CN110558961B - Physiological information display method, apparatus, and computer-readable storage medium - Google Patents
Physiological information display method, apparatus, and computer-readable storage medium Download PDFInfo
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- A61B5/02—Detecting, measuring or recording pulse, heart rate, blood pressure or blood flow; Combined pulse/heart-rate/blood pressure determination; Evaluating a cardiovascular condition not otherwise provided for, e.g. using combinations of techniques provided for in this group with electrocardiography or electroauscultation; Heart catheters for measuring blood pressure
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Abstract
The invention discloses a physiological information display method, a device and a computer readable storage medium. The physiological information display method comprises the following steps: acquiring various physiological information; determining whether a source of each of the plurality of physiological information is the same; respectively generating different physiological information sets from the physiological information of different sources, wherein each physiological information set corresponds to one source; and displaying different physiological information sets in different areas of the screen. The technical scheme provided by the invention realizes the technical effect of conveniently observing physiological parameters from different sources in the same equipment.
Description
Technical Field
The present invention relates to the field of medical equipment, and in particular, to a method and apparatus for displaying physiological information, and a computer-readable storage medium.
Background
With the development of medical technology, in order to monitor a patient, a plurality of physiological parameters of the patient can be measured and monitored through a monitor, and compared with a known set value, if the physiological parameters exceed a standard, an alarm is given out, so that monitoring is realized. At present, due to the shortage of medical equipment, there are situations where multiple patients are monitored by only one monitor, that is, different probes of one monitor different patients respectively, and multiple physiological parameters are displayed in the same equipment. However, when the patient is busy, the physiological parameters of different patients displayed on the same device are difficult to distinguish, and misdiagnosis or missed diagnosis is easy to occur.
Disclosure of Invention
The embodiment of the application solves the problem that the physiological parameters of different patients are difficult to distinguish when the physiological parameters are displayed on the same equipment in the prior art by providing the physiological information display method, and achieves the technical effect of facilitating observation of the physiological parameters from different sources in the same equipment.
The embodiment of the application provides a physiological information display method, which comprises the following steps:
acquiring various physiological information;
determining whether a source of each of the plurality of physiological information is the same;
respectively generating different physiological information sets from the physiological information of different sources, wherein each physiological information set corresponds to one source;
and displaying different physiological information sets in different areas of the screen.
Optionally, the step of acquiring a plurality of physiological information includes:
detecting the states of a plurality of probes, wherein the states of the probes comprise an online state and an offline state;
reading the connection state of an input/output interface, wherein the connection state indicates whether the input/output interface is connected with the probe or not;
counting the times of the connection state indicating the connection between the input/output interface and the probe respectively within a preset time period to obtain the times of successful connection and the times of failed connection;
when the connection success frequency is greater than the connection failure frequency, the connection success state is uninterrupted, and the connection failure state does not occur in the last period of time within a preset time period, the probe is judged to be in an online state;
and controlling each probe in an online state to acquire one physiological information, thereby acquiring various physiological information.
Optionally, the step of determining whether the source of each physiological information in the plurality of physiological information is the same comprises:
acquiring a time oscillogram of each piece of physiological information;
determining the time interval T of every two adjacent wave crests in the oscillogram, and calculating according to the calculated time interval T to obtain an average time interval T;
when the difference value of the average time interval T of the two pieces of physiological information is smaller than a preset threshold value, determining that the two pieces of physiological information have the same source;
when the difference value of the average time interval T of the two pieces of physiological information is larger than a preset threshold value, determining that the two pieces of physiological information are from different sources.
Optionally, the step of displaying different physiological information sets in different areas of the screen includes:
calculating the size of an area required by the display of the physiological information set;
dividing the screen into a plurality of areas according to the area size;
and displaying the physiological information sets of different sources in an area with the corresponding area size.
Optionally, the step of dividing the screen into a plurality of regions according to the region size includes:
arranging each area in the plurality of areas on the screen from top to bottom in sequence;
setting a border of each of the plurality of regions;
and respectively setting different ground colors for each of the plurality of areas.
