CN109419533B - Monitor and interface switching method and device thereof - Google Patents

Abstract

The disclosure relates to a monitor and an interface switching method and device thereof, wherein the interface switching method is applied to the monitor and comprises the following steps: detecting the probe state of the probe configured on the monitor, wherein the probe state comprises an online state; determining the current monitoring mode of the monitor according to the type of the probe corresponding to the probe aiming at the probe with the online state; and switching the current display interface of the monitor to the monitoring interface corresponding to the current monitoring mode. By adopting the monitor and the interface switching method and device thereof, the automatic interface switching is realized without depending on manual realization, and the monitoring efficiency is effectively improved.

Description

Monitor and interface switching method and device thereof

Technical Field

The disclosure relates to the technical field of monitors, in particular to a monitor and an interface switching method and device thereof.

Background

With the continuous improvement of the production level of medical instruments, the monitor not only supports the traditional fetal monitoring, but also supports the maternal monitoring, thereby ensuring the safety of the pregnant women before, during and after delivery.

Monitors typically provide three types of monitoring interfaces: a fetal monitoring interface, a maternal monitoring interface, and a maternal-fetal monitoring interface. The mother monitoring interface mainly displays the mother monitoring data, and the fetus monitoring interface simultaneously displays the fetus monitoring data and the mother monitoring data.

Generally, the prenatal routine monitoring of the outpatient clinic uses a fetal monitoring interface; using a mother fetus monitoring interface before and during labor of the delivery room; after the fetus is completely delivered, only the monitoring interface of the mother is needed. However, practical clinical applications are more complex, and the monitoring personnel often need to switch different monitoring interfaces repeatedly.

Most of the existing interface switching methods are to manually insert and dial a probe and manually switch the interface through a shuttle or a touch screen button. The method is too complicated to operate, and has the defect of low monitoring efficiency.

Disclosure of Invention

In order to solve the above technical problems, an object of the present disclosure is to provide a monitor, and an interface switching method and device thereof.

Wherein, the technical scheme who this disclosure adopted does:

an interface switching method is applied to a monitor, and comprises the following steps: detecting the probe state of the probe configured on the monitor, wherein the probe state comprises an online state; determining the current monitoring mode of the monitor according to the type of the probe corresponding to the probe aiming at the probe with the online state; and switching the current display interface of the monitor to the monitoring interface corresponding to the current monitoring mode.

An interface switching device applied to a monitor, the device comprising: the state detection module is used for detecting the state of the probe configured by the monitor, and the state of the probe comprises an online state; the mode determining module is used for determining the current monitoring mode of the monitor according to the type of the probe corresponding to the probe aiming at the probe with the online state; and the interface switching module is used for switching the current display interface of the monitor to the monitoring interface corresponding to the current monitoring mode.

A monitor, comprising: a processor and a memory, the memory having stored thereon computer readable instructions, which when executed by the processor, implement the interface switching method as described above.

A computer-readable storage medium, on which a computer program is stored which, when being executed by a processor, carries out the interface switching method as described above.

Compared with the prior art, the method has the following beneficial effects:

the method comprises the steps of detecting the state of a probe configured on a monitor, determining the current monitoring mode of the monitor according to the type of the probe corresponding to the probe of which the state is online, and switching the current display interface of the monitor to the monitoring interface corresponding to the current monitoring mode.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the disclosure.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the present disclosure and together with the description, serve to explain the principles of the disclosure.

FIG. 1 is a schematic illustration of an implementation environment according to the present disclosure.

FIG. 2 is a flow chart illustrating a method of interface switching according to an example embodiment.

FIG. 3 is a flow chart of one embodiment of step 310 in the corresponding embodiment of FIG. 2.

Fig. 4 is a flow chart of step 310 in another embodiment of the corresponding embodiment of fig. 2.

FIG. 5 is a flow chart illustrating another interface switching method according to an example embodiment.

Fig. 6 is a schematic diagram of interface switching in the corresponding embodiment of fig. 5.

FIG. 7 is a flow chart illustrating another interface switching method in accordance with an exemplary embodiment.

FIG. 8 is a flow chart illustrating another interface switching method in accordance with an exemplary embodiment.

Fig. 9 is a block diagram illustrating an interface switching device according to an example embodiment.

FIG. 10 is a block diagram for one embodiment of a state detection module 710 in the corresponding embodiment of FIG. 9.

Fig. 11 is a block diagram of another embodiment of the state detection module 710 of the corresponding embodiment of fig. 9.

Fig. 12 is a block diagram illustrating another interface switching device according to an example embodiment.

