CN112402797B - Configuration updating method, device and system of defibrillator - Google Patents

Abstract

The invention discloses a configuration updating method, device and system of a defibrillator, belonging to the technical field of emergency medical equipment, comprising the following steps: responding to a key pressing a configuration mode switching request by a user, and switching the current mode of the target defibrillator to a configuration mode; after a first terminal and the target defibrillator are in communication connection, receiving prompt configuration parameters sent by the first terminal, wherein the prompt configuration parameters are generated by the first terminal according to acquired environment data; and updating the prompt configuration of the target defibrillator according to the prompt configuration parameters. According to the invention, the environment data corresponding to the current application place environment of the target defibrillator can be obtained, the prompt configuration corresponding to the target defibrillator is adjusted according to the environment data, the prompt configuration of the target defibrillator can be dynamically adjusted according to the environment data of the installation site, and the availability and reliability of the target defibrillator are improved.

Description

Configuration updating method, device and system of defibrillator

Technical Field

The present invention relates to the field of emergency medical devices, and in particular, to a method, an apparatus, and a system for updating configuration of a defibrillator.

Background

An AED (automated external defibrillator ) is a medical care device for defibrillation, simply an external defibrillator or AED device, which diagnoses a particular arrhythmia and delivers shock defibrillation, specifically, shocks the heart with an amount of current to restore the normal rhythm to a patient experiencing ventricular fibrillation. Studies have shown that when a patient is subjected to ventricular fibrillation, immediate defibrillation is required, otherwise the patient may be life-threatening in a short period of time; when a patient occurs due to ventricular fibrillation, a nearby volunteer is required to take an external defibrillator to rescue the patient, and a rescue is performed according to instructions from the defibrillator. Therefore, a preset prompt configuration or audio configuration, such as brightness of a screen, volume of voice playing, etc., when the defibrillator makes a prompt is required to ensure that relevant personnel can clearly obtain relevant operation instructions when using the defibrillator.

The audio configuration or the prompt configuration of the defibrillator in the related art is set when the defibrillator leaves the factory, but the prompt configuration set when the defibrillator leaves the factory possibly does not accord with the environment of an application scene of an installation site, for example, the too high light brightness or the too high noise of the environment of the application scene can influence the acquisition of prompt information by related personnel; and the hardware equipment condition of the existing defibrillator is limited, the prompt configuration of the external defibrillator cannot be changed according to the real-time on-site environment of the defibrillator, and the usability of the external defibrillator is reduced.

Accordingly, in order for a defibrillator to meet the usability in an application scenario, it is desirable to provide a new defibrillator control technology.

Disclosure of Invention

The application provides a configuration updating method, device, terminal and system of a defibrillator, which can solve the technical problem that prompt configuration of an external defibrillator cannot be changed according to real-time installation site environment of the defibrillator.

A first aspect of the present invention provides a method for updating a configuration of a defibrillator, the method comprising:

responding to a key pressing a configuration mode switching request by a user, and switching the current mode of the target defibrillator to a configuration mode;

After a first terminal and the target defibrillator are in communication connection, receiving prompt configuration parameters sent by the first terminal, wherein the prompt configuration parameters are generated by the first terminal according to acquired environment data;

and updating the prompt configuration of the target defibrillator according to the prompt configuration parameters.

A second aspect of the present invention provides a method for updating a configuration of a defibrillator, the method comprising:

After communication connection with a target defibrillator is established through a configuration mode of a target application on a terminal, environment data of the current environment of the target defibrillator is acquired;

Generating prompt configuration parameters by using the acquired environment data according to the corresponding relation between the preset environment data and the prompt configuration parameters;

And sending the prompt configuration parameters to the target defibrillator, wherein the prompt configuration parameters are used for updating the prompt configuration of the target defibrillator.

A third aspect of the present invention provides a configuration updating apparatus for a defibrillator, for use with a defibrillator, the apparatus comprising:

The switching module is used for responding to the pressing of a key of a configuration mode switching request by a user and switching the current mode of the target defibrillator to a configuration mode;

The receiving module is used for receiving prompt configuration parameters sent by the first terminal after the first terminal is in communication connection with the target defibrillator, wherein the prompt configuration parameters are generated by the first terminal according to the acquired environment data;

And the updating module is used for updating the prompt configuration of the target defibrillator according to the prompt configuration parameters.

A fourth aspect of the present invention provides a configuration updating apparatus for a defibrillator, which is applied to a terminal, including:

the first acquisition module is used for acquiring environment data of the current environment of the target defibrillator after communication connection between the first acquisition module and the target defibrillator is established through a configuration mode of the target application on the terminal;

The first generation module is used for generating prompt configuration parameters by using the acquired environment data according to the corresponding relation between the preset environment data and the prompt configuration parameters;

and the sending module is used for sending the prompt configuration parameters to the target defibrillator, and the prompt configuration parameters are used for updating the prompt configuration of the target defibrillator.