Optionally, the step of displaying different physiological information sets in different areas of the screen comprises:
when new physiological information is received, judging whether the source of the new physiological information is the same as the previous physiological information or not;
if the physiological information is the same as the original physiological information, dividing the new physiological information into a physiological information set of the same source, regenerating an area for displaying the physiological information set, and displaying the physiological information set in the regenerated area;
if not, a new physiological information set is added, and a new area is generated on the screen to display the physiological information set.
Optionally, after the step of acquiring a plurality of physiological information, the method further includes:
randomly displaying the various physiological information on a screen;
judging whether the display time of each physiological information of the multiple physiological information exceeds a preset time or not;
when the display time of the physiological information exceeds a preset time, executing the step of determining whether the source of each physiological information in the multiple kinds of physiological information is the same;
and when the display time of the physiological information does not exceed the preset time, continuously executing the steps of acquiring various physiological information and randomly displaying the physiological information on a screen.
Optionally, the screen includes waveform regions and parameter regions, each of the waveform regions being associated with one of the parameter regions, each of the regions including at least one of the waveform regions and at least one of the parameter regions; each piece of physiological information at least comprises waveform information or parameter information, the waveform information of each piece of physiological information is displayed in the waveform area, or the parameter information of each piece of physiological information is displayed in the parameter area.
The present invention also proposes a computer-readable storage medium having stored thereon a physiological information display program which, when executed by a processor, implements the physiological information display method.
The invention also provides a physiological information display device, which comprises a memory, a processor and a physiological information display program which is stored on the memory and can run on the processor, wherein the processor realizes the physiological information display method when executing the physiological information display program.
One or more technical solutions provided in the embodiments of the present application have at least the following technical effects or advantages:
through the physiological information set that will measure different patients concentrates in the regional concentrated display of difference, medical personnel need not to screen every physiological information and look for when observing, is changeed in medical personnel's guardianship patient's state of an illness, has avoided misdiagnosis or neglected diagnosis. The technical effect of conveniently observing physiological parameters from different sources in the same equipment is achieved.
Drawings
FIG. 1 is a flowchart illustrating a physiological information displaying method according to a first embodiment of the present invention;
FIG. 2 is a schematic flowchart of step S10 in FIG. 1;
FIG. 3 is a detailed flowchart of step S20 in FIG. 1;
FIG. 4 is a detailed flowchart of step S40 in FIG. 1;
FIG. 5 is a flowchart illustrating a physiological information displaying method according to a second embodiment of the present invention;
fig. 6 is a flowchart illustrating a physiological information displaying method according to a third embodiment of the present invention.
Detailed Description
The physiological information measured by different patients is displayed in different areas in a concentrated manner, so that medical staff do not need to screen and search during observation, the illness state of the patients can be monitored by the medical staff more easily, and misdiagnosis or missed diagnosis is avoided.
For a better understanding of the above technical solutions, exemplary embodiments of the present disclosure will be described in more detail below with reference to the accompanying drawings. While exemplary embodiments of the present disclosure are shown in the drawings, it should be understood that the present disclosure may be embodied in various forms and should not be limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the disclosure to those skilled in the art.
In order to better understand the technical solution, the technical solution will be described in detail with reference to the drawings and the specific embodiments.
Referring to fig. 1, the physiological information display method provided by the present invention includes the following steps:
s10, acquiring various physiological information;
the physiological information of the patient is obtained by attaching the probe to the body of the patient, wherein the physiological information includes physiological parameters such as an electrocardiogram parameter, a blood oxygen parameter, a blood pressure parameter and the like.
S20, determining whether the source of each physiological information in the plurality of physiological information is the same;
the measured physiological information can be distinguished from each other to determine the source of the measured physiological information, and the physiological information can be from the same patient or different patients.
