CN114698037A - Medical device and communication method for medical device - Google Patents

Abstract

The application provides a medical device comprising at least two communication modules and a processor; the communication module is used for establishing communication connection with the control equipment and transmitting medical related data; the processor is configured for obtaining medical related data, determining a current working mode of the medical device, determining a target communication module of the at least two communication modules, the current working mode matching, controlling the target communication module to establish a communication connection with the control device, and controlling the target communication module to transmit the medical related data to the control device over the communication connection. Therefore, different types of communication connection can be established between the medical equipment and the control equipment according to different working modes of the medical equipment, and the flexibility of the communication mode of the medical equipment is improved. In addition, the application also provides a communication method of the medical device and a storage medium.

Description

Medical device and communication method for medical device

Technical Field

The present application relates to the field of medical device technology, and more particularly, to a medical device and a communication method for the medical device.

Background

After the medical device is applied to the monitored object, various medical-related data can be obtained for the monitored object, and the medical-related data can be transmitted to the control device (also called a control host). For example, the defibrillator can acquire heartbeat parameters of a patient, the heartbeat parameters and working parameters of the defibrillator can be sent to the control device to be displayed, or the control device can also issue a control instruction to the defibrillator to control the working process of the defibrillator.

There is a need for a solution for controlling the communication connection between a medical device and a control host.

Disclosure of Invention

In view of this, the present application provides a medical device and a communication method of the medical device, so as to improve flexibility of a communication mode used when the medical device communicates with a control device.

In a first aspect, an embodiment of the present application provides a medical apparatus, including:

the system comprises at least two communication modules, a control device and a monitoring module, wherein the at least two communication modules are used for establishing communication connection with the control device based on a target communication module in the at least two communication modules and transmitting medical related data through the communication connection;

a processor configured for obtaining medical-related data; determining a current working mode of the medical equipment, wherein the current working mode is used for representing the priority requirements of a current working scene of the medical equipment on equipment performance and equipment power consumption; determining a target communication module matched with the current working mode in the at least two communication modules; controlling the target communication module to establish a communication connection with the control device, and controlling the target communication module to transmit the medical-related data to the control device through the communication connection.

In a second aspect, an embodiment of the present application provides a communication method for a medical device, including:

obtaining medical related data;

determining a current working mode of the medical equipment, wherein the current working mode is used for representing the priority requirements of a current working scene of the medical equipment on equipment performance and equipment power consumption;

determining a target communication module of the at least two communication modules of the medical device for which the current operating mode matches;

establishing a communication connection with a control device via the target communication module and transmitting the medical-related data to the control device via the communication connection.

In a third aspect, the present application provides a readable storage medium, on which a computer program is stored, and when the computer program is loaded and executed by a processor, the computer program implements the communication method of the medical device provided in the second aspect.

Based on the above description of the embodiments, it can be seen that the medical device provided in the present application can select, based on the current working mode, a communication module meeting the requirements of the current working mode from among the plurality of communication modules of the medical device itself as a target communication module, and establish a communication connection between the target communication module and the control device.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic diagram of a medical device according to an embodiment of the present disclosure;

fig. 2 is a schematic view of an implementation scenario of a medical device provided in an embodiment of the present application;

FIG. 3 is a flow chart of a current operating mode determination for a medical device provided by an embodiment of the present application;

fig. 4 is a flowchart illustrating a communication method of a medical device according to an embodiment of the present application;

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

In the medical field, there is an increasing demand for cooperative use of medical devices. For example, some type of medical device needs to communicate with a control device (or called a control host), and based on the communication connection, the medical device can transmit medical-related data to the control device or receive control operation of the medical device by the control device. Illustratively, the medical-related data includes, but is not limited to, physiological sign data, operating parameters of the medical device itself, and the like. The control equipment can display the medical related data after receiving the medical related data, so that medical staff can monitor or diagnose the patient according to the medical related data.

Some medical equipment adopts a wired connection mode based on the consideration of transmission reliability, but the movement of the medical equipment is limited and the use process is inconvenient; or the existing medical equipment generally adopts a wireless mode for data transmission based on the consideration of portability, but the wireless transmission mode is easily interfered by external factors, and the data transmission is not stable enough and the reliability is not high; or some medical devices transmit all communication data by using a certain wireless communication mode, and the devices are not well suitable for various use scenes.

In order to improve the flexibility of the communication mode of the medical equipment, the medical equipment integrating at least two communication modules is provided, and the proper communication module is selected according to the working mode of the medical equipment so as to meet the equipment use requirements of different application scenes.

Fig. 1 is a schematic structural diagram of a medical device provided in an embodiment of the present application. The medical device may also be designed in modular form and the medical device may therefore also be referred to as a medical module. As shown in fig. 1, medical device 100 includes a processor 101, a first communication module 102, a second communication module 103, a third communication module 104, a fourth communication module 105, and a medical accessory 106. It should be noted that, the embodiment of the medical device is described as an example of four communication modules, and the number of the communication modules integrated in the medical device is not limited to four, and may be any other number according to actual use requirements. The communication modules in the embodiments of the present application may be all wireless communication modules, may also be all wired communication modules, and may also include both wireless communication modules and wired communication modules.

