input by the user through the touch screen. The interface object is an interface control for displaying the vital sign data item in the interface display area. The action recognition unit is also used for detecting the touch operation of a user and generating touch track information, wherein the track information at least comprises position information of each contact in the touch track; the target display area determining subunit is configured to obtain position information of a last touch point in the touch trajectory from the touch trajectory information, determine a display area where the last touch point is located according to the position information of the last touch point, and use the display area where the last touch point is located as the target display area.
As shown in fig. 8, which is a schematic diagram showing a corresponding diagram of an original display region displayed in the vicinity of the original display region after the original display region is determined, 801 indicates an entire interface layout, when a user selects P l eth (blood oxygen saturation), a diagram 802 appears near its current display region, and the user can drag the diagram 802 to a target region.
As shown in fig. 9, when the original display area is determined, the interface object of the original display area becomes draggable, indicated by 901 as the whole interface layout, and when the user selects waveform 3, the interface object 902 becomes draggable, and the dragging state of the interface object can be distinguished from the real-time interface by a special color of a border, or the interface object is distinguished from the real-time interface in a floating display manner, or the interface object is highlighted and distinguished from the real-time interface. The user may then drag interface object 902 to the target area. The schematic diagram before and after swapping is shown in fig. 10, the upper diagram is the display interface layout before swapping, and the lower diagram is the layout after layout display element swapping.
Example four:
when it is judged that the object to be exchanged in the original display area can be exchanged with the target object in the target display area, the object to be exchanged and the target object can be directly exchanged, but for the waveform diagram of the vital sign data, the waveform diagram is generated continuously along with the time due to the real-time property of the waveform diagram, and the direct exchange mode can cause the sudden change of the waveform. In this embodiment, the animation mode is adopted for switching, that is, the waveform is updated while moving.
In this embodiment, the swapping subunit generates a first path from the original display area to the target display area and a second path from the target display area to the original display area according to the positions of the original display area and the target display area, moves the object to be swapped according to the first path, and moves the target object according to the second path, where the moving time is the same, and the speed is gradually increased and then gradually decreased in the moving process.
For example: the interface Object corresponding to the original display Area1 is Object1, the target Area is Area2, and the interface Object corresponding to the interface is Object2. The current position of the interface Object1 is located in Area2, the moving path is P1, the Object2 is located in Area2, the moving path is P2.
The initial speed of both objects is 0, the Object1 and the Object2 use the same time to complete the movement, the completion time is T, the path length of the moving path P1 is L1, the path length of the moving path P2 is L2, and the Object1 uses the acceleration 4L1/T at the time of the previous T/2 2 acceleration-4L 1/T is used for the time of the first T/2 later 2 Acceleration of Object2 at the previous T/2 time-4L 2/T 2 acceleration-4L 2/T is used at the time of the first T/2 later 2 And finishing the whole moving process, wherein the point speed of the two objects in the moving path is maximum, the speed is reduced to 0 at the finishing point, and the moving use time of the two objects is the same.
Example five:
in this embodiment, a description will be given by taking a layout switching example.
In this embodiment, the layout adjustment gesture is a layout switching gesture, and when it is determined that the detected touch action corresponds to the layout switching gesture, starting a corresponding layout adjustment process according to the touch action includes any one of the following steps:
displaying a layout selection interface;
the layout is switched to the previous one or the next one in sequence;
switching directly to the specified layout. For example, defining a layout switching action for a specific layout, such as a large font layout interface, and quickly switching between the specific interface and the current interface.
In a specific example, when it is determined that the detected touch action corresponds to the layout switching gesture, a layout selection interface is displayed, and on the layout selection interface, the current layout item is specially marked, for example, by using a different color mark, highlighting, or using a border mark. The text description of the layout item can be displayed in a list form, the current layout item is highlighted, and the user clicks an operation interface through sliding. The layout items may also be displayed in the form of thumbnail images, as shown in fig. 11, where the current layout item has a special border, and the user selects a desired layout item by sliding and clicking an operation interface.
And when the user selects a desired layout item, switching to the specified layout according to the layout interface selected by the user, and finishing the layout adjustment process.
Example six:
in this embodiment, a description will be given taking a change of layout display elements as an example.