A fifth aspect of the present invention provides a control system for a defibrillator comprising a target defibrillator having configuration updating means for a defibrillator as provided in the third aspect, and a terminal having configuration updating means for a defibrillator as provided in the fourth aspect, the target defibrillator being in communicative connection with the terminal;

the target defibrillator is used for responding to the key pressing of the configuration mode switching request by a user and switching the current mode of the target defibrillator to the configuration mode;

The terminal is used for acquiring environment data of the current environment of the target defibrillator after communication connection between the terminal and the target defibrillator is established through a configuration mode of the target application on the terminal; generating prompt configuration parameters by using the acquired environment data according to the corresponding relation between the preset environment data and the prompt configuration parameters; transmitting the prompt configuration parameters to the target defibrillator, wherein the prompt configuration parameters are used for updating the prompt configuration of the target defibrillator;

The target defibrillator is further used for receiving prompt configuration parameters sent by the first terminal after the first terminal is in communication connection with the target defibrillator, wherein the prompt configuration parameters are generated by the first terminal according to the acquired environmental data; and updating the prompt configuration of the target defibrillator according to the prompt configuration parameters.

The configuration updating method of the defibrillator provided by the invention comprises the following steps: responding to a key pressing a configuration mode switching request by a user, and switching the current mode of the target defibrillator to a configuration mode; after a first terminal and the target defibrillator are in communication connection, receiving prompt configuration parameters sent by the first terminal, wherein the prompt configuration parameters are generated by the first terminal according to acquired environment data; and updating the prompt configuration of the target defibrillator according to the prompt configuration parameters. According to the scheme, environmental data of the current environment of the target defibrillator is sensed through the terminal, prompt configuration parameters are generated according to the environmental data, and the prompt configuration parameters are sent to the target defibrillator to be used for updating prompt configuration of the target defibrillator; compared with the related art, the method and the device can acquire the environment data corresponding to the current application place environment of the target defibrillator, adjust the prompt configuration corresponding to the target defibrillator according to the environment data, dynamically adjust the prompt configuration of the target defibrillator according to the environment data of the installation site, and improve the availability and reliability of the target defibrillator.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings that are necessary for the description of the embodiments or the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the invention and that other drawings may be obtained from them without inventive effort for a person skilled in the art.

Fig. 1 is a block diagram of a control system of a defibrillator according to a first embodiment of the present invention;

fig. 2 is a flowchart showing steps of a configuration updating method of a defibrillator according to a second embodiment of the present invention;

Fig. 3 is a flowchart showing steps of a configuration updating method of a defibrillator according to a third embodiment of the present invention;

fig. 4 is a flowchart showing another step of a configuration updating method of a defibrillator according to a third embodiment of the present invention;

Fig. 5 is a block diagram showing a configuration updating apparatus of a defibrillator according to a fourth embodiment of the present invention;

fig. 6 is a block diagram showing a configuration updating apparatus of a defibrillator according to a fifth embodiment of the present invention;

fig. 7 is a schematic diagram of an electronic device according to a sixth embodiment of the present invention.

Detailed Description

In order to make the objects, features and advantages of the present invention more comprehensible, the technical solutions in the embodiments of the present invention will be clearly described in conjunction with the accompanying drawings in the embodiments of the present invention, and it is apparent that the described embodiments are only some embodiments of the present invention, but not all embodiments of the present invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Because the prior art defibrillator cannot change the prompt configuration of the external defibrillator according to the real-time on-site environment of the defibrillator installation.

In order to solve the above technical problems, the present invention provides a configuration updating method, device and system for a defibrillator.

Referring to fig. 1, a first embodiment of the present invention provides an architecture diagram of a control system of a defibrillator; embodiments of the present invention provide a control system for a defibrillator, the control system comprising at least: terminal 101 and target defibrillator 102, the communication connection between terminal 101 and target defibrillator 102. It should be noted that, the terminal 101 is a terminal device for controlling or assisting the target defibrillator, and may be a mobile terminal, such as a mobile phone, a notebook computer, a tablet computer, a wearable device, and the like, which has a device for adaptively adjusting display brightness and play volume according to surrounding environments, and after the terminal 101 is in communication connection with the target defibrillator 102, data interaction between the terminal 101 and the target defibrillator 102 is performed, so as to assist or control the target defibrillator 102. The target defibrillator 102 is configured to diagnose or detect a specific heart rhythm of a target subject, for example, the target subject may be a comatose, specifically detect heart rhythm, blood pressure, etc. of the target subject, analyze the physical state of the target person according to the detection result to determine whether to deliver electric shock defibrillation, specifically, impact the heart with a certain amount of current to restore the normal heart rhythm of a patient suffering from ventricular fibrillation, or prompt a staff to perform a rescue operation of CPR cardiopulmonary resuscitation on the target subject when the electric shock defibrillation is not required.