Fig. 13 is a block diagram illustrating another interface switching device according to an example embodiment.

Fig. 14 is a block diagram illustrating another interface switching device according to an example embodiment.

While specific embodiments of the disclosure have been shown and described in detail in the drawings and foregoing description, such drawings and description are not intended to limit the scope of the disclosed concepts in any way, but rather to explain the concepts of the disclosure to those skilled in the art by reference to the particular embodiments.

Detailed Description

Reference will now be made in detail to the exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, like numbers in different drawings represent the same or similar elements unless otherwise indicated. The implementations described in the exemplary embodiments below are not intended to represent all implementations consistent with the present disclosure. Rather, they are merely examples of apparatus and methods consistent with certain aspects of the present disclosure, as detailed in the appended claims.

As described above, most of the existing interface switching methods are to manually insert and dial a probe, and manually switch the interface through a shuttle or a touch screen button.

It can be understood that in comparatively complicated application scene, for example, clinical application, it is very frequent that guardians carry out the probe plug, if plug every time all need carry out the manual switching of interface, not only the operation is too loaded down with trivial details, cause guardians operating pressure too big easily, and then influence guardians efficiency, and guardians often can forget the manual switching interface because of busy work moreover, lead to guardians the interface mismatch, need carry out the investigation of mismatch reason again, further influenced guardians efficiency.

From the above, the prior art still has the problem of low monitoring efficiency.

Therefore, the disclosure especially provides an interface switching method applied to a monitor, so that automatic interface switching is realized, dependence on manual realization is avoided, and the monitoring efficiency is further effectively improved.

Fig. 1 is a schematic diagram of an implementation environment related to an interface switching method. The implementation environment includes a monitor 100, a base station 210, and a server 230.

The monitor 100 includes a probe, a module board 130, a main control module 150, and a display screen 170.

The probe further includes a wired probe 111 and a wireless probe 113.

The module board 130 further includes a probe judgment module 131, an MCU control unit 133 and a serial communication interface 135.

The wired probe 111 is electrically connected to the module board 130 through the input/output interface, and further interacts with the main control module 150 through the serial communication interface 135 in the module board 130.

The wireless probe 113 is in wireless communication signal connection with the module board 130 through the base station 210 to interact with the main control module 150 through the serial communication interface 135 in the module board 130.

In the interaction between the probe and the main control module 150, the parameter information detected by the probe is firstly transmitted to the MCU control unit 133 of the module board 130, and then transmitted to the main control module 150 through the serial communication interface 135, and then the main control module 150 performs the related calculation on the parameter information to obtain the monitored data, and finally the monitored data is displayed on the display screen 170 for the user to view.

For example, relevant calculations include, but are not limited to, Fetal Heart Rate (FHR) calculations, Automatic Fetal Movement (AFM) calculations, uterine contraction pressure (TOCO), maternal heart rate calculations, blood pressure calculations, respiratory rate calculations, blood oxygen saturation calculations, body temperature calculations, and the like. Accordingly, the monitored data includes fetal heart rate, fetal movement times, uterine contraction pressure values, maternal heart rate values, blood pressure values, respiratory frequency values, blood oxygen saturation, body temperature, and the like.

In addition, the wired probe 111 is electrically connected to the probe judgment module 131 in the module board 130, so as to judge whether the wired probe 111 is connected to the module board 130 through the probe judgment module 131. The base station 210 will also upload the connection status of the wireless probe 113 to the MCU control unit 133. Therefore, the module board 130 can know whether the probe is inserted into or pulled out of the monitor 100, so that the main control module 150 can know the insertion/pulling condition of the probe.

In addition, the main control module 150 uploads the monitoring data displayed in different monitoring interfaces to the server 230, so that the server 230 performs big data analysis. Because the data volumes of the monitoring data displayed on different monitoring interfaces are different, when data transmission is carried out, network bandwidth resources are occupied only according to the actual data volumes, and the utilization rate of the network bandwidth is fully improved.

Referring to fig. 2, in an exemplary embodiment, an interface switching method is applied to the monitor 100 in the implementation environment shown in fig. 1, and the interface switching method can be executed by the monitor 100 and includes the following steps:

and step 310, detecting the state of the probe configured on the monitor.

The type of the monitor includes, but is not limited to, a fetal monitor, a maternal-fetal monitor, and the like, and accordingly, the monitor is configured with a probe including a fetal type probe and a maternal type probe. The fetal type and the maternal type refer to the type of the probe corresponding to the probe.