In this embodiment, the layout adjustment gesture is a layout display element change gesture, and when it is determined that the detected touch action matches the layout display element change gesture, a corresponding layout adjustment process is started according to the touch action, as shown in fig. 12, which includes the following steps:
In step 233, the changed region is determined. The method for determining the change area may be various, for example, the change area may be determined by a position of a user touch operation detected later, or the change area may be determined by a layout display element change gesture of the user, after the layout display element change gesture of the user is detected, position information of the touch operation corresponding to the layout display element change gesture is acquired, a position coordinate of the gesture is detected, and a display area where the touch operation corresponding to the layout display element change gesture is located is determined according to the position information.
At step 234, display element change is performed according to the display element change gesture. The manner in which the display element is changed may be any of the following manners:
1. displaying a vital sign data item selection interface; the real-time interface displays a patient vital sign data selection interface, displays adjustable vital sign data items in the area, and specially marks the currently displayed vital sign data items on the interface. The parameter abbreviations of the vital sign data items can be displayed in a list mode, the vital sign data items currently monitored by the monitor are listed, and a user clicks an operation interface through sliding. Or the displayed vital sign data items are displayed in a thumbnail, as shown in fig. 13, the currently displayed vital sign data items have a special border, and the user selects a desired vital sign data item by sliding and clicking an operation interface. After the user selects the patient vital sign data which is expected to be displayed, the change area is switched to the appointed patient vital sign data item according to the selection of the user, and the layout adjustment process is completed.
2. Sequentially switching to the previous or next vital sign data item; the display element changing gesture can be a sliding operation to the left or the right, for example, the user can switch to the previous or the next vital sign data according to the sliding direction, and the user can continuously slide until the desired vital sign data item is switched.
3. Directly switching to the specified vital sign data item.
Those skilled in the art will appreciate that all or part of the steps of the various methods in the above embodiments may be implemented by instructions associated with hardware via a program, which may be stored in a computer-readable storage medium, and the storage medium may include: read-only memory, random access memory, magnetic or optical disk, and the like.
The foregoing is a more detailed description of the present invention with reference to specific embodiments thereof, and it is not intended to limit the invention to the specific embodiments thereof. It will be apparent to those skilled in the art that a number of simple derivations or substitutions can be made without departing from the inventive concept.
Claims (54)
1. A method for adjusting a display interface layout of a monitoring device, the monitoring device comprising a touch screen for use as a display and input device, the method comprising:
detecting touch operation input by a user through the touch screen in a display interface state for displaying vital signs, and generating touch information;
recognizing the action of the touch operation of the user according to the touch information to generate action information;
judging whether the detected touch action conforms to a preset layout adjustment gesture;
if so, starting a corresponding layout adjustment process according to the touch action, otherwise keeping the current display interface unchanged; the layout adjustment process includes:
determining an original display area based on touch operation of a user, and taking a vital sign data item of the original display area as an object to be exchanged;
displaying a corresponding graphic representation of the vital sign data item of the original display area near the original display area, or changing a display mode of an interface control of the vital sign data item of the original display area, and moving the corresponding graphic representation or the interface control of the vital sign data item of the original display area along a touch operation track of a user according to the touch operation input by the user through the touch screen; and updating the vital sign data item while moving in the process of moving the corresponding graph or interface control of the vital sign data item of the original display area along the touch operation track of the user, wherein the display form of the vital sign data item at least comprises one of numbers, literal descriptions, literal abbreviations, symbols and/or waveforms.
2. The method of claim 1, wherein the vital sign data items include at least one of electrocardiogram, pulse rate, blood oxygen, blood pressure, respiration, and body temperature.
3. The method of claim 1, wherein the display interface displays vital sign data items of a monitored person in real-time according to settings of a current layout of the display interface.
4. The method of claim 1, further comprising:
detecting vital sign data of a monitored person;
analyzing and processing the detected vital sign data;
generating visual vital sign data from the analyzed and processed result;
and displaying the vital sign data in real time according to the setting of the current layout.
5. The method of claim 1, wherein when the displayed form of the vital signs data item includes a waveform, updating the waveform while moving in moving the corresponding graphical representation or interface control of the vital signs data item of the original display area along the user's touch manipulation trajectory.