Wherein, each communication module can establish communication connection with the control device independently. It should be noted that different communication modules may use different communication protocols, and the types of the used communication protocols may be considered as different communication module types, for example, the first communication module 102 supports a WiFi communication protocol, the second communication module 103 supports a bluetooth communication protocol, the third communication module 104 supports a ZigBee communication protocol, and the fourth communication module 105 supports a Sub-G communication protocol, it is to be understood that the above listed communication protocols are merely examples, and the communication protocol used by the medical device in the implementation process may be adjusted based on actual situations, which is not limited herein. Alternatively, any plurality of communication modules in each communication module may also support the same communication protocol but use different communication channels, for example, the channel used by the first communication module 102 to support the WiFi communication protocol is a 5.0GHz band, and the channel used by the second communication module 103 to support the WiFi communication protocol is a 2.4GHz band.

In practice, the medical device may use the communication module selected by the processor 101 to meet the requirements of the current operating mode as the target communication module. The target communication module may be any of the first to fourth communication modules, and the target communication module may be one communication module or a plurality of communication modules. The target communication module is used for establishing communication connection with the control device, and the medical device transmits medical related data generated by the medical device to the control device through the communication connection.

It will be appreciated that the specific structure of the communication module may be set based on the context of use that the medical device may be involved in.

For example, the medical device is a monitoring module, the monitoring module may be used in a pre-hospital scene, that is, the monitoring module may be transported to a hospital from an ambulance or to an ambulance from the hospital, and the distance between the monitoring module and the control device may be far away in this process, which has a high requirement for the transmission distance of the communication connection, so that a front-end amplifier circuit may be added to the communication module to increase the communication transmission distance of the communication module, for example, a bluetooth wireless front-end amplifier circuit may be added to a bluetooth communication module included in the monitoring module, and the transmission distance of the bluetooth communication module added with the bluetooth wireless front-end amplifier circuit may be extended from the original 30 meters to 50 meters. If the medical device is a monitoring module, the monitoring module may be used in an ambulance, and in this scenario, a plurality of devices, such as the medical device, a control device to which the medical device needs to be connected, and a network device for networking the medical device, may be centrally disposed in the ambulance. The communication module of the medical device may be susceptible to signal interference, and one solution is that the communication module of the medical device may be improved. For example, the communication module of the medical device comprises two types of WiFi communication modules, and the WiFi communication module for connecting with the network device and the WiFi communication module for connecting with the control device are arranged independently of each other so as to reduce mutual interference possibly suffered by the WiFi communication modules. It is understood that the adjustment of each communication module can be determined according to actual situations, and the present application is not limited to the specific limitations, such as the structure of the frequency hopping part in the Sub-G communication module can be optimized.

It is understood that the medical device may include a plurality of communication modules not limited to two communication modules, so as to meet different operation mode requirements and ensure stable transmission of medical-related data, for example, the medical device may include four communication modules respectively using different communication protocols, which may be adjusted according to actual situations, and is not limited herein.

A processor 101 configured for obtaining medical-related data; determining a current operating mode of the medical device; determining a target communication module matched with the current working mode in at least two communication modules; the control target communication module establishes a communication connection with the control device, and the control target communication module transmits the medical-related data to the control device through the communication connection.

The processor 101 may in practice obtain medical-related data, which needs to be transmitted to the control device. Illustratively, the medical-related data includes, but is not limited to, patient monitoring data, device operating parameters, and the like. In particular, a portion of the medically-related data obtained by processor 101 may be acquired by medical accessory 106. The medical accessory 106 is used to collect medical related data, and if the medical device is a monitor, the medical accessory includes one or more physiological parameter sensor accessories; also, if the medical device is an infusion pump, the medical accessory is an accessory for infusion, and so on.

In addition, the processor 101 may determine a current working mode, where the current working mode is used to indicate a priority requirement of a current working scenario of the medical device on device performance and device power consumption, and it can be seen that the current working mode corresponds to the current working scenario of the medical device, and the current working scenario may preferentially require device performance or may preferentially require device power consumption, where the priority requirement on device performance refers to that the device performance is as high as possible, and the priority requirement on device power consumption refers to that the device power consumption is as low as possible. It is understood that device power consumption generally affects device performance, and that a stronger device performance generally results in a stronger device power consumption, whereas a lower device performance generally results in a lower device power consumption. Thus, if an operating scenario prioritizes device performance, it is generally indicated that device power consumption is not a concern, whereas if an operating scenario prioritizes device power consumption, it is generally indicated that device performance is not a concern. In various application scenarios of the present application, the priority is to improve the performance of the device, mainly in order to improve the transmission effect of the medical-related data, such as the medical-related data is reliably, safely and quickly transmitted to the control device.