Specifically, the target defibrillator 102 is configured to switch the current mode of the target defibrillator to the configuration mode in response to the user pressing a button of the configuration mode switching request. The target defibrillator 102 defaults to rescue mode after powering on, which the user can switch to configuration mode.

The terminal 101 is default in rescue mode after being started, and the user can switch the terminal to configuration mode. The terminal 101 is configured to acquire environmental data of an environment in which the target defibrillator is currently located after establishing a communication connection with the target defibrillator through a configuration mode of a target application on the terminal; generating prompt configuration parameters by using the acquired environment data according to the corresponding relation between the preset environment data and the prompt configuration parameters; and sending the prompt configuration parameters to the target defibrillator, wherein the prompt configuration parameters are used for updating the prompt configuration of the target defibrillator. It should be noted that, the terminal is provided with a target application, which is an application or APP provided by a provider of the defibrillator, and is used for realizing communication connection between the terminal and the defibrillator, and also can be used for realizing communication data interaction between the terminal and the cloud service end.

The target defibrillator 102 is further configured to receive, after the configuration mode is further used for establishing a communication connection between the first terminal and the target defibrillator, a prompt configuration parameter sent by the first terminal, where the prompt configuration parameter is a configuration parameter generated by the first terminal according to the acquired environmental data; and updating the prompt configuration of the target defibrillator according to the prompt configuration parameters.

The target defibrillator 102 is further configured to, in a rescue mode, detect or diagnose a target subject, such as detecting a target subject's heart rhythm, generate heart rhythm data after detecting a heart rhythm condition of the target subject, analyze a body condition of the target subject based on the heart rhythm data, and specifically determine whether the heart rhythm belongs to VF (ventricular rate) and VT (ventricular fibrillation) according to the heart rhythm data, determine that the target subject is given shock defibrillation by the target defibrillator 102, and instruct a staff member to perform a rescue operation of CPR cardiopulmonary resuscitation on the target subject if the heart rhythm does not belong to VF (ventricular rate) and VT (ventricular fibrillation). It should be noted that, after the physical condition of the target object is analyzed in the rescue mode, the target defibrillator 102 generates an operation code corresponding to the rescue operation prompt to be performed, and generates a corresponding operation code data packet by using the operation code, where the operation code data packet may be understood as a data set containing one or more operation codes corresponding to the rescue operation prompt to be performed or operation step serial number data corresponding to the operation instruction, or may be operation instruction data, and the voice and video of the corresponding rescue operation prompt may be obtained based on the operation code corresponding to the rescue operation prompt; for example, after the physical condition of the target object is analyzed, it is determined that the current physical condition of the target object needs to be subjected to electric shock defibrillation, and then the user can wake up, so that before the target object is subjected to electric shock defibrillation, a corresponding operation coding data packet is generated, and the operation coding data packet is sent out through wireless broadcasting.

The terminal 101 is further configured to receive an operation code data packet from the target defibrillator 102 in the rescue mode, and obtain an operation code corresponding to the operation code data packet through a related application, for example, obtain a corresponding operation code by using an operation code set built in a target application on the terminal and which corresponds to the operation code data packet, and further generate an operation prompt instruction to control a related device to play content corresponding to the operation code, for example, control a speaker to play operation prompt voice, control a display to play operation prompt video, and so on, which will not be described in detail in this embodiment.

It should be noted that the control system may further include: the cloud service 103, the terminal 101 is provided with a target application, and communication connection between the terminal 101 and the cloud service 103 can be established through the target application, for example, communication connection between the terminal 101 and the cloud service 103 can be realized through network service of an operator. After receiving the operation coding data packet from the target defibrillator 102, the terminal 101 may further upload the operation coding data packet to the cloud service end 103 through a target application on the terminal 101, where the cloud service end 103 searches for a rescue operation prompt corresponding to a preset operation coding set according to the received operation coding data packet, obtains the rescue operation prompt corresponding to the operation coding, and sends the obtained rescue operation prompt to the target application on the terminal, so that the terminal 101 obtains the received rescue operation prompt through the target application on the terminal.