6. The method of claim 1, wherein changing the display of the interface control for the vital signs data item in the original display region comprises: and displaying the interface control of the vital sign data item in the original display area in a draggable state.
7. The method of claim 6, wherein displaying the interface control for the vital signs data item of the original display area in a draggable state comprises: and displaying the frame of the interface control of the vital sign data item as a special color to distinguish the frame from a real-time interface, and distinguishing the interface control of the vital sign data item from the real-time interface in a suspension display mode, or highlighting the interface control of the vital sign data item to distinguish the interface from the real-time interface.
8. The method according to any one of claims 1 to 7, wherein, after determining an original display area based on a touch operation of a user, and taking a vital sign data item of the original display area as a subject to be exchanged, the method further comprises:
acquiring a vital sign data item corresponding to a subject to be exchanged;
according to vital sign data items corresponding to the object to be exchanged, identifying a first type of display area allowing the object to be exchanged to display and a second type of display area not allowing the object to be exchanged to display in all other display areas except the original display area on the display interface;
and performing different highlighting on the first type display area and the second type display area according to the identification result.
9. The method of any of claims 1 to 7, wherein the layout adjustment process comprises a change of a display element, wherein the layout adjustment gesture comprises a layout display element change gesture, and wherein, when it is determined that the detected touch action corresponds to the layout display element change gesture, the initiating the corresponding layout adjustment process according to the touch action comprises any of:
displaying a vital sign data item selection interface;
sequentially switching to the previous or next vital sign data item;
switching directly to the specified vital sign data item.
10. The method of claim 8, wherein the layout adjustment process includes a change of a display element, the layout adjustment gesture includes a layout display element change gesture, and when it is determined that the detected touch action corresponds to the layout display element change gesture, the initiating the corresponding layout adjustment process according to the touch action includes any of:
displaying a vital sign data item selection interface;
sequentially switching to the previous or next vital sign data item;
switching directly to the specified vital sign data item.
11. A method for adjusting a display interface layout of a monitoring device, the monitoring device comprising a touch screen for use as a display and input device, the method comprising:
detecting touch operation input by a user through the touch screen in a display interface state for displaying vital signs, and generating touch information;
recognizing the action of the touch operation of the user according to the touch information to generate action information; judging whether the detected touch action conforms to a preset layout adjustment gesture;
if so, starting a corresponding layout adjustment process according to the touch action, otherwise keeping the current display interface unchanged; the layout adjustment process includes:
determining an original display area based on touch operation of a user, and taking a display element in the original display area as an object to be exchanged;
determining a target display area based on touch operation of a user, and taking a display element in the target display area as a target object;
judging whether the object to be exchanged in the original display area can be exchanged with the target object in the target display area;
if so, outputting a prompt that the exchange can be carried out, and/or interchanging the object to be exchanged in the original display area and the target object in the target display area, otherwise, outputting a prompt that the exchange cannot be carried out, and/or keeping the original display area and the target display area unchanged;
in the process of interchanging the object to be interchanged in the original display area and the target object in the target display area, updating the vital sign data item corresponding to the object to be interchanged and/or the vital sign data item corresponding to the target object while moving, wherein the display form of the vital sign data item at least comprises one of numbers, word descriptions, word abbreviations, symbols and/or waveforms.
12. The method of claim 11, wherein the vital sign data items include at least one of electrocardiogram, pulse rate, blood oxygen, blood pressure, respiration, and body temperature.
13. The method of claim 11, wherein the display interface displays vital sign data items of a monitored person in real time as set by a current layout of the display interface.
14. The method of claim 11, further comprising:
detecting vital sign data of a monitored person;
analyzing and processing the detected vital sign data;
generating visual vital sign data from the analyzed and processed result;
and displaying the vital sign data in real time according to the setting of the current layout.
15. The method according to claim 11, wherein when the displayed form of the vital sign data item includes a waveform, the waveform is updated while being moved in a process of interchanging a subject of the original display area and a target subject of the target display area.
16. The method according to claim 11 to the above, wherein after determining an original display area based on a touch operation of a user, and taking a display element in the original display area as an object to be exchanged, the method further comprises: displaying the display elements in the original display area as a draggable state.
17. The method of claim 16, wherein the displaying the display element in the original display area in a draggable state comprises: and displaying the frame of the display element as a special color to distinguish the frame from a real-time interface, and distinguishing the display element from the real-time interface in a suspension display mode, or highlighting the display element to distinguish the display element from the real-time interface.