S30, respectively generating different physiological information sets from the physiological information of different sources, wherein each physiological information set corresponds to one source;
after the sources of physiological information are distinguished, the physiological information from the same source is divided into the same set, i.e. the same physiological information set, where the same source refers to the source and the same patient, and the generated physiological information set is a set of measured physiological information of one patient.
And S40, displaying different physiological information sets in different areas of the screen.
In this embodiment, the physiological information sets are displayed on a monitor screen, that is, a plurality of divided physiological information sets are displayed. In order to facilitate display, the screen is divided into a plurality of areas, each area is used for displaying different physiological information sets, so that medical staff can observe physiological information of each area in a concentrated manner, the areas can be a plurality of areas according to actual conditions, generally, in order to meet observation requirements, the areas are vertically arranged, and thus, parameters such as waveform information of each area can be displayed.
In addition, the physiological information set can be associated with the registration information of the patient, the registration information related to the physiological information set is recorded and stored, so that when the patient is registered and monitored next time, the registration information of the patient is directly called out and displayed on the side of the area displaying the physiological information set when the physiological information set of the patient is received, the user is further identified, and the observation of medical staff is facilitated.
In addition, as required, medical personnel can be directly according to the patient quantity that records a plurality of regions of screen division, appoint certain physiological information set to show in a certain region when monitoring, can not show in other regions promptly, and medical personnel can carry out the size in region and freely change to show and observe.
When a certain physiological information set is not monitored any more, namely after the physiological information in the physiological information set is cancelled, the area where the physiological information set is located is deleted on the screen and is not displayed any more.
Therefore, the physiological information measured by different patients is displayed in different areas in a concentrated manner, so that medical staff do not need to screen and search during observation, the illness state of the patients can be monitored by the medical staff more easily, misdiagnosis or missed diagnosis is avoided, and the technical effect of conveniently observing physiological parameters from different sources in the same equipment is achieved.
Referring to fig. 2, the step of acquiring a plurality of physiological information includes:
s11, detecting the states of the probes, wherein the states of the probes comprise an online state and an offline state;
the on-line state is a state in which the probe acquires physiological information, and the off-line state is a state in which the probe does not acquire physiological information.
S12, reading the connection state of the input/output interface, wherein the connection state indicates whether the input/output interface is connected with the probe;
the input and output interface is positioned on the equipment, the probe can be in wired connection with the input and output interface, and the state of the probe is judged by reading the connection state.
S13, counting the times of connection of the input/output interface and the probe respectively indicated by the connection state within a preset time period to obtain the times of successful connection and the times of failed connection;
in the structure that the probe is in wired connection with the input and output interface, the successful connection is the telecommunication connection between the probe and the input and output interface and the probe, and the failed connection is the telecommunication disconnection between the probe and the input and output interface.
S14, when the connection success frequency is larger than the connection failure frequency, the connection success state is uninterrupted, and the connection failure state does not occur in the last period of time in the preset time period, the probe is judged to be in the online state;
namely, the obtained connection success frequency at least accounts for more than half, and meanwhile, the last half or more of the preset time is in a continuous connection success state, the state is judged to be stable at the moment, namely, the state is in an online state, and otherwise, the state is judged to be in an offline state.
And S15, controlling each probe in the online state to acquire one type of physiological information, thereby acquiring multiple types of physiological information.
Carry out the in-process that monitors at medical personnel, often need plug many times to the probe to make the probe find accurate position and monitor, in order to avoid at plug in-process at every turn, its physiological information that shows is by screen display, causes the problem of shimmying the screen, firstly leads to the fact the damage to the display screen easily, is unfavorable for medical personnel's monitoring two times. Therefore, the acquisition of the physiological information needs to be confirmed by confirming the online state of the probe for displaying, that is, only the physiological information monitored by the probe in the online state is acquired, so that the physiological information is acquired by judging the online state in the embodiment, and the screen display is more stable, so that the monitoring of the medical staff is facilitated.