According to the control system of the defibrillator 102 provided by the embodiment, the terminal 101 can obtain the environmental data corresponding to the current application place environment of the target defibrillator 102, and the prompt configuration corresponding to the target defibrillator 102 is adjusted according to the environmental data, so that the target defibrillator 102 dynamically adjusts the prompt configuration of the target defibrillator 102 according to the target environmental data, and accordingly, rescue operation prompts are played according to the prompt configuration, such as rescue step voice and rescue step video included in the rescue operation prompts are played, the prompt configuration of the target defibrillator is adjusted according to the environmental data of the target defibrillator, and the availability and reliability of the target defibrillator 102 are improved.

Referring to fig. 2, a flowchart of steps of a configuration updating method of a defibrillator according to an embodiment of the present invention is shown, and a configuration updating method of a defibrillator according to a second embodiment of the present invention is shown, the method comprising the steps of:

Step S201: and responding to the pressing of a key of the configuration mode switching request by a user, and switching the current mode of the target defibrillator to the configuration mode.

Specifically, the defibrillator has two modes of operation, including a rescue mode and a configuration mode. The rescue mode is a mode that the defibrillator is used for defibrillation and rescuing a patient, and the defibrillator generally plays rescue operation prompts, performs electric shock defibrillation and the like in the rescue mode. In the configuration mode, the method is mainly used for updating prompt configuration of the defibrillator according to the installed site of the defibrillator or the environment of a scene to be applied, so that rescue operation prompts played by the defibrillator in the rescue mode are suitable for the installed site or the scene to be applied, such as rescue step voices and rescue step videos included in the rescue operation prompts, the volume of the rescue step voices played by a loudspeaker of the defibrillator is larger than noise of the site, and the brightness of the rescue step videos played by a display screen of the defibrillator is higher than the light brightness of the site, so that target applications are suitable for the installed site or the scene to be applied.

It should be noted that, the defibrillator is usually default to the rescue mode after being started, and can be switched to the configuration mode through specific operation steps, for example, a user or a specific person with configuration modification authority can switch the current mode of the defibrillator to the configuration mode by pressing a corresponding key on the defibrillator for a specific time.

In one implementation of this embodiment, step S201 further includes, before or after: receiving a communication connection request sent by a target application of a first terminal in a configuration mode; confirming whether the first terminal has the connection authority according to the communication connection request; upon confirming that the first terminal has the connection right, a communication connection between the first terminal and the target defibrillator is established.

Specifically, in order to improve the safety and reliability of the defibrillator during use and avoid the situation that a great deal of time is spent for setting the configuration of the defibrillator before rescue and the golden time for implementing defibrillation and rescue is missed, the defibrillator provided by the invention can avoid operations of manually adjusting the voice volume of the defibrillator in the rescue step and manually adjusting the brightness of the defibrillator in the rescue step video. Accordingly, there is a need to deploy the prompt configuration of the defibrillator at the time of installation of the defibrillator, i.e., depending on the environment of the installation site or the scenario of the application at hand, it is to be noted that by having only the engineers or specific authorized personnel of the defibrillator vendor have the right to deploy the prompt configuration of the defibrillator, there is a need to install on the terminal a target application for enabling data interaction between the terminal and the defibrillator at the time of deployment or use of the defibrillator, the target application being provided for download and background operation by the defibrillator vendor. The first terminal may be understood as a terminal having the right to provision the prompt configuration of the defibrillator, and an engineer or a specific authorized person of the defibrillator provider logs in to an account having administrative rights through a target application on the first terminal, such that the first terminal obtains the right to provision the prompt configuration of the defibrillator through the target application. Further, the target defibrillator receives a communication connection request sent by the target application from the first terminal in the configuration mode; then, whether the first terminal has the connection right or not can be confirmed through the communication connection request, for example, whether the first terminal has the connection right or not is confirmed through a preset communication protocol or communication connection condition, wherein the communication connection condition can be whether the use right or allocation right of an account of a target application logged in the first terminal is verified to expire or whether the set time for communicable connection is preset time or not, and the like, and further description is omitted herein; and finally, when the first terminal is confirmed to have the connection right, establishing communication connection between the first terminal and the target defibrillator so as to realize bidirectional data interaction between the first terminal and the target defibrillator, thereby realizing auxiliary or control of the defibrillator through the terminal (such as a mobile terminal with a communication function, such as a mobile phone, a notebook computer and the like).

Step S202: after the first terminal and the target defibrillator are in communication connection, the prompt configuration parameters sent by the first terminal are received, wherein the prompt configuration parameters are generated by the first terminal according to the acquired environmental data.