Further, the fetal type probe comprises a fetal heart probe, a fetal heart electrical probe, a uterine contraction probe, an intrauterine pressure probe and the like. The mother type probe comprises an electrocardio lead probe, a blood pressure probe, a blood oxygen probe, a body temperature probe and the like.

The probe status is used to indicate whether the probe is connected to the monitor. The probe state includes an online state and a detached state. Wherein, the online state indicates that the probe is connected with the monitor, namely the probe is inserted into the monitor. The falling state indicates that the probe is not connected with the monitor, namely the probe is pulled out of the monitor.

On the basis, whether the probe configured by the monitor is inserted or pulled out can be judged according to the state of the probe, and then whether interface switching is needed is judged.

The state of the probe can be detected through a module board card in the monitor. The detection may be real-time or periodic, and is not limited herein.

When the detection is periodic, the detection of the state of the probe is performed according to a preset time period, for example, the preset time period is 2 s. The preset time period can be flexibly set according to the requirements of practical application.

Through such setting, not only be favorable to improving the update timeliness rate of probe state to this improves the response speed to the probe plug, can avoid the mistake plug of probe moreover effectively, thereby avoid reducing monitor performance because of interface switch is too frequent, lead to the monitor to appear the screen flash phenomenon.

It should be noted that, in other embodiments, according to the actual application requirement, in addition to the probe state detection, the state detection may be performed on the marker, the fetal stimulator, and the like, and this may be used as the basis for interface switching. The detection method is similar to the probe state detection, and is not described in detail herein.

And step 330, determining the current monitoring mode of the monitor according to the corresponding probe type for the probe with the probe state being the online state.

It should be appreciated that the monitoring interface is associated with a monitoring mode, and that different monitoring modes correspond to different monitoring interfaces. As previously mentioned, monitors typically provide three monitoring interfaces: the monitoring mode of the monitor correspondingly comprises the following steps: a fetal monitoring mode, a maternal monitoring mode, and a maternal-fetal monitoring mode.

In this specification, the fetal monitoring mode refers to: the monitor is monitoring the fetal heart rate of the fetus and/or the uterine contraction pressure of the mother, etc.; the mother monitoring mode is as follows: the monitor continuously monitors physiological parameters of the mother, such as blood pressure, blood oxygen, respiration, electrocardio and the like related to the physical condition of the mother; the maternal fetus monitoring mode refers to: the mother monitoring mode and the fetus monitoring mode are simultaneously carried out, so that the mother and the fetus are continuously monitored. Accordingly, the fetal monitoring interface displays monitoring data related to the fetus, the maternal monitoring interface displays monitoring data related to the mother, and the maternal-fetal monitoring interface displays monitoring data related to both the mother and the fetus.

Therefore, before interface switching is performed, the current monitoring mode of the monitor needs to be determined first, so as to facilitate subsequent switching of the monitoring interface corresponding to the current monitoring mode.

The monitoring mode is closely related to the probe inserted in the monitor. For example, if the monitor is only inserted with a fetal type probe, the monitoring mode is a fetal monitoring mode; if the monitor is only inserted into the mother type probe, the monitoring mode is the mother monitoring mode; if the monitor is inserted with both a fetal type probe and a maternal type probe, the monitoring mode is maternal-fetal monitoring mode.

Therefore, the probe with the probe state in the online state can know what type of probe is inserted into the monitor, and further determine the current monitoring mode of the monitor.

For example, if the probe status of the fetal heart probe is online and the probe status of the electrocardiographic lead probe is online, it indicates that the fetal heart probe and the electrocardiographic lead probe are simultaneously inserted into the monitor, and therefore, according to the probe type (fetal type probe) corresponding to the fetal heart probe and the probe type (maternal type probe) corresponding to the electrocardiographic lead probe, the current monitoring mode of the monitor is determined to be the maternal-fetal monitoring mode, and accordingly, a maternal-fetal monitoring interface corresponding to the maternal-fetal monitoring mode is subsequently displayed on the display screen.

It should be noted that, as long as the probe status of any one of the fetal type probes is on-line, i.e. the fetal type probe is considered to be inserted into the monitor, and similarly, as long as the probe status of any one of the maternal type probes is on-line, i.e. the maternal type probe is considered to be inserted into the monitor.

And 350, switching the current display interface of the monitor to the monitoring interface corresponding to the current monitoring mode.

The current display interface refers to an interface being displayed in the display screen.

In the interface switching process, the current display interface can be any monitoring interface, and then switching is carried out according to the monitoring interface corresponding to the current monitoring mode.