As one possible example, if the processor 101 determines that the current operating mode preferentially requires device performance without limiting device power consumption, the processor 101 selects one or more communication modules that can provide the best device performance as the target communication module based on the requirements of the current operating mode. That is, a target communication module that matches the current operation mode is determined in the processor 101 among the plurality of communication modules included in the medical device.

The processor 101 establishes a communication connection with the control device using the target communication module, please refer to fig. 2, and fig. 2 is a schematic diagram illustrating the communication connection between the medical device and the control device. The medical device 201 may comprise a bluetooth communication module as well as a Sub-G communication module, and thus two types of communication connections may be established with the control device 202. For example, the communication connection 203 is a Sub-G communication link established based on a Sub-G communication module, and the communication connection 204 is a bluetooth communication link established based on a bluetooth communication module. The medical device 201 determines a target communication module based on the current operating mode, and then communicates with the control device 202 using a communication connection corresponding to the target communication module. It is assumed that if the target work module determined by the medical device 201 is a Sub-G communication module, the communication connection established between the medical device 201 and the control device 202 is a communication connection 203; if the target operating module determined by the medical device 201 is a bluetooth communication module, the communication connection established between the medical device 201 and the control device 202 is a communication connection 204. It is understood that a plurality of target communication modules may be determined based on the current operation mode, that is, in the case shown in fig. 2, only one communication connection may exist between the medical device 201 and the control device 202, or two communication connections may exist simultaneously, for example, if the medical device 201 determines that both communication modules are the target communication modules according to the selection policy in the high performance mode, the two communication connections operate simultaneously, and the present disclosure is not limited thereto.

It is understood that, after the target communication module is determined, the processor 101 may further perform communication channel selection, that is, select a target channel with a communication quality meeting a preset high quality condition from at least one channel corresponding to the target communication module. Specifically, after determining the target communication module, the processor 101 may obtain communication quality parameters such as signal strength, signal-to-noise ratio, and communication error rate of each channel supported by the target communication module, determine communication quality of each channel based on such communication quality parameters, and select a target channel whose communication quality meets a preset high quality condition. The high quality condition may be set manually, for example, if various communication quality parameters respectively occupy different weights, a score for representing the communication quality of the channel is calculated based on the weights, a certain preset score value is set as the high quality condition, and if the communication quality score of the channel exceeds the preset score value, the channel is determined to be in accordance with the preset high quality condition and is determined as the target channel. After determining the target communication module matched with the current working mode, the processor 101 specifically controls the target communication module to establish communication connection with the control device through the target channel when establishing communication connection.

After the processor 101 controls the target communication module to establish a communication connection with the control device, the processor 101 may further control the target communication module to transmit the medical-related data to the control device through the communication connection.

Specifically, the medical device may include any one or more of a monitor, a defibrillator, a ventilator, an anesthesia machine, an infusion pump, and the like, and the medical device may acquire various medical monitoring data related to a patient, such as vital sign parameters, and the like, and the medical monitoring data and/or medical related data, such as working parameters of the medical device itself, and the like, may be sent to the control device through the communication connection. Illustratively, the control device may be a patient monitor, a user terminal device, or a clinical information server, etc., which may present the medical-related data transmitted by the medical device. It will be appreciated that the medical device may not only transmit medical-related data to the control device, but may also receive information such as instructions transmitted by the control device based on the established communication connection.

When the medical related data acquired by the processor 101 includes a plurality of types, the transmission priority of each type of medical related data may be determined according to the important priority of each type of medical related data, and then the more important medical related data may be transmitted preferentially. The transmission priority of the control instruction is higher than that of the vital sign parameters; if the vital sign parameters are medical related data of the vital sign parameter type, the specific parameters included in the vital sign parameters can also be divided into different transmission priorities, for example, the important priority of heartbeat data is higher than that of blood glucose data, so that the control equipment can transmit more important medical related data in time, and the important medical data can be prevented from being lost under special conditions. The importance priority of each kind of medical data can be set according to the requirement, and is not limited herein.

Based on the above description of the embodiments, it can be seen that the medical device provided in the present application can select, based on the current working mode, a communication module meeting the requirements of the current working mode from among the plurality of communication modules of the medical device itself as a target communication module, and establish a communication connection between the target communication module and the control device.

Based on the above embodiments corresponding to fig. 1 and fig. 2, the following describes the determination process of the operation mode and the communication module, and specifically, the current operation mode of the medical device and the target communication module corresponding to the current operation mode may be determined in any one of the following manners.

(1) And determining a current working mode based on the service data of the current working scene, and determining a target communication module based on the current working mode.

And acquiring the service data of the current working scene, and determining the current working mode of the medical equipment according to the service data of the current working scene. Specifically, the service data may include monitoring data of the medical device on the patient, such as heartbeat data or blood pressure data, and may also be service data generated by the operation of the medical device itself, such as data transmission distance detected by the medical device, interference degree, and the like. The current operating mode is determined based on the service data, it should be noted that the current operating mode may be an operating mode having a specific mode requirement (such as requirement on transmission reliability, long transmission distance, and strong interference immunity), and the mode requirement may be determined based on the service data. And selecting the corresponding communication module as the target communication module based on the mode requirement of the current working module.