18. The method of any of claims 11 to 17, wherein determining whether the object to be swapped in the original display area can be interchanged with the target object in the target display area comprises:
acquiring a vital sign data item corresponding to a subject to be exchanged;
acquiring a vital sign data item corresponding to a target object;
judging whether the object to be exchanged in the original display area can be exchanged with the target object in the target display area or not according to the vital sign data items of the original display area and the target object;
when the vital sign data items corresponding to the objects to be exchanged are allowed to be displayed in the target display area and the vital sign data items corresponding to the target objects are allowed to be displayed in the original display area, judging that the objects to be exchanged in the original display area can be interchanged with the target objects in the target display area, otherwise, judging that the objects to be exchanged in the original display area cannot be interchanged with the target objects in the target display area.
19. The method according to claim 18, wherein whether the subject to be exchanged in the original display area can be interchanged with the target subject in the target display area is determined according to the vital sign data items of the two and a preset display area-vital sign correspondence table, wherein the display area-vital sign correspondence table specifies all the vital sign data items allowed to be displayed in each display area or specifies an area in which each vital sign data item can be displayed.
20. The method according to any one of claims 11 to 17, wherein after determining an original display area based on a touch operation of a user, and taking a display element in the original display area as an object to be exchanged, the method further comprises:
acquiring a vital sign data item corresponding to a subject to be exchanged;
according to the vital sign data items corresponding to the object to be exchanged, identifying a first type display area allowing the object to be exchanged to display and a second type display area not allowing the object to be exchanged to display in all other display areas except the original display area on the display interface;
and performing different highlighting on the first type display area and the second type display area according to the identification result.
21. The method of claim 19, wherein after determining an original display area based on a touch operation of a user, and taking a display element in the original display area as an object to be exchanged, the method further comprises:
acquiring a vital sign data item corresponding to a subject to be exchanged;
according to the vital sign data items corresponding to the object to be exchanged, identifying a first type display area allowing the object to be exchanged to display and a second type display area not allowing the object to be exchanged to display in all other display areas except the original display area on the display interface;
and performing different highlighting on the first type display area and the second type display area according to the identification result.
22. The method of any of claims 11-17, 19, 21, wherein the layout adjustment process includes an exchange of display elements, the layout adjustment gesture includes a layout display element exchange gesture, the action information includes at least location information of a touch operation, and the determining the original display area based on the touch operation by the user includes:
acquiring position information of touch operation according with the layout display element exchange gesture;
and determining a display area where the touch operation which is in accordance with the layout display element exchange gesture is located according to the position information, and taking the display area where the touch operation which is in accordance with the layout display element exchange gesture is located as an original display area.
23. The method of any one of claims 11-17, 19, 21, wherein interchanging objects of the original display area to be interchanged and objects of the target display area comprises:
generating a first path from the original display area to the target display area and a second path from the target display area to the original display area according to the positions of the original display area and the target display area;
and moving the object to be exchanged according to a first path, and moving the target object according to a second path.
24. The method of claim 22, wherein interchanging the object to be interchanged of the original display region and the target object for the target display region comprises:
generating a first path from the original display area to the target display area and a second path from the target display area to the original display area according to the positions of the original display area and the target display area;
and moving the object to be exchanged according to a first path, and moving the target object according to a second path.
25. The method of claim 24, wherein a time for moving the object to be exchanged according to the first path is the same as a time for moving the target object according to the second path.
26. The method of any of claims 11-17, 19, 21, wherein determining a target display area based on a user's touch operation comprises:
detecting touch operation of a user, and generating touch track information, wherein the track information at least comprises position information of each contact in a touch track;
acquiring position information of a last contact in a touch track;
and determining the display area where the last touch point is located according to the position information of the last touch point, and taking the display area where the last touch point is located as a target display area.
27. The method of claim 25, wherein the determining a target display area based on the user's touch operation comprises:
detecting touch operation of a user, and generating touch track information, wherein the track information at least comprises position information of each contact in a touch track;
acquiring position information of a last contact in a touch track;
and determining the display area where the last touch point is located according to the position information of the last touch point, and taking the display area where the last touch point is located as a target display area.