For example, the current display interface is a fetal monitoring interface, and if the current monitoring mode is determined as the maternal fetal monitoring mode, the current display interface is switched from the fetal monitoring interface to the maternal fetal monitoring mode.

It should be noted that, if the current display interface and the monitoring interface corresponding to the current monitoring mode are the same monitoring interface, the switching process at this time may be regarded as keeping the current display interface unchanged.

Through the process, the probe state is used as the basis of interface switching, when the probe state of the probe is changed from the online state to the off-state or from the off-state to the online state, the current monitoring mode of the monitor can be determined again, and then interface switching is automatically implemented without depending on manual operation, so that monitoring efficiency is effectively improved.

Referring to FIG. 3, in an exemplary embodiment, the probe comprises a wired probe, and accordingly, step 310 may comprise the steps of:

step 311, reading the connection status identifier of the input/output interface.

Wherein the connection status indicator is used to indicate whether the input/output interface is connected with the wired probe. For example, the level signal is used as the connection status indicator of the input/output interface. When the level signal is low level, the connection state identification indicates that the input/output interface is connected with the wired probe; when the level signal is high level, the connection state mark indicates that the input/output interface is not connected with the wired probe.

And 313, counting the times of connection and disconnection of the input/output interface and the wired probe respectively indicated by the connection state identifier within a preset time period to obtain the connection times and the disconnection times.

And step 315, determining the probe state of the wired probe according to the connection times and the disconnection times.

The presence of electromagnetic interference or erroneous insertion and removal of the probe may lead to erroneous detection of the state of the probe. For this reason, in the present embodiment, the probe status of the wired probe is determined by means of majority voting.

Specifically, in a preset time period, the connection times are counted according to the connection between the input/output interface indicated by the connection state identifier and the wired probe, and the disconnection times are counted according to the disconnection between the input/output interface indicated by the connection state identifier and the wired probe.

And after the statistics of the connection times and the disconnection times are completed, determining the probe state of the wired probe according to a larger number. For example, if the number of connections is greater than the number of disconnections, the probe state of the wired probe is in an on-line state, whereas if the number of connections is less than the number of disconnections, the probe state of the wired probe is in an off-line state.

Referring to FIG. 4, in an exemplary embodiment, the probe comprises a wireless probe, and accordingly, step 310 may comprise the steps of:

and step 312, receiving the probe online identification sent by the base station.

Wherein the probe online mark is used for indicating whether the probe state of the wireless probe is an online state.

And step 314, determining the probe state of the wireless probe through the probe online identification.

For the base station, after the communication connection is established between the base station and the wireless probe, the base station can receive the parameter information detected by the wireless probe.

If the base station can continuously receive the parameter information reported by the wireless probe, the base station considers that the wireless probe is connected to the base station, and further marks the probe online identification corresponding to the wireless probe, for example, the probe online identification is marked as 1, and at this time, the probe online identification corresponding to the wireless probe indicates that the probe state of the wireless probe is in an online state.

In contrast, if the base station does not receive any parameter information related to the wireless probe within a certain time, for example, 800ms, the base station considers that the wireless probe is disconnected from the base station, and further clears the probe online identifier corresponding to the wireless probe, for example, the clear value is 0, at this time, the probe online identifier corresponding to the wireless probe indicates that the probe state of the wireless probe is in the off state.

It should be noted that the base station can be in communication connection with a large number of wireless probes, and for this reason, the base station uniquely identifies the wireless probes by the ID numbers of the wireless probes. That is, the base station can know which wireless probe is communicating with the base station by the ID number of the wireless probe.

Under the cooperation of the above embodiment, no matter the probe is a wired probe or a wireless probe, as long as the main control module of the monitor communicates with the module board card, the probe state can be detected to be an online state or a falling state, and further, a sufficient basis is provided for interface switching.

In an exemplary embodiment, step 350 may include the steps of:

and calling a pre-packaged interface function to execute interface switching of the monitor.

In this embodiment, the interface switching of the monitor is performed by directly calling a pre-packaged interface function.

Compared with the prior art, the interface function is registered in the form of the callback function, for example, a certain virtual key registered in the current display interface, so that when the interface is switched, the callback function is executed by triggering the certain virtual key, and the interface function is called by executing the callback function.

Therefore, through the process, the callback function is replaced by a direct calling mode, so that the callback function can be prevented from being covered in the using process, the method is simpler and quicker, and the maintainability and the operability are stronger.

Correspondingly, referring to fig. 5, before invoking the pre-packaged interface function to perform interface switching of the monitor, the method as described above may further include the following steps:

step 410, determining a pre-switching monitoring interface and a post-switching monitoring interface.