Referring to fig. 3, the step of determining whether the source of each of the plurality of physiological information is the same includes:
s21, acquiring a time oscillogram of each piece of physiological information;
generally, when measuring physiological parameters of a patient, it is necessary to continuously perform the measurement, so that a waveform pattern fluctuating according to time can be easily obtained by the continuous measurement data.
S22, determining the time interval T of every two adjacent wave crests in the oscillogram, and calculating according to the calculated time interval T to obtain the average time interval T;
in the waveform diagram, peaks generally exist, and the time interval T between adjacent peaks is not very different, and the average time T obtained here can be regarded as the time interval between adjacent peaks in the waveform diagram.
S23, when the difference value of the average time interval T of the two pieces of physiological information is smaller than a preset threshold value, determining that the two pieces of physiological information are from the same source;
and S24, when the difference value of the average time interval T of the two pieces of physiological information is larger than a preset threshold value, determining that the two pieces of physiological information are from different sources.
In the waveform diagram, the peaks appeared are generally related to the heart beat of the patient, and generally the physiological parameters are all influenced by the heart beat, so that the average time interval T of the same patient is generally approximate even if different types of physiological parameters exist, and the T of different patients has obvious difference, therefore, the average time interval T of every two physiological information is compared, if the average time interval T of every two physiological information is close, the two physiological information is considered to be the same source, and if the difference is larger, the two physiological information is different sources, so that the sources of the multiple physiological information are distinguished.
Through the distinguishing mode, the physiological information can be directly distinguished through the measured physiological information without additional auxiliary instruments, and the distinguishing mode is easy to realize.
Here, when T of one physiological information is similar to T of the other two physiological information, but T of the other two physiological information is not similar, the three physiological information are classified as the same source, and so on.
In addition, every two oscillograms can be compared, the peaks of the two oscillograms are in one-to-one correspondence to obtain the interval time t1 between the corresponding peaks, the t1 is compared with a preset value, and when the t1 is smaller than the preset value, the two physiological information are considered to be the same source.
Certainly, in other embodiments, an auxiliary measurement probe may be additionally added to distinguish various physiological information, that is, a probe for measuring a pulse is additionally added to each probe, and the pulse probe is related to the probe arranged in the probe, so that when receiving various physiological information, a plurality of pulse information related to the various physiological information can be simultaneously received, and when needing to distinguish, the various physiological information of the same pulse information is identified as the same source, and the distinguishing is simple and convenient.
Referring to fig. 4, the step of displaying different sets of physiological information in different areas of the screen includes:
s41, calculating the size of the area required by the physiological information set display;
according to the sources of various physiological information, the more physiological information from the same patient, the larger the required area is divided.
S42, dividing the screen into a plurality of areas according to the area size;
according to the above principle, the screen is divided into a plurality of regions, which may be of unequal size, for example, two physiological information from one patient monitoring and one from another patient, the divided regions are of two and one sizes, respectively.
And S46, displaying the physiological information sets of different sources in the area with the corresponding area size.
Therefore, the physiological information sets from the same source are displayed in the same area, the more the physiological information is, the larger the area is, the more clear the display of various physiological information is, and the easier the medical staff is in observation.
Further, the step of dividing the screen into a plurality of regions according to the region size may be followed by:
and S43, arranging each area in the plurality of areas on the screen from top to bottom in sequence.
Because the physiological information can display the waveform information, each area is sequentially arranged on the screen from top to bottom in order to facilitate display, so that the waveform information is conveniently arranged to facilitate observation, and meanwhile, the situation that the screen is too messy during display is avoided.
S44, setting a border of each of the plurality of areas as a frame;
the border of the area is provided with a frame to separate a plurality of areas, which is convenient for medical staff to distinguish.
And S45, setting different ground colors for each of the plurality of areas.
The background color is different colors randomly arranged according to the divided areas, the background color is distributed in the areas and has low saturation, the saturation of the waveform information or the parameter information of the displayed physiological information is high, so that the physiological information can be displayed and identified conveniently, and the different background colors are arranged in the different areas, so that the medical staff can distinguish the physiological information of different patients which is displayed at a glance and can easily observe the physiological information.