28. An apparatus for adjusting a display interface layout of a monitoring device, the monitoring device comprising a touch screen for use as a display and input device, the apparatus comprising:
the action recognition unit is used for receiving touch information output by the touch screen in a display interface state for displaying vital signs, recognizing the action of touch operation of a user according to the touch information and generating action information;
the adjustment judging unit is used for judging whether the detected touch action conforms to a preset layout adjustment gesture;
the layout adjusting unit is used for starting a corresponding layout adjusting process according to the touch action when the touch action conforms to a preset layout adjusting gesture, and keeping the current display interface unchanged when the touch action does not conform to the preset layout adjusting gesture; the layout adjustment unit includes:
the device comprises an original display area determining subunit, a data processing unit and a data processing unit, wherein the original display area determining subunit is used for determining an original display area based on touch operation of a user and taking a vital sign data item of the original display area as a to-be-exchanged object;
the dragging subunit is configured to display a corresponding diagram of the vital sign data item in the original display area near the original display area, or change a display manner of an interface control of the vital sign data item in the original display area, and move the corresponding diagram or the interface control of the vital sign data item in the original display area along a touch operation track of a user according to a touch operation input by the user through the touch screen;
the layout adjusting unit is further configured to update the vital sign data items while moving in a process that the dragging subunit moves the corresponding graphical representation or interface control of the vital sign data item in the original display area along the touch operation trajectory of the user, where a display form of the vital sign data item at least includes one of a number, a textual description, a textual abbreviation, a symbol, and/or a waveform.
29. The apparatus according to claim 28, wherein the vital sign data items include at least one of electrocardiogram, pulse rate, blood oxygen, blood pressure, respiration, and body temperature.
30. The apparatus of claim 28, wherein the display interface is configured to display vital sign data items of a monitored person in real-time according to a setting of a current layout of the display interface.
31. The apparatus of claim 28, wherein when the displayed form of the vital signs data item includes a waveform, the drag subunit updates the waveform while moving in moving the corresponding graphical representation or interface control of the vital signs data item of the original display area along the user's touch manipulation trajectory.
32. The apparatus according to claim 28 or 31, wherein the drag subunit is further configured to, after the original display area determining subunit determines the original display area based on the touch operation of the user and uses the vital sign data item of the original display area as the object to be exchanged, display the interface control of the vital sign data item of the original display area in a draggable state.
33. The apparatus of claim 32, wherein the drag subunit displaying the interface control of the vital signs data item of the original display region in a draggable state comprises: the dragging subunit displays the frame of the interface control of the vital sign data item in a special color to distinguish the frame from a real-time interface, distinguishes the interface control of the vital sign data item from the real-time interface in a suspension display mode, or highlights the interface control of the vital sign data item to distinguish the interface control from the real-time interface.
34. The apparatus of any one of claims 28-31, 33, wherein the layout adjustment unit further comprises:
the interchange judgment subunit is configured to, after the original display area determination subunit determines the original display area based on a touch operation of a user, identify, according to a vital sign data item corresponding to an object to be exchanged, a first type display area allowing the object to be exchanged to display and a second type display area not allowing the object to be exchanged to display in all other display areas except the original display area on the display interface;
and the second prompting subunit is used for performing different highlighting on the first type display area and the second type display area according to the recognition result output by the interchange judgment subunit.
35. The apparatus of claim 32, wherein the layout adjustment unit further comprises:
the interchange judgment subunit is configured to, after the original display area determination subunit determines the original display area based on a touch operation of a user, identify, according to a vital sign data item corresponding to an object to be exchanged, a first type display area allowing the object to be exchanged to display and a second type display area not allowing the object to be exchanged to display in all other display areas except the original display area on the display interface;
and the second prompting subunit is used for performing different highlighting on the first type display area and the second type display area according to the recognition result output by the interchange judgment subunit.
36. The apparatus according to any one of claims 28 to 31, 33 or 35, wherein the layout adjustment process comprises a change of an element, wherein the layout adjustment gesture comprises a layout display element change gesture, and wherein the layout adjustment unit is specifically configured to, when the adjustment determination unit determines that the detected touch action corresponds to the layout display element change gesture, initiate the layout adjustment process comprising any one of the following steps:
displaying a vital sign data item selection interface;
sequentially switching to the previous or next vital sign data item;
directly switching to the specified vital sign data item.