For example, in an emergency scene, the medical device includes a defibrillator, heartbeat data obtained by the defibrillator needs to be reliably, stably and accurately transmitted to the control device, and at this time, stability and accuracy of medical-related data transmission need to be guaranteed as much as possible, so that it can be determined that the current operating mode is a high-performance operating mode, and the high-performance operating mode is specifically a mode having a requirement on transmission reliability, and further a target communication module meeting the requirement of the mode, such as a WiFi (5G frequency band) communication module and a bluetooth communication module, can be selected. In another example, in a scenario where the medical device is transported from an ambulance to a hospital, the monitoring device detects that the data transmission distance between the monitoring device and the control device is long, and at this time, the monitoring data obtained by the monitoring device needs to be transmitted to the control device as much as possible, so that the current operating mode can be determined to be a high-performance operating mode, and the high-performance operating mode is specifically a mode having a requirement on the transmission distance, and further, a target communication module meeting the requirement of the mode, such as a WiFi (2.4G) communication module and a Sub-G communication module, can be selected. If the medical device in the scene in the ambulance includes a monitoring device, a ventilator, an infusion pump module, a medical tablet and the like, and if the medical device detects that the interference data is large, it may be determined that the current working mode is a high-performance working mode, and the high-performance working mode is specifically a mode having a requirement on interference resistance, and further, a target communication module meeting the requirement of the mode, such as a WiFi (5G frequency band) communication module and a Sub-G module, may be selected.

(2) And determining a current working mode based on the mode configuration information input by the user, and determining a target communication module based on the current working mode.

And obtaining mode configuration information input by a user, and determining a working mode corresponding to the mode configuration information as the current working mode of the medical equipment. Specifically, the medical device may provide the supported operation modes to the user, and may illustrate differences and advantages between the respective operation modes so that the user may make a selection of the operation mode, and then determine the current operation mode based on the selection instruction of the user. It should be noted that the operation mode provided by the medical device may include any one or more of the above examples, such as an emergency mode, an ambulance mode, a pre-hospital mode, etc., or may be other operation modes according to practical application scenarios.

(3) The method comprises the steps of determining a current working mode based on a current power supply mode and electric quantity of the medical equipment, and determining a target communication module based on the current working mode.

Specifically, referring to fig. 3, a current power supply mode of a power supply module of the medical device needs to be determined first, and a current working mode of the medical device is determined based on the current power supply mode of the power supply module, where the power supply mode of the medical device may include ac power supply or power supply.

For the alternating current power supply mode, the medical equipment can be considered to be powered by an external power supply, the electric quantity is sufficient, and the power consumption problem in the data transmission process is not required to be considered, so that a high-performance mode with high power consumption, namely a working mode with the best data transmission effect and the highest electric quantity consumption can be selected as the current working mode.

In the case of power supply from the power source, the medical device is powered by a device such as its own battery that stores electric energy, so the consumed electric energy and the current residual current need to be considered comprehensively to determine the currently used operating mode. Specifically, the electric quantity stored by the power supply can be preset, a plurality of electric quantity ranges are preset, if the condition that the electric quantity of the power supply is 100-80% belongs to a preset high electric quantity, and if the current medical equipment belongs to the preset high electric quantity condition, the high-performance mode is determined to be the current working mode of the medical equipment; the condition that the electric quantity of the power supply is 80% -30% belongs to the preset middle electric quantity, and if the current medical equipment belongs to the preset middle electric quantity condition, the balance performance mode is determined to be the current working mode of the medical equipment; and if the current medical equipment belongs to the preset low power, determining that the low power consumption mode is the current working mode of the medical equipment. The features of each operating mode are described in detail below and are not described in detail herein. It can be understood that the boundary of each electric quantity range and the mode corresponding to each electric quantity range may be set based on a user requirement, and are not limited herein.

Illustratively, the medical device selectable operating modes include a high performance mode, an equalization mode, and a low power consumption mode.

(1) High performance mode.

The high-performance mode is an operating mode of the medical device, and when the medical device selects the high-performance mode as a current operating mode, a first number of communication modules with higher communication reliability are selected from the at least two communication modules as target communication modules, wherein the first number is at least two. The communication reliability can be determined based on parameters such as signal strength, signal-to-noise ratio and communication error rate of each communication module, and a first number of communication modules with higher parameters are determined to be used as target communication modules, wherein the first number can be set based on user selection, and the first number is at least two for ensuring stable transmission of data, so that redundant transmission can be performed. In particular, at least two target communication modules are controlled to transmit medical-related data via the respectively established communication connection based on a redundant transmission technique. The used redundancy transmission technology comprises complete redundancy, partial redundancy or error correction redundancy, the accuracy of all data is ensured by a mode of transmitting extra data, the data can be recovered based on the redundant data even if the data is lost, the specific redundancy transmission technology can refer to the prior art, and details are not repeated here.

(2) And (4) an equalization mode.