Therefore, the physiological information sets from different sources are displayed in order, medical staff can observe the physiological information sets conveniently, the physiological information sets from different sources can be distinguished easily, and misdiagnosis or missed diagnosis is not easy to occur.
Referring to fig. 5, the step of displaying different sets of physiological information in different areas of the screen includes, after:
s51, when receiving the new physiological information, judging whether the source of the new physiological information is the same as the previous physiological information;
that is, when the new physiological information needs to be added, the physiological information also needs to be displayed, so that it is also necessary to determine whether the source of the new physiological information is the same as that of the previous physiological information.
S52, if the physiological information is the same as the original physiological information, dividing the new physiological information into the same source physiological information set, regenerating an area for displaying the physiological information set, and displaying the physiological information set in the regenerated area;
that is, once the physiological information is determined to be the same, the physiological information is divided into physiological information sets of the same source, and then displayed in the newly generated region.
And S53, if not, adding a new physiological information set, and generating a new area on the screen to display the physiological information set.
After the physiological information is compared with the previous physiological information one by one and the source is judged to be different, the physiological information can be used as a new physiological information set, and an area is newly added at the bottom of the screen to display the physiological information set, so that the area does not need to be divided again, and screen flashing is not caused.
Referring to fig. 6, after the step of acquiring the plurality of physiological information, the method further includes:
s101, randomly displaying various physiological information on a screen;
that is, after the physiological information is initially acquired, in order to quickly display the physiological information, the screens are randomly arranged, and in this embodiment, the physiological information is sequentially arranged from top to bottom on the screens.
S102, judging whether the display time of each physiological information of the multiple physiological information exceeds the preset time or not;
when the display time of the physiological information exceeds the preset time, executing S20, namely determining whether the source of each physiological information in the multiple physiological information is the same;
when the display time of the physiological information does not exceed the preset time, the step of acquiring various physiological information S10, i.e. randomly displaying the physiological information on the screen S101, is continuously performed.
The physiological information is brought into the physiological information set to be displayed in a centralized manner only after the display time of the physiological information reaches a certain time, so that the physiological information is more accurate when determining whether the sources of various physiological information are the same or not, and errors are not easy to judge.
In the embodiment of the invention, the screen comprises waveform areas and parameter areas, each waveform area is associated with one parameter area, and each area comprises at least one waveform area and at least one parameter area; each physiological information at least comprises waveform information or parameter information, and the waveform information of each physiological information is displayed in the waveform area or the parameter information of each physiological information is displayed in the parameter area.
The waveform information of physiological information is shown in the waveform area, the parameter information that the parameter area then was used for showing physiological information, the waveform area transversely arranges with the parameter area, vertical arranging between a plurality of waveform areas, a plurality of parameter areas also vertically arrange, like this, when dividing the region, a plurality of regions also can be vertically arranged, can not let the screen division too in disorder, the physiological information set of same source then shows in same region, a plurality of physiological information also can be vertically arranged, so that distinguish.
The principle of displaying the waveform information and the parameter information in the waveform area and the parameter area is as follows:
if the physiological information needs to display the waveform information and the parameter information at the same time, respectively displaying the waveform information and the parameter information in a waveform area and a parameter area and in the same row;
if the physiological information only needs to display waveform information, the waveform information is displayed in a waveform area, and an adjacent parameter area is not displayed;
if the physiological information only needs to display parameter information, the parameter information is displayed in the parameter area, and the adjacent waveform area is not displayed.
Thus, when calculating the size of the area required for displaying the physiological information set, the calculation is performed according to the amount of the physiological information contained in the physiological information set, that is, if one physiological information set contains two physiological information, the area size is two adjacent rows of waveform areas and parameter areas associated with the waveform areas, and so on. In addition, when a physiological information set is newly added with a physiological information, a line of waveform area and parameter area are newly added under the area for displaying, and the displayed area of the physiological information set under the area is moved downwards by a line.