As shown in fig. 6, the monitoring interfaces that can be switched by plugging and unplugging the fetal type probe and the maternal type probe include a fetal monitoring interface, a maternal monitoring interface, and a maternal fetal monitoring interface.

On the basis, the monitoring interface before switching and the monitoring interface after switching can be combined in any two of the three monitoring interfaces.

For example, the monitoring interface before switching is a fetal monitoring interface, and when the monitor is plugged into a maternal type probe, the monitoring interface after switching is a maternal and fetal monitoring interface; when the monitor is plugged in the mother type probe and the fetus type probe is pulled out, the monitoring interface after switching is the mother monitoring interface.

And 430, classifying the window controls by comparing the window controls in the pre-switching monitoring interface and the post-switching monitoring interface.

It should be appreciated that interface switching is actually the process of redrawing a currently displayed interface. Specifically, the current display interface generally includes an information window control, a curve/menu window control, a digital window control, a status window control, and the like, and the size, color, position, and other control attributes of the window controls are different from each other. The information window control and the state window control are the same no matter what kind of monitoring interface, and can be kept unchanged in the interface switching process. And the curve/menu window control and the digital window control need to be redrawn according to the corresponding monitoring interface.

Therefore, in order to switch interfaces, it is necessary to know which window controls need to be redrawn, that is, which window controls exist in the monitoring interface before switching, which window controls exist in the monitoring interface after switching, and which window controls exist in both the monitoring interface before switching and the monitoring interface after switching.

In this embodiment, the window controls are classified, and the monitoring interface where the window controls exist is represented by the window control classification result.

For example, the first window control classification result indicates that the window control exists only in the pre-switching monitoring interface, the second window control classification result indicates that the window control exists only in the post-switching monitoring interface, and the third window control classification result indicates that the window control exists in both the pre-switching monitoring interface and the post-switching monitoring interface,

and step 450, creating a switching effect set for the window controls according to the window control classification result, and packaging the switching effect set to an interface function.

The switching effect set comprises the switching effect from the monitoring interface before switching to the monitoring interface after switching. Wherein the switching effect includes but is not limited to hiding, displaying, shifting, and the like.

For example, if the window control classification result ii includes a window control, it indicates that the window control only exists in the post-switching monitoring interface, that is, after the interface is switched, for the current display interface, the window control is newly added to the current display interface, and thus, the switching effect created for the window control is display, that is, the window control is displayed in the current display interface.

If the first classification result of the window control contains a window control, it indicates that the window control only exists in the monitoring interface before switching, that is, after the interface is switched, the window control should disappear from the monitoring interface after switching, and thus, the switching effect created for the window control may be displacement, that is, the window control is moved out of the current display interface, or the switching effect is hidden, that is, the layer of the window control is placed on the bottom layer.

Through the process, the window control does not need to be deleted, so that the problem that the resource consumption is large due to the regeneration of the window control is avoided, the real-time property of interface generation can be guaranteed even if the interface switching frequently occurs, the card pause feeling is eliminated, and the user experience is favorably improved.

After a corresponding switching effect is created for each window control, a switching effect set for interface switching is obtained, and then the switching effect set is packaged to an interface function for calling in the following interface switching process.

Referring to fig. 7, in an exemplary embodiment, after step 350, the method as described above may further include the steps of:

and 510, starting alarm elimination timing through switching, and reading a timing value of the alarm elimination timing.

After the interface is switched, the monitor can trigger the alarm that the pulled-out probe falls off, and at the moment, the alarm which is happening in the monitor needs to be eliminated so as to avoid the possibility that the alarm which does not belong to the switched monitoring interface is triggered.

For example, when the electrocardiographic lead probe and the fetal heart probe are inserted into the monitor, the current display interface is a maternal-fetal monitoring interface, and when the electrocardiographic lead probe is pulled out of the monitor, the current display interface is switched to the fetal monitoring interface, and at the moment, the monitor triggers the electrocardiographic lead probe to drop off for alarm.

In the embodiment, the alarm is not immediately eliminated, but is eliminated after the alarm time reaches the preset time value, so that the alarm prompting function for the user is ensured, and the alarm which does not belong to the monitoring interface after switching can automatically disappear as soon as possible.

Based on this, when the interface switches, start timing for the warning elimination to obtain corresponding timing value for subsequent judgment whether the warning time reaches the preset time value.

The preset time value can be flexibly set according to the actual application, for example, the preset time value is 10 s.