The balance mode is another working mode of the medical equipment, and when the balance mode is selected as the current working mode of the medical equipment, the selection rule of the medical equipment to the target communication module comprises the following steps: a second number of communication modules with moderate communication reliability and moderate power consumption capability are selected as target communication modules from among the at least two communication modules. It can be understood that the power consumption of the communication modules and the communication reliability generally affect each other, that is, if one communication module consumes more power, the communication reliability is higher if the communication module emits stronger signals, and if the power consumption of one communication module is lower, the communication reliability is lower if the communication module emits weaker signals. In the balanced mode, a communication module with moderate communication reliability and moderate power consumption capability can be selected as a target communication module, and if the medical equipment comprises three communication modules, the communication module with moderate power consumption can be selected as the target communication module, so that the medical equipment can be ensured to be used for a long time while a data transmission task is well completed. The second number may be one or more according to practical situations, and is not limited herein.

(3) A low power consumption mode.

The low power consumption mode is another working mode of the medical device, the medical device selects the low power consumption mode mainly aiming at reducing the power consumption of the medical device so as to prolong the service time of the medical device, and therefore the selection rule of the target communication module comprises the following steps: a third number of communication modules with the lowest power consumption capability are selected from the at least two communication modules as target communication modules, the third number is generally one, so as to reduce the power consumption of the medical device as much as possible, and the numerical value of the third number may also be adjusted based on the actual situation, which is not limited herein.

It is understood that the communication connection established between the medical device and the control device may also be adjusted based on the influence of external factors during the communication process, and specifically, the adjustment may include:

(1) an adjustment to a communication channel.

The processor of the medical equipment can monitor the channel used by the current communication connection, monitor the communication quality of the channel, and switch the communication connection from the current channel to other channels of the target communication module under the condition that the communication quality meets the preset low-quality condition, wherein the communication quality of the other channels is higher than that of the current channel. Specifically, the communication quality may be determined based on a preset rule, and the low quality condition may be preset, which is not limited herein. And if the communication quality of the current channel is lower than the preset low-quality condition, acquiring the communication quality of other channels supported by the target communication module, evaluating the communication quality of other channels, determining one channel with the communication quality higher than that of the current channel as a target channel, and switching to the channel for data transmission.

(2) Adjustment of the communication module.

The processor of the medical device may also make adjustments to the selected target communication module for use. Specifically, the adjustment rule includes: and if the communication quality of the current communication module does not match the communication quality required by the current working mode, selecting one communication module with the communication quality matched with the communication quality required by the current working mode from the at least two communication modules as a target communication module. The communication quality of the communication module currently in a working state is judged in real time, if the judgment result shows that the communication quality of the current communication module does not match the communication quality required by the current working mode, one communication module meeting the communication quality required by the current working mode is selected as a target communication module, wherein the communication quality can be comprehensively determined through parameters in the aspects of signal strength, signal-to-noise ratio, communication error rate and the like, the specific determination mode can be determined according to actual conditions, and the method is not limited here.

When the medical device adjusts the selected target communication module, a condition that all communication modules of the medical device do not meet the communication quality required by the current working mode is easy to occur, and for the condition, the communication module adjusting mode which can be performed comprises the following steps: the processor selects a plurality of communication modules having relatively high communication quality among the at least two communication modules as target communication modules. In other words, under such circumstances, a plurality of communication modules are selected as the target communication module, and the plurality of communication modules are used for data transmission, so as to improve the transmission capability of the medical device as much as possible and further ensure the stability and accuracy of the medical-related data transmission.

In addition, an embodiment of a communication method of a medical device is provided, and referring to fig. 4, the method includes steps 401 to 404.

401. Medical related data is obtained.

402. A current operating mode of the medical device is determined.

403. A target communication module matching a current operating mode is determined among at least two communication modules of the medical device.

404. A communication connection is established with the control device via the target communication module and medical-related data is transmitted to the control device via the communication connection.

It is noted that the steps 401 and 404 may be performed by a processor of the medical device. In addition, the implementation manner of each step in this embodiment is similar to the working manner of the medical device in the corresponding embodiment of fig. 1 and fig. 2, and details are not described here.

In one embodiment, the determining the current operating mode of the medical device comprises: and acquiring the service data of the current working scene, and determining the current working mode of the medical equipment according to the service data of the current working scene.

In one embodiment, the determining the current operating mode of the medical device comprises: obtaining mode configuration information input by a user, and determining a working mode corresponding to the mode configuration information as a current working mode of the medical equipment.

In one embodiment, the determining the current operating mode of the medical device comprises: determining a current power supply mode of a power supply module of the medical equipment, and determining a current working mode of the medical equipment based on the current power supply mode of the power supply module.