In addition, the physiological information display method further includes:
when the fluctuation range of the waveform information of any physiological information exceeds a preset fluctuation range or the numerical value of the parameter information exceeds a preset threshold value, the area where the physiological information is located is highlighted, and an alarm is given.
In order to facilitate monitoring, when the waveform information or the parameter information of the measured physiological information is abnormal, namely when the fluctuation range of the waveform information exceeds a preset fluctuation range or the numerical value of the parameter information exceeds a preset threshold value, the area where the physiological information is located is highlighted so that medical staff can find the physiological information of a patient from which the physiological information is a source, and the alarm is used for reminding the medical staff who is not monitored to pay attention so as to respond in time and avoid danger of the patient.
Based on the same inventive concept, the present invention also provides a computer-readable storage medium having a physiological information display program stored thereon, which when executed by a processor implements the above-described physiological information display method.
The specific embodiment of the computer-readable storage medium of the present invention is substantially the same as the embodiment of the physiological information display method described above, and is not repeated herein.
Based on the same inventive concept, the invention also provides a physiological information display device, which comprises a memory, a processor and a physiological information display program stored on the memory and capable of running on the processor, wherein the physiological information display method is realized when the processor executes the physiological information display program.
In this embodiment, the processor includes a data receiving module, a data analyzing module, a dividing module, and a display screen, wherein,
the data receiving module is used for receiving various physiological information;
the data analysis module is used for determining whether the source of each physiological information in the multiple physiological information is the same;
the dividing module is used for respectively generating different physiological information sets from physiological information of different sources, and each physiological information set corresponds to one source;
and the display screen is used for displaying the physiological information set.
The data receiving module transmits the received physiological information to the data analysis module, the data analysis module analyzes various physiological information to obtain an analysis result, the division module divides the various physiological information into a plurality of physiological information sets according to the analysis result and then transmits the physiological information sets to the display screen for displaying, and the display screen displays different physiological information sets in different areas.
The specific embodiment of the physiological information display device of the present invention is basically the same as the embodiment of the physiological information display method described above, and is not described again.
As will be appreciated by one skilled in the art, embodiments of the present invention may be provided as a method, system, or computer program product. Accordingly, the present invention may take the form of an entirely hardware embodiment, an entirely software embodiment or an embodiment combining software and hardware aspects. Furthermore, the present invention may take the form of a computer program product embodied on one or more computer-usable storage media (including, but not limited to, disk storage, CD-ROM, optical storage, and the like) having computer-usable program code embodied therein.
The present invention is described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems), and computer program products according to embodiments of the invention. It will be understood that each flow and/or block of the flow diagrams and/or block diagrams, and combinations of flows and/or blocks in the flow diagrams and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, create means for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.
These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function specified in the flowchart flow or flows and/or block diagram block or blocks.
These computer program instructions may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.
It should be noted that in the claims, any reference signs placed between parentheses shall not be construed as limiting the claim. The word "comprising" does not exclude the presence of elements or steps not listed in a claim. The word "a" or "an" preceding an element does not exclude the presence of a plurality of such elements. The invention may be implemented by means of hardware comprising several distinct elements, and by means of a suitably programmed computer. In the unit claims enumerating several means, several of these means may be embodied by one and the same item of hardware. The usage of the words first, second and third, etcetera do not indicate any ordering. These words may be interpreted as names.
While preferred embodiments of the present invention have been described, additional variations and modifications in those embodiments may occur to those skilled in the art once they learn of the basic inventive concepts. Therefore, it is intended that the appended claims be interpreted as including preferred embodiments and all such alterations and modifications as fall within the scope of the invention.
It will be apparent to those skilled in the art that various changes and modifications may be made in the present invention without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to include such modifications and variations.