After the communication link is established between the first terminal and the target defibrillator, the target defibrillator receives the prompt configuration parameters sent by the first terminal, and it is to be noted that the prompt configuration parameters are generated by the first terminal, specifically, the first terminal has a function of sensing the surrounding environment, if the first terminal may include a sound sensor and a light sensor, the sound sensor may be a microphone, the sound sensor may detect noise of the surrounding environment, the light sensor may be a photoreceptor, and the light sensor may detect light brightness of the surrounding environment, so that the target application on the first terminal generates the prompt configuration parameters corresponding to the current environment according to the sensed environmental data. It will be appreciated that the first terminal should be within 10 meters of the target defibrillator, or even closer, so that the first terminal senses the environmental data of the surrounding environment more accurately.

Further, the prompt configuration parameters are sent to the target defibrillator for direct use, so that the target defibrillator omits a data processing process, and some sensing devices are not required to be installed on the defibrillator, so that the power consumption of the defibrillator is reduced.

Step S203: updating the prompt configuration of the target defibrillator according to the prompt configuration parameters.

Specifically, after receiving the prompt configuration parameters, the target defibrillator adjusts the prompt configuration of the target defibrillator according to the prompt configuration parameters, so that the target defibrillator updates the prompt configuration according to the current installation environment or application scene, and the usability of the target defibrillator is improved.

In one implementation of this embodiment, step S203 further includes: and in the rescue mode, playing rescue operation prompts according to the updated prompt configuration.

Specifically, in the rescue mode, the target defibrillator plays rescue operation prompts according to the updated prompt configuration, so that the rescue operation prompts played by the defibrillator in the rescue mode are suitable for the scene of installation or application, such as the voice of the rescue step and the video of the rescue step, played by the loudspeaker of the defibrillator, the volume of the voice of the rescue step is larger than the noise of the scene, and the brightness of the video of the rescue step played by the display screen of the defibrillator is higher than the light brightness of the scene, so that the target application is suitable for the scene of installation or application, and the usability is improved.

Further, step S203 may further include: transmitting an operation coding data packet corresponding to the rescue operation prompt to one or more second terminals in a wireless broadcasting mode, wherein the operation coding data packet is provided with an operation code of the rescue operation prompt, and the second terminals are used for playing the corresponding rescue operation prompt according to the operation code.

The target defibrillator sends operation coding data packets with operation codes corresponding to rescue operation prompts to one or more second terminals, the second terminals can be understood as terminals without configuration mode authorities, only rescue modes are needed, and it is needed to be noted that target applications on the terminals and the mode of the target defibrillator after starting default to the rescue modes so as to improve the use efficiency in the rescue modes. Specifically, the target application is installed on the terminal, and the user or volunteer can use the target application through the visitor identity or the common user identity, so that in order to improve the use efficiency in the rescue mode, the tedious procedure of logging in the target application by the user can be avoided, and the target application already installed on the terminal can be directly opened for use. Further, the target application on the terminal receives an operation code data packet corresponding to the rescue operation prompt wirelessly broadcasted by the target defibrillator, and the operation code data packet is provided with an operation code of the rescue operation prompt, so that the second terminal plays the corresponding rescue operation prompt according to the operation code.

In an embodiment, a target application on a terminal is internally provided with a data set of a rescue operation prompt or a rescue operation prompt corresponding to an operation code, the operation code in a received operation code data packet is matched with the data set of the rescue operation prompt or the rescue operation prompt built in the target application to obtain a corresponding rescue operation prompt, and a second terminal plays rescue step voice and rescue step video of the rescue operation prompt.

In another embodiment, after receiving the operation coding data packet, the second terminal establishes communication connection with the cloud service end through the target application, and sends the operation coding data packet to the cloud service end, the cloud service end obtains a corresponding rescue operation prompt according to the operation code in the operation coding data packet, and sends the obtained rescue operation prompt to the second terminal, and the second terminal plays rescue step voice and rescue step video of the rescue operation prompt.

The configuration updating method of the defibrillator provided by the invention comprises the following steps: responding to the key pressing of the configuration mode switching request by a user, and switching the current mode of the target defibrillator to the configuration mode; after the first terminal and the target defibrillator are in communication connection, receiving prompt configuration parameters sent by the first terminal, wherein the prompt configuration parameters are generated by the first terminal according to the acquired environmental data; updating the prompt configuration of the target defibrillator according to the prompt configuration parameters. According to the scheme, environmental data of the current environment of the target defibrillator is sensed through the terminal, prompt configuration parameters are generated according to the environmental data, and the prompt configuration parameters are sent to the target defibrillator to be used for updating prompt configuration of the target defibrillator; compared with the related art, the method and the device can acquire the environment data corresponding to the current application place environment of the target defibrillator, adjust the prompt configuration corresponding to the target defibrillator according to the environment data, dynamically adjust the prompt configuration of the target defibrillator according to the environment data of the installation site, and improve the availability and reliability of the target defibrillator.