Step 530, when the timing value exceeds the preset time value, generating an alarm eliminating instruction and an alarm prompting message.

Wherein, the alarm eliminating instruction is used for controlling the monitor to eliminate the alarm.

The way of eliminating the alarm can be flexibly adjusted according to the actual application. For example, the alarm form of the monitor may be flashing lights, or an alarm message may be displayed in the current display interface, so that when the monitor receives an alarm removing instruction, the alarm can be removed by turning off the lights or deleting the alarm message.

The alarm prompting message is used for prompting the user that the alarm is eliminated.

The display mode of the alarm prompt message can be flexibly adjusted according to the actual application. For example, the alarm prompt message may be directly displayed in the current display interface, or may be displayed in another interface different from the current display interface in a pop-up dialog manner.

In an exemplary embodiment, after step 350, the method as described above may further include the steps of:

and storing the monitoring data in the current display interface into a historical monitoring data set.

The historical monitoring data set comprises a plurality of groups of historical monitoring data, and each group of historical monitoring data is monitoring data in a current display interface at a certain historical time for a subsequent user to review.

Accordingly, referring to fig. 8, the method as described above may further include the steps of:

and step 610, acquiring an interface display instruction from the current display interface, and displaying the monitoring data management interface according to the interface display instruction.

In order to facilitate the user to review the historical monitoring data, the monitoring data review opening inlet is additionally arranged in the current display interface, so that the user can instruct the monitor to prepare for the user to review the historical monitoring data through the opening operation triggered by the monitoring data review opening inlet.

For the monitor, when the monitored data review opening entrance is triggered, an interface display instruction is correspondingly received, so that the user can know that the user wants to review the historical monitored data, and the monitored data management interface is displayed on the current display interface.

The monitored data management interface is used for displaying all the historical monitored data in the historical monitored data set, for example, displaying the historical monitored data in a data list mode.

For example, the monitored data review entry is a virtual key in the current display interface, and when the user clicks the virtual key, it indicates that the monitored data review entry is triggered, so that the monitor acquires an interface display instruction, and displays the monitored data management interface accordingly.

Step 630, the monitoring data selection operation triggered in the monitoring data management interface is detected.

Because all the historical monitoring data in the historical monitoring data set are displayed on the monitoring data management interface, after a user selects a certain group of historical monitoring data, the monitor can further display the historical monitoring data for the user.

In the monitoring data management interface, the triggering operation when a user selects a certain group of historical monitoring data is regarded as the monitoring data selection operation, and for the monitor, the monitoring data selection operation is detected, so that the user can know which group of historical monitoring data in the historical monitoring data set is selected, and then the historical monitoring data set is extracted to be used in subsequent display.

Step 650, when the monitored data selecting operation is detected, extracting the corresponding monitored data from the monitored data selecting operation from the historical monitored data set.

Step 670, calling a monitoring interface matched with the historical monitoring data to display the historical monitoring data.

It should be understood that the historical monitoring data may be monitoring data related to the fetus, monitoring data related to the mother, monitoring data related to both the mother and the fetus, and therefore, when the historical monitoring data is displayed, the interface for displaying the historical monitoring data needs to call up a monitoring interface matched with the monitoring data.

For example, if the historical monitoring data is monitoring data related to a fetus, the interface for displaying the historical monitoring data is a fetal monitoring interface; if the historical monitoring data is monitoring data related to the mother, the interface for displaying the historical monitoring data is a mother monitoring interface; the historical monitoring data is monitoring data related to both the mother and the fetus, and the interface for displaying the historical monitoring data is a mother and fetus monitoring interface.

Under the effect of the embodiment, the user can review the history of the monitored data before interface switching at any time, and the user experience is further improved.

The following are embodiments of the apparatus of the present disclosure, which may be used to execute the interface switching method according to the present disclosure. For details not disclosed in the embodiments of the apparatus of the present disclosure, please refer to the embodiments of the interface switching method related to the present disclosure.

Referring to fig. 9, in an exemplary embodiment, an interface switching device 700 is applied to a monitor, including but not limited to: a status detection module 710, a mode determination module 730, and an interface switching module 750.

The state detection module 710 is configured to perform probe state detection on a probe configured in a monitor, where the probe state includes an online state.

The mode determining module 730 is configured to determine, for a probe with an online status, a current monitoring mode of the monitor according to a type of the probe.

The interface switching module 750 is configured to switch a current display interface of the monitor to a monitoring interface corresponding to a current monitoring mode.

Referring to FIG. 10, in an exemplary embodiment, the probe includes a wired probe electrically connected to the monitor via an input-output interface.