Claims (9)
1. A physiological information display method characterized by comprising the steps of:
acquiring various physiological information, wherein the physiological information comprises a blood oxygen parameter and a blood pressure parameter;
determining whether the source of each physiological information in the multiple physiological information is the same, including obtaining a time waveform diagram of each physiological information; determining the time interval T of every two adjacent wave crests in the oscillogram, and calculating according to the calculated time interval T to obtain an average time interval T; when the difference value of the average time interval T of the two pieces of physiological information is smaller than a preset threshold value, determining that the two pieces of physiological information have the same source; when the difference value of the average time interval T of the two pieces of physiological information is larger than a preset threshold value, determining that the two pieces of physiological information are from different sources;
respectively generating different physiological information sets from the physiological information of different sources, wherein each physiological information set corresponds to one source;
and displaying different physiological information sets in different areas of the screen, wherein the different areas are vertically arranged.
2. The physiological information display method according to claim 1, wherein the step of acquiring a plurality of kinds of physiological information includes:
detecting the states of a plurality of probes, wherein the states of the probes comprise an online state and an offline state;
reading the connection state of an input/output interface, wherein the connection state indicates whether the input/output interface is connected with the probe or not;
counting the times of the connection state indicating the connection between the input/output interface and the probe respectively within a preset time period to obtain the times of successful connection and the times of failed connection;
when the connection success frequency is greater than the connection failure frequency, the connection success state is uninterrupted, and the connection failure state does not occur in the last period of time within a preset time period, the probe is judged to be in an online state;
and controlling each probe in an online state to acquire one physiological information, thereby acquiring various physiological information.
3. A physiological information display method according to any one of claims 1 or 2, wherein the step of displaying different sets of said physiological information in different areas of a screen comprises:
calculating the size of an area required by the display of the physiological information set;
dividing the screen into a plurality of areas according to the area size;
and displaying the physiological information sets of different sources in an area with the corresponding area size.
4. A physiological information display method according to claim 3, wherein the step of dividing the screen into a plurality of regions according to the region size is followed by:
arranging each area in the plurality of areas on the screen from top to bottom in sequence;
setting a border of each of the plurality of regions;
and respectively setting different ground colors for each of the plurality of areas.
5. A method as claimed in any one of claims 1 or 2, wherein the step of displaying different sets of said physiological information in different areas of the screen is followed by the step of:
when new physiological information is received, judging whether the source of the new physiological information is the same as the previous physiological information or not;
if the physiological information is the same as the original physiological information, dividing the new physiological information into a physiological information set of the same source, regenerating an area for displaying the physiological information set, and displaying the physiological information set in the regenerated area;
if not, a new physiological information set is added, and a new area is generated on the screen to display the physiological information set.
6. The physiological information display method according to any one of claims 1 or 2, wherein the step of acquiring the plurality of kinds of physiological information is followed by further comprising:
randomly displaying the various physiological information on a screen;
judging whether the display time of each physiological information of the multiple physiological information exceeds a preset time or not;
when the display time of the physiological information exceeds a preset time, executing the step of determining whether the source of each physiological information in the multiple kinds of physiological information is the same;
and when the display time of the physiological information does not exceed the preset time, continuously executing the steps of acquiring various physiological information and randomly displaying the physiological information on a screen.
7. A physiological information display method according to any one of claims 1 or 2, wherein said screen includes waveform regions and parameter regions, each of said waveform regions being associated with a said parameter region, each of said regions including at least one of said waveform regions and at least one of said parameter regions; each piece of physiological information at least comprises waveform information or parameter information, the waveform information of each piece of physiological information is displayed in the waveform area, or the parameter information of each piece of physiological information is displayed in the parameter area.
8. A computer-readable storage medium, on which a physiological information display program is stored, which when executed by a processor implements the method of any one of claims 1 to 7.
9. A physiological information display device comprising a memory, a processor, and a physiological information display program stored on the memory and executable on the processor, the processor implementing the method of any one of claims 1 to 7 when executing the physiological information display program.
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