In one embodiment, the determining the current operating mode of the medical device based on the current power supply mode of the power supply module includes: if the current power supply mode is alternating current power supply or the current power supply mode is power supply of a power supply and the electric quantity of the power supply is preset high electric quantity, determining that a high-performance mode is the current working mode of the medical equipment; if the current power supply mode is power supply of a power supply and the electric quantity of the power supply is a preset middle electric quantity, determining that the balance mode is the current working mode of the medical equipment; and if the current power supply mode is power supply and the power supply electric quantity is preset low electric quantity, determining that the low power consumption mode is the current working mode of the medical equipment.

In one embodiment, the determining the target communication module of the at least two communication modules of the medical device that the current operating mode matches comprises: if the current working mode is a high-performance mode, selecting a first number of communication modules with higher communication reliability from the at least two communication modules as target communication modules, wherein the first number is at least two; if the current working mode is a balanced mode, selecting a second number of communication modules with moderate communication reliability and moderate power consumption capability from the at least two communication modules as target communication modules; if the current working mode is a low-power-consumption mode, selecting a third number of communication modules with the lowest power consumption capability from the at least two communication modules as target communication modules; wherein the first number is greater than the second number and the first number is greater than the third number.

In one embodiment, said transmitting said medical-related data to said control device over said communication connection comprises: and if the current working mode is the high-performance mode, transmitting medical related data through the communication connection respectively established by at least two target communication modules based on a redundant transmission technology.

In one embodiment, the redundant transmission technique comprises: full redundancy, partial redundancy, or error correction redundancy.

In one embodiment, the establishing of the communication connection with the control device through the target communication module includes: selecting a target channel with communication quality meeting a preset high-quality condition from at least one channel corresponding to the target communication module; and establishing communication connection with the control equipment through the target channel of the target communication module.

In an embodiment, the method further comprises: monitoring the communication quality of a current channel associated with the communication connection; and under the condition that the communication quality meets a preset low-quality condition, switching the communication connection from the current channel to other channels of the target communication module, wherein the communication quality of the other channels is higher than that of the current channel.

In one embodiment, said transmitting said medical-related data to said control device over said communication connection comprises: determining the transmission priority of various types of medical related data according to the important priority of various types of medical related data under the condition that the medical related data comprises various types of medical related data; and according to the transmission priority, sequentially transmitting various medical related data to the control equipment through the communication connection.

In one embodiment, the determining the target communication module of the at least two communication modules of the medical device that the current operation mode matches includes: determining, among the at least two communication modules, a communication module currently used by the medical device as a current communication module; if the communication quality of the current communication module does not match the communication quality required by the current working mode, selecting one communication module with the communication quality matched with the communication quality required by the current working mode from the at least two communication modules as a target communication module; and if any one of the communication modules does not meet the communication quality required by the current working mode, selecting a plurality of communication modules with relatively high communication quality from the at least two communication modules as target communication modules.

In an embodiment, different communication modules of the at least two communication modules use different communication protocols; alternatively, any plurality of the at least two communication modules use the same communication protocol but different communication channels.

In addition, the embodiment of the present application further provides a readable storage medium, on which a computer program is stored, and when the computer program is loaded and executed by a processor, the computer program implements the communication method of the medical device provided in any of the above embodiments. The electronic device, such as a mobile terminal, etc., can set the readable storage medium, and load and execute the computer program through the processor, so as to implement the physical sign parameter measurement method provided by any of the above embodiments.

In the above description of the disclosed embodiments, features described in various embodiments in this specification can be substituted for or combined with each other to enable those skilled in the art to make or use the present application. Reference is made herein to various exemplary embodiments. However, those skilled in the art will recognize that changes and modifications may be made to the exemplary embodiments without departing from the scope hereof. For example, the various operational steps, as well as the components used to perform the operational steps, may be implemented in differing ways depending upon the particular application or consideration of any number of cost functions associated with operation of the system (e.g., one or more steps may be deleted, modified or incorporated into other steps).

The terms "first," "second," and the like in the description and claims herein and in the above-described drawings are used for distinguishing between different objects and not necessarily for describing a particular sequential order. Furthermore, the terms "include" and "have," as well as any variations thereof, are intended to cover non-exclusive inclusions. For example, a process, method, system, article, or apparatus that comprises a list of steps or elements is not limited to only those steps or elements but may alternatively include other steps or elements not expressly listed or inherent to such process, method, or apparatus.

Additionally, as will be appreciated by one skilled in the art, the principles herein may be reflected in a computer program product on a computer readable storage medium having computer readable program code pre-loaded thereon. Any tangible, non-transitory computer-readable storage medium may be used, including magnetic storage devices (hard disks, floppy disks, etc.), optical storage devices (CD-ROMs, DVDs, Blu Ray disks, etc.), flash memory, and/or the like. These computer program instructions may be loaded onto a general purpose computer, special purpose computer, or other programmable data processing apparatus to produce a machine, such that the instructions which execute on the computer or other programmable data processing apparatus create means for implementing the functions specified. 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 means for implementing the function specified. The 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.