Accordingly, the status detection module 710 includes, but is not limited to: an identification reading unit 711, a count counting unit 713, and a first state determining unit 715.

The identifier reading unit 711 is configured to read a connection status identifier of the input/output interface, where the connection status identifier is used to indicate whether the input/output interface is connected to the wired probe.

The number counting unit 713 is configured to count the number of times that the connection status identifier indicates that the input/output interface is connected to and disconnected from the wired probe, respectively, within a preset time period, so as to obtain the number of times of connection and the number of times of disconnection.

The first state determination unit 715 is used to determine the probe state of the wired probe according to the number of connections and the number of disconnections.

Referring to FIG. 11, in an exemplary embodiment, the probe includes a wireless probe that is in wireless signal communication with the monitor via a base station.

Accordingly, the status detection module 710 includes, but is not limited to: an identification receiving unit 712 and a second state determining unit 714.

The identifier receiving unit 712 is configured to receive a probe online identifier sent by the base station, where the probe online identifier is used to indicate whether a probe status of the wireless probe is an online status.

The second state determination unit 714 is used for determining the probe state of the wireless probe through the probe online identification.

In an exemplary embodiment, the interface switching module includes, but is not limited to: and a function calling unit.

The function calling unit is used for calling a pre-packaged interface function to execute interface switching of the monitor.

Accordingly, referring to fig. 12, the apparatus 700 as described above further includes, but is not limited to: a switch interface determination module 810, a control classification module 830, and a function encapsulation module 850.

The switching interface determining module 810 is configured to determine a pre-switching monitoring interface and a post-switching monitoring interface.

The control classifying module 830 is configured to classify the window controls by comparing the window controls in the pre-switching monitoring interface and the post-switching monitoring interface.

The function encapsulation module 850 is configured to create a switching effect set for the window control according to the window control classification result, and encapsulate the switching effect set to the interface function.

Referring to fig. 13, in an exemplary embodiment, the apparatus 700 as described above further includes, but is not limited to: an alarm timing module 910 and an alarm cancellation module 930.

The alarm timing module 910 is configured to start alarm cancellation timing through switching, and read a timing value of the alarm cancellation timing.

The alarm eliminating module 930 is configured to generate an alarm eliminating instruction and an alarm prompting message when the timing value exceeds a preset time value, where the alarm eliminating instruction is used to control the monitor to eliminate the alarm, and the alarm prompting message is used to prompt the user that the alarm is eliminated.

In an exemplary embodiment, the apparatus 700 as described above further includes, but is not limited to: and a data storage module.

The data storage module is used for storing the monitoring data in the current display interface to the historical monitoring data set.

Accordingly, referring to fig. 14, the apparatus 700 as described above further includes, but is not limited to: an interface display module 1010, an operation detection module 1030, a data extraction module 1050, and a data review module 1070.

The interface display module 1010 is configured to obtain an interface display instruction from the current display interface, and display the monitoring data management interface according to the interface display instruction.

The operation detection module 1030 is configured to detect a monitoring data selection operation triggered in the monitoring data management interface.

The data extraction module 1050 is configured to extract the historical monitoring data corresponding to the monitoring data selecting operation from the historical monitoring data set when the monitoring data selecting operation is detected.

The data review module 1070 is configured to invoke a monitoring interface matched with the historical monitoring data to display the historical monitoring data.

It should be noted that, when the interface switching device provided in the foregoing embodiment performs interface switching, only the division of each function module is illustrated, and in practical applications, the function distribution may be completed by different function modules according to needs, that is, the internal structure of the interface switching device is divided into different function modules to complete all or part of the functions described above.

In addition, the interface switching apparatus provided in the above embodiments and the interface switching method belong to the same concept, and the specific manner in which each module performs operations has been described in detail in the method embodiments, and is not described again here.

In an exemplary embodiment, a monitor includes, but is not limited to, a processor and a memory.

The memory stores computer readable instructions, and the computer readable instructions, when executed by the processor, implement the interface switching method in the above embodiments.

In an exemplary embodiment, a computer-readable storage medium has stored thereon a computer program which, when executed by a processor, implements the interface switching method in the embodiments as described above.

The above description is only a preferred exemplary embodiment of the present disclosure, and not intended to limit the embodiments of the present disclosure, and one of ordinary skill in the art can easily make various changes and modifications according to the main concept and spirit of the present disclosure, so that the protection scope of the present disclosure shall be subject to the protection scope of the claims.