37. The apparatus according to claim 32, wherein the layout adjustment process includes a change of an element, the layout adjustment gesture includes a layout display element change gesture, and the layout adjustment unit is specifically configured to, when the adjustment determination unit determines that the detected touch action corresponds to the layout display element change gesture, start the layout adjustment process including any one of the following steps:
displaying a vital sign data item selection interface;
sequentially switching to the previous or next vital sign data item;
directly switching to the specified vital sign data item.
38. The apparatus according to claim 34, wherein the layout adjustment process includes a change of an element, the layout adjustment gesture includes a layout display element change gesture, and the layout adjustment unit is specifically configured to, when the adjustment determination unit determines that the detected touch action corresponds to the layout display element change gesture, start the layout adjustment process including any one of the following steps:
displaying a vital sign data item selection interface;
sequentially switching to the previous or the next vital sign data item;
switching directly to the specified vital sign data item.
39. An apparatus for adjusting a display interface layout of a monitoring device, the monitoring device comprising a touch screen for use as a display and input device, the apparatus comprising:
the action recognition unit is used for receiving touch information output by the touch screen in a display interface state for displaying vital signs, recognizing the action of touch operation of a user according to the touch information and generating action information;
the adjustment judging unit is used for judging whether the detected touch action conforms to a preset layout adjustment gesture;
the layout adjusting unit is used for starting a corresponding layout adjusting process according to the touch action when the touch action conforms to a preset layout adjusting gesture, and keeping a current display interface unchanged when the touch action does not conform to the preset layout adjusting gesture; the layout adjustment unit includes:
the device comprises an original display area determining subunit, a display element generating subunit and a display element switching unit, wherein the original display area determining subunit is used for determining an original display area based on touch operation of a user and taking a display element in the original display area as an object to be exchanged;
a target display area determination subunit, configured to determine a target display area based on a touch operation of a user, and take a display element in the target display area as a target object;
the interchange judging subunit is used for judging whether the object to be interchanged in the original display area can be interchanged with the target object in the target display area;
the exchange subunit is used for exchanging the object to be exchanged in the original display area with the target object in the target display area when the judgment result is exchangeable, and keeping the original display area and the target display area unchanged when the judgment result is not exchangeable;
the first prompting subunit is used for performing visual prompting according to a judgment result made by the interchange judgment subunit;
the layout adjusting unit is further configured to update, while moving, a vital sign data item corresponding to the object to be exchanged and/or a vital sign data item corresponding to the target object in a process that the exchange subunit exchanges the object to be exchanged in the original display area and the target object in the target display area, where a display form of the vital sign data item at least includes one of a number, a textual description, a textual abbreviation, a symbol, and/or a waveform.
40. The apparatus according to claim 39, wherein the vital sign data items include at least one of electrocardiogram, pulse rate, blood oxygen, blood pressure, respiration, and body temperature.
41. The apparatus of claim 39, wherein the display interface is configured to display vital sign data items of a monitored person in real-time according to a setting of a current layout of the display interface.
42. The apparatus according to claim 39, wherein when the displayed form of the vital sign data item includes a waveform, the layout adjustment unit is further configured to update the waveform while moving in a process in which the swapping subunit swaps the object to be swapped of the original display area and the target object of the target display area.
43. The apparatus according to any one of claims 39 to 42, wherein the layout adjustment unit further comprises a drag subunit configured to determine an original display area based on a touch operation of a user at the original display area determination subunit, and display the display element in the original display area in a draggable state after the display element in the original display area is taken as the object to be exchanged.
44. The apparatus of claim 43, wherein the drag subunit displaying the display element in the original display area as a draggable state comprises: the dragging subunit displays the frame of the display element in a special color to be distinguished from a real-time interface, and distinguishes the display element from the real-time interface in a suspension display mode, or highlights the display element to be distinguished from the real-time interface.