The foregoing detailed description has been described with reference to various embodiments. However, one skilled in the art will recognize that various modifications and changes may be made without departing from the scope of the present disclosure. Accordingly, the disclosure is to be considered in an illustrative and not a restrictive sense, and all such modifications are intended to be included within the scope thereof. Also, advantages, other advantages, and solutions to problems have been described above with regard to various embodiments. However, the benefits, advantages, solutions to problems, and any element(s) that may cause any element(s) to occur or become more pronounced are not to be construed as a critical, required, or essential feature or element of any or all the claims. As used herein, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, system, article, or apparatus. Furthermore, the term "coupled," and any other variation thereof, as used herein, refers to a physical connection, an electrical connection, a magnetic connection, an optical connection, a communicative connection, a functional connection, and/or any other connection.

The above examples only show some embodiments, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (27)

1. A medical device, comprising:

the system comprises at least two communication modules, a control device and a display module, wherein the at least two communication modules are used for establishing communication connection with the control device based on a target communication module in the at least two communication modules and transmitting medical related data through the communication connection;

a processor configured for obtaining medical-related data; determining a current working mode of the medical equipment, wherein the current working mode is used for representing the priority requirements of a current working scene of the medical equipment on equipment performance and equipment power consumption; determining a target communication module matched with the current working mode in the at least two communication modules; controlling the target communication module to establish a communication connection with the control device, and controlling the target communication module to transmit the medical-related data to the control device through the communication connection.

2. The medical device of claim 1, wherein, in performing the step of determining the current operating mode of the medical device, the processor is specifically configured to:

and acquiring the service data of the current working scene, and determining the current working mode of the medical equipment according to the service data of the current working scene.

3. The medical device of claim 1, wherein, in performing the step of determining the current operating mode of the medical device, the processor is specifically configured to:

obtaining mode configuration information input by a user, and determining a working mode corresponding to the mode configuration information as a current working mode of the medical equipment.

4. The medical device of claim 1, wherein, in performing the step of determining the current operating mode of the medical device, the processor is specifically configured to:

determining a current power supply mode of a power supply module of the medical equipment, and determining a current working mode of the medical equipment based on the current power supply mode of the power supply module.

5. The medical device of claim 4, wherein, in performing the step of determining the current operating mode of the medical device based on the current power mode of the power module, the processor is specifically configured to:

if the current power supply mode is alternating current power supply or the current power supply mode is power supply of a power supply and the electric quantity of the power supply is preset high electric quantity, determining that a high-performance mode is the current working mode of the medical equipment;

if the current power supply mode is power supply of a power supply and the electric quantity of the power supply is a preset middle electric quantity, determining that the balance mode is the current working mode of the medical equipment;

and if the current power supply mode is power supply and the power supply electric quantity is preset low electric quantity, determining that the low power consumption mode is the current working mode of the medical equipment.

6. The medical device of claim 1, wherein in performing the step of determining a target communication module of the at least two communication modules for which the current operating mode matches, the processor is specifically configured to:

if the current working mode is a high-performance mode, selecting a first number of communication modules with higher communication reliability from the at least two communication modules as target communication modules, wherein the first number is at least two;

if the current working mode is a balanced mode, selecting a second number of communication modules with moderate communication reliability and moderate power consumption capability from the at least two communication modules as target communication modules;

if the current working mode is a low-power-consumption mode, selecting a third number of communication modules with the lowest power consumption capability from the at least two communication modules as target communication modules;

wherein the first number is greater than the second number and the first number is greater than the third number.

7. The medical device of claim 6, wherein in performing the step of controlling the target communication module to transmit medical-related data over the communication connection, the processor is specifically configured to:

and if the current working mode is the high-performance mode, controlling at least two target communication modules to transmit medical related data through the communication connection established by the target communication modules based on a redundant transmission technology.

8. The medical device of claim 7, wherein the redundant transmission technique comprises: full redundancy, partial redundancy, or error correction redundancy.

9. The medical device of claim 1, wherein, in performing the step of controlling the target communication module to establish a communication connection with the control device, the processor is specifically configured to:

selecting a target channel with communication quality meeting a preset high-quality condition from at least one channel corresponding to the target communication module;

and controlling the target communication module to establish communication connection with the control equipment through the target channel.

10. The medical device of claim 1,

the processor is further configured to monitor a communication quality of a current channel associated with the communication connection, and switch the communication connection from the current channel to another channel of the target communication module when the communication quality satisfies a preset low quality condition, where the communication quality of the other channel is higher than that of the current channel.

11. The medical device of claim 1, wherein in performing the step of controlling the target communication module to transmit medical-related data over the communication connection, the processor is specifically configured to:

determining the transmission priority of various types of medical related data according to the important priority of various types of medical related data under the condition that the medical related data comprises various types of medical related data;

and controlling the target communication module to sequentially transmit various medical related data through the communication connection according to the transmission priority.

12. The medical device of claim 1, wherein in performing the step of determining a target communication module of the at least two communication modules for which the current operating mode matches, the processor is specifically configured to:

determining, among the at least two communication modules, a communication module currently used by the medical device as a current communication module;

if the communication quality of the current communication module does not match the communication quality required by the current working mode, selecting one communication module with the communication quality matched with the communication quality required by the current working mode from the at least two communication modules as a target communication module;

and if any one of the communication modules does not meet the communication quality required by the current working mode, selecting a plurality of communication modules with relatively high communication quality from the at least two communication modules as target communication modules.