Claims (9)

1. An interface switching method is applied to a monitor, and is characterized in that the monitor comprises a probe, the probe comprises a wired probe, and the wired probe is in electric signal connection with the monitor through an input and output interface, and the method comprises the following steps:

reading a connection status identifier of the input/output interface, wherein the connection status identifier is used for indicating whether the input/output interface is connected with the wired probe or not;

counting the times of connection and disconnection of the input/output interface and the wired probe respectively indicated by the connection state identifier within a preset time period to obtain the connection times and the disconnection times;

determining the probe state of the wired probe according to the connection times and the disconnection times, wherein the probe state comprises an online state;

determining the current monitoring mode of the monitor according to the corresponding probe type of a probe with an online state, wherein the probe type comprises a fetal type probe and a maternal type probe;

and switching the current display interface of the monitor to the monitoring interface corresponding to the current monitoring mode.

2. The method of claim 1, wherein the probe comprises a wireless probe in wireless signal communication connection with the monitor through a base station, the method further comprising:

receiving a probe online identifier sent by the base station, wherein the probe online identifier is used for indicating whether the probe state of the wireless probe is an online state;

and determining the probe state of the wireless probe through the probe online identification.

3. The method of claim 1, wherein the switching the current display interface of the monitor to the monitor interface corresponding to the current monitoring mode comprises:

calling a pre-packaged interface function to execute interface switching of the monitor;

correspondingly, before the calling the pre-packaged interface function to execute the interface switching of the monitor, the method further includes:

determining a monitoring interface before switching and a monitoring interface after switching;

the method comprises the steps that for a monitoring interface before switching and a monitoring interface after switching, window controls are classified by comparing the window controls;

and establishing a switching effect set for the window controls according to the window control classification result, and packaging the switching effect to the interface function.

4. The method of any of claims 1 to 3, wherein after switching the currently displayed interface of the monitor to the monitoring interface corresponding to the current monitoring mode, the method further comprises:

starting alarm elimination timing through the switching, and reading a timing value of the alarm elimination timing;

and when the timing value exceeds a preset time value, generating an alarm elimination instruction and an alarm prompt message, wherein the alarm elimination instruction is used for controlling the monitor to eliminate the alarm, and the alarm prompt message is used for prompting a user that the alarm is eliminated.

5. The method of any of claims 1 to 3, wherein after switching the currently displayed interface of the monitor to the monitoring interface corresponding to the current monitoring mode, the method further comprises:

storing the monitoring data in the current display interface into a historical monitoring data set;

accordingly, the method further comprises:

acquiring an interface display instruction from the current display interface, and displaying a monitoring data management interface according to the interface display instruction;

detecting a monitoring data selection operation triggered in the monitoring data management interface;

when the monitoring data selection operation is detected, extracting historical monitoring data corresponding to the monitoring data selection operation from the historical monitoring data set;

and calling a monitoring interface matched with the historical monitoring data to display the historical monitoring data.

6. An interface switching device applied to a monitor, the device comprising:

the identification reading unit is used for reading a connection status identification of the input/output interface, and the connection status identification is used for indicating whether the input/output interface is connected with the wired probe or not;

the frequency counting unit is used for counting the frequency of connection and disconnection of the input/output interface and the wired probe respectively indicated by the connection state identifier in a preset time period to obtain the connection frequency and the disconnection frequency;

the first state determining unit is used for determining the probe state of the wired probe according to the connection times and the disconnection times;

the mode determining module is used for determining the current monitoring mode of the monitor according to the corresponding probe type of the probe with the probe state being an online state, wherein the probe type comprises a fetal type probe and a maternal type probe;

and the interface switching module is used for switching the current display interface of the monitor to the monitoring interface corresponding to the current monitoring mode.

7. The apparatus of claim 6, wherein the interface switching module comprises:

the function calling unit is used for calling a pre-packaged interface function to execute interface switching of the monitor;

correspondingly, the device further comprises:

the switching interface determining module is used for determining a monitoring interface before switching and a monitoring interface after switching;

the control classification module is used for carrying out window control classification by comparing window controls in the pre-switching monitoring interface and the post-switching monitoring interface;

and the function packaging module is used for creating a switching effect set for the window control according to the classification result of the window control and packaging the switching effect set to the interface function.

8. A monitor, comprising:

a processor; and

a memory having stored thereon computer readable instructions which, when executed by the processor, implement the interface switching method of any one of claims 1 to 5.

9. A computer-readable storage medium, on which a computer program is stored, which, when being executed by a processor, carries out the interface switching method according to any one of claims 1 to 5.

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