45. The apparatus according to any of claims 39-42, 44, wherein the interchange judgment subunit is specifically configured to:
judging whether the object to be exchanged in the original display area can be exchanged with the target object in the target display area or not according to the vital sign data items corresponding to the object to be exchanged and the target object;
when the vital sign data items corresponding to the objects to be exchanged are allowed to be displayed in the target display area and the vital sign data items corresponding to the target objects are allowed to be displayed in the original display area, judging that the objects to be exchanged in the original display area can be interchanged with the target objects in the target display area, otherwise, judging that the objects to be exchanged in the original display area cannot be interchanged with the target objects in the target display area.
46. The apparatus according to claim 45, wherein the interchange determining subunit is configured to determine whether the object to be exchanged in the original display area can be interchanged with the target object in the target display area according to the vital sign data items corresponding to the object to be exchanged and the target object and a preset display area-vital sign correspondence table, where the display area-vital sign correspondence table specifies all the vital sign data items that are allowed to be displayed in each display area or specifies an area where each vital sign data item can be displayed.
47. The apparatus according to any one of claims 39-42, 44, and 46, wherein the interchange judging subunit is further configured to, after the original display area determining subunit determines the original display area based on the touch operation of the user, identify, according to the vital sign data item corresponding to the object to be exchanged, a first type display area allowing the object to be exchanged to display and a second type display area not allowing the object to be exchanged to display in all other display areas except the original display area on the display interface;
the layout adjusting unit further comprises a second prompting subunit, and the second prompting subunit is used for performing different highlighting on the first-type display area and the second-type display area according to the recognition result output by the interchange judging subunit.
48. The apparatus according to any one of claims 39-42, 44, and 46, wherein the layout adjustment process includes display element exchange, the layout adjustment gesture includes a layout display element exchange gesture, the motion information at least includes position information of a touch operation, and the original display region determination subunit is specifically configured to acquire position information of a touch operation that coincides with the layout display element exchange gesture, determine, according to the position information, a display region in which the touch operation that coincides with the layout display element exchange gesture is located, and use the display region in which the touch operation that coincides with the layout display element exchange gesture is located as the original display region.
49. The apparatus according to claim 47, wherein the layout adjustment process includes display element exchange, the layout adjustment gesture includes a layout display element exchange gesture, the motion information at least includes position information of a touch operation, the original display region determining subunit is specifically configured to acquire position information of a touch operation that corresponds to the layout display element exchange gesture, determine, according to the position information, a display region in which the touch operation that corresponds to the layout display element exchange gesture is located, and use the display region in which the touch operation that corresponds to the layout display element exchange gesture is located as the original display region.
50. The apparatus according to any of claims 39-42, 44, 46, 49, wherein the swapping subunit is specifically configured to generate a first path from the original display area to the target display area and a second path from the target display area to the original display area based on the positions of the original display area and the target display area, and to move the object to be swapped according to the first path and move the target object according to the second path.
51. The apparatus of claim 50, wherein the switching subunit moves the object to be switched according to the first path at the same time as moving the target object according to the second path.
52. The device according to any one of claims 39-42, 44, 46, 49 and 51, wherein the action recognition unit is further configured to detect a touch operation of a user, and generate touch track information, where the track information at least includes position information of each contact point in the touch track; the target display area determining subunit is further configured to obtain position information of a last touch point in the touch trajectory from the touch trajectory information, determine a display area where the last touch point is located according to the position information of the last touch point, and use the display area where the last touch point is located as the target display area.
53. A monitoring device, comprising:
the data detection module is used for detecting vital sign data of the monitored person;
the input end of the data processing module is coupled to the output end of the data detection module and is used for analyzing and processing the vital sign data;
the display processing module is used for generating visual vital sign data from the result analyzed and processed by the data processing module and displaying the vital sign data in real time according to the setting of the current layout; it is characterized by also comprising:
the touch screen is in signal connection with the display processing module and is used for providing a visual display interface and a user input interface for the monitoring equipment and outputting touch information when the touch operation of a user is sensed;
the display processing module comprises a display interface layout adjusting device according to any one of claims 28 to 52, which receives touch information output by the touch screen and adjusts a display interface layout according to the touch information.
54. The monitoring device of claim 53, wherein the monitoring device is a monitor, an anesthesia machine, a ventilator, a defibrillator, or a central station.
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Also Published As
| Publication number | Publication date |
|---|---|
| CN104750406B (en) | 2019-12-24 |
| CN110399081A (en) | 2019-11-01 |
| CN104750406A (en) | 2015-07-01 |
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