Referring to fig. 3, a flowchart of steps of a configuration updating method of a defibrillator according to a third embodiment of the present invention is provided, and a configuration updating method of a defibrillator according to a further embodiment of the present invention is provided, the method comprises the following steps:

Step S301: and after the communication connection with the target defibrillator is established through the configuration mode of the target application on the terminal, acquiring the environment data of the current environment of the target defibrillator.

Since the prompt configuration of the AED device (defibrillator) is usually set by a professional technician according to the specific environment at the time of installation at the time of shipment, when the environments of the actual application scenes of the defibrillator are different, the actual requirements of the prompt configuration of the defibrillator are different, such as in noisy application scenes of train stations, subway stations, meeting places, etc., or in application scenes with high outdoor light brightness, the prompt configuration requirement on the target defibrillator is very high, so that the prompt configuration of the target defibrillator needs to be determined according to the use field Jing Sheding of the target defibrillator, that is, according to the surrounding environment of the installation site or the scene to be applied at the time of installation. In the embodiment, the environment of the defibrillator is sensed by using the terminal, and the terminal can be a mobile phone, a tablet computer, a notebook computer or mobile wearable equipment with a communication function; specifically, after a communication connection is established between the terminal and the target defibrillator, the terminal senses the environmental information of the target defibrillator, and generates environmental data based on the sensed related environmental information so as to further generate prompt configuration parameters of the target defibrillator.

In one embodiment of the present step, the environmental data includes an ambient brightness value and an ambient noise value, and the step includes: collecting light brightness information of the current environment of the target defibrillator and collecting noise information of the current environment of the target defibrillator; determining an ambient brightness value of the current environment of the target defibrillator according to the collected light brightness information; determining an environmental noise value of the current environment of the target defibrillator according to the acquired noise information; environmental data is generated using the environmental brightness value and the environmental noise value.

Specifically, when the light brightness information of the current environment is collected, the light brightness information can be collected by taking a picture through a mobile phone camera, specifically: responding to an instruction of determining to collect the brightness of the environment by a user, starting a camera shooting function, acquiring a picture of the current environment of the defibrillator, and calculating a gray value in the picture, wherein the gray value can reflect the brightness information of the light of the environment; and generating brightness of each pixel point according to the gray value, and determining the brightness of the pixel point as a current environment brightness value. The pixel calculation and the like related to the above are not further described in this embodiment. In addition, the ambient brightness value can be obtained in another mode, for example, the light brightness of the current environment where the target defibrillator is located is detected through a photoreceptor of the terminal, wherein the photoreceptor is a light sensor, for example, the photoreceptor is arranged in an aperture above the front of the mobile phone and is used for sensing the light brightness of the current environment to generate light brightness information; and determining an ambient brightness value based on the generated light brightness information; it should be noted that the technology of sensing the light brightness information and determining the ambient brightness value by the sensor is relatively common, and this embodiment will not be further described.

When the noise information of the current environment is collected, sensing can be performed through a microphone of the terminal; specifically, in response to a user determining an instruction for collecting environmental noise, a microphone is started to record and transmit the instruction to a processor to obtain noise information of the current environment, further, a decibel value of audio data is calculated according to the obtained noise information, and the average power of a signal corresponding to the noise information is 10 times of the logarithm of the average power of the signal to obtain the environmental noise value. The above-mentioned environmental noise collection manner and the environmental noise value calculation manner are merely exemplary, and may be obtained by calculation performed by other manners, which will not be further described in this embodiment.

The environment data can reflect the light brightness and noise condition of the environment where the target defibrillator is located, and can comprehensively reflect the environment condition, and the embodiment is not limited in this way. And acquiring environment data through the terminal to serve as a determination basis of prompt configuration parameters of the target defibrillator, so that the prompt configuration of the target defibrillator is controlled and adjusted according to the actual condition of the current environment.

Step S302: and generating prompt configuration parameters by using the acquired environmental data according to the corresponding relation between the preset environmental data and the prompt configuration parameters.