13. The medical device of claim 1, wherein different ones of the at least two communication modules use different communication protocols; alternatively, any plurality of the at least two communication modules use the same communication protocol but different communication channels.

14. A method of communication for a medical device, comprising:

obtaining medical related data;

determining a current working mode of the medical equipment, wherein the current working mode is used for representing the priority requirements of a current working scene of the medical equipment on equipment performance and equipment power consumption;

determining a target communication module of the at least two communication modules of the medical device for which the current operating mode matches;

establishing a communication connection with a control device via the target communication module and transmitting the medical-related data to the control device via the communication connection.

15. The medical device communication method of claim 14, wherein said determining a current operating mode of said medical device comprises:

and acquiring the service data of the current working scene, and determining the current working mode of the medical equipment according to the service data of the current working scene.

16. The medical device communication method of claim 14, wherein said determining a current operating mode of said medical device comprises:

obtaining mode configuration information input by a user, and determining a working mode corresponding to the mode configuration information as a current working mode of the medical equipment.

17. The medical device communication method of claim 14, wherein said determining a current operating mode of said medical device comprises:

determining a current power supply mode of a power supply module of the medical equipment, and determining a current working mode of the medical equipment based on the current power supply mode of the power supply module.

18. The method for communicating with a medical device of claim 17, wherein said determining a current operating mode of the medical device based on a current power mode of the power module comprises:

if the current power supply mode is alternating current power supply or the current power supply mode is power supply of a power supply and the electric quantity of the power supply is preset high electric quantity, determining that a high-performance mode is the current working mode of the medical equipment;

if the current power supply mode is power supply of a power supply and the electric quantity of the power supply is a preset middle electric quantity, determining that the balance mode is the current working mode of the medical equipment;

and if the current power supply mode is power supply and the power supply electric quantity is preset low electric quantity, determining that the low power consumption mode is the current working mode of the medical equipment.

19. The communication method of a medical device according to claim 14, wherein the determining a target communication module of the at least two communication modules of the medical device that the current operation mode matches comprises:

if the current working mode is a high-performance mode, selecting a first number of communication modules with higher communication reliability from the at least two communication modules as target communication modules, wherein the first number is at least two;

if the current working mode is a balanced mode, selecting a second number of communication modules with moderate communication reliability and moderate power consumption capability from the at least two communication modules as target communication modules;

if the current working mode is a low-power-consumption mode, selecting a third number of communication modules with the lowest power consumption capability from the at least two communication modules as target communication modules;

wherein the first number is greater than the second number and the first number is greater than the third number.

20. The communication method of a medical device of claim 19, wherein said transmitting said medical-related data to said control device over said communication connection comprises:

and if the current working mode is the high-performance mode, transmitting medical related data through the communication connection established by at least two target communication modules respectively based on a redundancy transmission technology.

21. The medical device communication method of claim 20, wherein the redundant transmission technique comprises: full redundancy, partial redundancy, or error correction redundancy.

22. The communication method of a medical device according to claim 14, wherein the establishing a communication connection with a control device through the target communication module comprises:

selecting a target channel with communication quality meeting a preset high-quality condition from at least one channel corresponding to the target communication module;

and establishing communication connection with the control equipment through the target channel of the target communication module.

23. The medical device communication method of claim 14, further comprising:

monitoring the communication quality of a current channel associated with the communication connection;

and under the condition that the communication quality meets a preset low-quality condition, switching the communication connection from the current channel to other channels of the target communication module, wherein the communication quality of the other channels is higher than that of the current channel.

24. The communication method of a medical device of claim 14, wherein said transmitting said medical-related data to said control device over said communication connection comprises:

determining the transmission priority of various types of medical related data according to the important priority of various types of medical related data under the condition that the medical related data comprises various types of medical related data;

and sequentially transmitting various types of medical related data to the control equipment through the communication connection according to the transmission priority.

25. The communication method of a medical device according to claim 14, wherein the determining the target communication module of the at least two communication modules of the medical device for which the current operation mode matches comprises:

determining, among the at least two communication modules, a communication module currently used by the medical device as a current communication module;

if the communication quality of the current communication module does not match the communication quality required by the current working mode, selecting one communication module with the communication quality matched with the communication quality required by the current working mode from the at least two communication modules as a target communication module;

and if any one of the communication modules does not meet the communication quality required by the current working mode, selecting a plurality of communication modules with relatively high communication quality from the at least two communication modules as target communication modules.

26. The medical device communication method of claim 14, wherein different ones of the at least two communication modules use different communication protocols; alternatively, any plurality of the at least two communication modules use the same communication protocol but different communication channels.

27. A readable storage medium, having stored thereon a computer program, wherein the computer program, when loaded and executed by a processor, implements the vital sign parameter measuring method of any one of claims 14 to 26.

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