The target application installed on the terminal is an application for assisting the target defibrillator, which can also be used to establish a communication connection between the terminal and the cloud service. It should be noted that, the corresponding relationship between the environment data and the prompt configuration parameters is preset in the terminal or the target application, and the prompt configuration parameters corresponding to the environment data can be obtained through the corresponding relationship between the environment data and the prompt configuration parameters. The prompt configuration parameters can be dynamically generated according to the actual environment data by the terminal or the target application on the terminal based on the acquired environment data, and the prompt configuration parameters of the target defibrillator are not required to be installed by an additional sensing device on the target defibrillator, so that the method has economic value. On the other hand, the AED equipment/target defibrillator can be prevented from performing a large amount of data processing, such as the AED equipment/target defibrillator is prevented from directly performing data processing on acquired environmental data to generate prompt configuration parameters, the burden of the target defibrillator is reduced, the power consumption is reduced, the hardware of the conventional AED equipment/target defibrillator is not required to be changed greatly, and the usability of the defibrillator is improved.

Step S303: the prompt configuration parameters are sent to the target defibrillator, and the prompt configuration parameters are used for updating the target defibrillator adjustment prompt configuration.

After obtaining the prompt configuration parameters, the terminal sends the prompt configuration parameters to the target defibrillator in a wireless transmission manner, and it should be noted that wireless communication connection is established between the target defibrillator and the terminal, specifically, bluetooth, infrared, etc. modes can be used, which is not limited in this embodiment. And after the target defibrillator receives the prompt configuration parameters, adjusting the prompt configuration of the target defibrillator according to the received prompt configuration parameters. By the method, the environment data of the environment where the target defibrillator is located can be sensed through the terminal, and the prompt configuration parameters corresponding to the environment data are sent to the target defibrillator, so that the target defibrillator can update the prompt configuration, and control of the target defibrillator is achieved.

The configuration updating method of the defibrillator provided by the invention comprises the following steps: after communication connection with a target defibrillator is established through a configuration mode of a target application on a terminal, environment data of the current environment of the target defibrillator is obtained; generating prompt configuration parameters by using the acquired environmental data according to the corresponding relation between the preset environmental data and the prompt configuration parameters; the prompt configuration parameters are sent to the target defibrillator, and the prompt configuration parameters are used for controlling the target defibrillator to adjust the prompt configuration. The method comprises the steps of sensing environmental data of the current environment of a target defibrillator through a terminal, and generating prompt configuration parameters according to the environmental data, wherein the prompt configuration parameters are used for controlling the target defibrillator to adjust prompt configuration; compared with the related art, the method and the device can acquire the environment data corresponding to the current application place environment of the target defibrillator, adjust the prompt configuration corresponding to the target defibrillator according to the environment data, dynamically adjust the prompt configuration of the target defibrillator according to the target environment data, and improve the usability and safety of the target defibrillator.

Referring to fig. 4, a flowchart of a third embodiment of a configuration updating method of a defibrillator is provided. Specifically, the configuration updating method of the defibrillator is applied to the terminal, and the method comprises the following steps:

Step S401: after the user successfully logs into the target application on the terminal, the target application is utilized to search for nearby defibrillators in a configuration mode.

Specifically, after ordering an AED device/defibrillator, the device vendor may give the user or staff access rights. For example, the user may use the AED device to assist in processing data from the AED device, to find the AED device/defibrillator, etc., by installing a corresponding target application on the networking enabled terminal, which may be downloaded by scanning a two-dimensional code on the defibrillator or searching for a product application name, as this embodiment is not further limited. The terminal may be communicatively coupled to a data server of the device vendor via a target application, such as via an operator network data service to a cloud server. It should be noted that, when the user obtains the usage rights, the user may perform member registration through the target application, or register an account, or when the AED device/defibrillator is ordered from the device provider, the device provider directly sets up an account at the server, and directly delegates or distributes the account to the ordering person or related person to distribute the usage rights to the AED device. Furthermore, the target application on the terminal is logged in by using the pre-registered account, and the operational authority of the account on the AED device can be obtained from the target application, for example, the functional application range of the AED device/defibrillator is ensured, the user with low operational authority only has the authority of using the device, and the user with high operational authority can use, maintain, debug the device and the like; the operational authority of the user to one or more specific devices may also be determined according to the operational authority of the account, for example, a user with low operational authority may only have operational authority to a specific one of the AED devices/defibrillators, and a user with high operational authority may have operational authority to a specific plurality of AED devices/defibrillators, which will not be further described in this embodiment.

After the user successfully logs in the target application on the terminal, the nearby defibrillator is searched by using the searching function of the target application in the configuration mode, and it is required to be noted that the defibrillator can be searched only in the configuration mode of the target application, and the defibrillator can be scanned and searched by the searching function of the target application on the terminal only in the configuration mode. In a configuration mode of the target application and defibrillator, the AED device/defibrillator sought or searched by the user terminal is determined for the user to select a target defibrillator having operational rights.

Step S402: a list of defibrillator devices is generated based on all the defibrillators found.

After the AED device/defibrillator is located or searched for by the target application's lookup function, a list of devices containing the search results is generated within the interface on the target application, such as a list of defibrillator devices based on all defibrillators found, which may have target defibrillators with operational rights for the account, through which list of defibrillator devices one or more tariff defibrillators for user selection are presented.

Step S403: in response to a target defibrillator selected by a user from a list of defibrillator devices, a communication connection request is sent to the target defibrillator to establish a communication connection between the terminal and the target defibrillator.

Specifically, after the search results interface of the target application on the terminal presents one or more defibrillators in the form of a list of defibrillator devices, the user or staff member may select a target defibrillator having operational rights from the list of defibrillator rights on the target, such as by the product name or product serial number or product model number of the AED device/defibrillator presented in the list of defibrillator devices; the terminal or the target application on the terminal responds to the target defibrillator selected by the user from the defibrillator equipment list, a communication connection request is sent to the target defibrillator, after receiving feedback with communication connection authority confirmed by the target defibrillator, the connection authority of the target defibrillator is obtained, and the communication connection between the terminal and the target defibrillator is established by utilizing the connection authority, so that the communication connection between the terminal and the target defibrillator is realized.

Through the above embodiments, the management of the AED device/defibrillator can be enhanced, and the situation that other personnel control or change the configuration of the AED device/defibrillator at will, which causes power disturbance, mismatching, or even unreasonable use of the AED device/defibrillator, which leads to increased device power consumption or even damage can be avoided. Improved AED device/defibrillator management with reliability.

Step S404: and after the communication connection with the target defibrillator is established through the configuration mode of the target application on the terminal, acquiring the environment data of the current environment of the target defibrillator.

Step S405: and generating prompt configuration parameters by using the acquired environmental data according to the corresponding relation between the preset environmental data and the prompt configuration parameters.

Step S406: the prompt configuration parameters are sent to the target defibrillator, and the prompt configuration parameters are used for updating the target defibrillator adjustment prompt configuration.

Specifically, the method steps described in steps S404-S406 are similar or similar to the method steps of steps S301-S303, and the content description of the partial flow is identical to the content description of steps S301-S303, which is not further described in this embodiment.

Step S407: the target application on the terminal receives the operation coding data packet sent by the target defibrillator in the rescue mode in a wireless broadcasting mode.

During the use of the AED equipment/defibrillator in the rescue mode, the operation coding data packet can be transmitted in a wireless broadcasting mode by setting the target defibrillator in the wireless broadcasting mode so as to ensure real-time data transmission; it should be noted that, the wireless broadcast mode may be that the target defibrillator is in a wireless bluetooth broadcast mode, and through wireless broadcast, the target defibrillator may be implemented to transmit the operation encoding data packet to one or more terminals; and because the data transmission quantity of the wireless Bluetooth broadcasting mode is smaller, the target defibrillator only contains the rescue operation prompt corresponding operation codes of the target when constructing the operation code data packet, so that the digital broadcasting transmission rate is improved, and the processing power consumption of the operation code data packet of the target defibrillator is reduced. After the target defibrillator receives the prompt configuration parameters sent by the terminal in the configuration mode, the target defibrillator adjusts the prompt configuration of the target defibrillator according to the received prompt configuration parameters so as to change the parameters of the prompt of the rescue operation. After the target defibrillator is adjusted and the prompt configuration of the target defibrillator is carried out, the target defibrillator is restarted to enter a rescue mode and enter a working stage, for example, the target object is detected and diagnosed, or the target defibrillator is operated in a mode of operation prompt voice when other operations needing assistance of staff/rescue staff are carried out. Specifically, in one embodiment, the relevant operation prompt fields are customized in advance by the device vendor, such as the operation serial number or operation code corresponding to the field definition of the relevant operation prompt voice corresponding to all the operation steps included in the AED device/defibrillator, and when the target defibrillator needs to enter the working phase, the working phase can be understood as the start-up phase or the rescue phase of the patient, and no specific limitation is made here; determining the ongoing operation steps of the target defibrillator at the stage or the operation steps which need assistance of staff, acquiring operation codes or operation serial numbers corresponding to the operation steps, and generating an operation code data packet, wherein the operation code data is not limited to one or more operation codes or operation serial numbers.

Further, in an embodiment, the terminal and the target defibrillator may be in communication connection through a wireless bluetooth mode, where a bluetooth BLE chip adopted by the AED device/the target defibrillator is initialized to a slave device mode, so that the bluetooth BLE chip can broadcast the operation encoding data packet; and taking the predefined serial number of the rescue step as manufacturer characteristic data, and writing the serial number of the predefined rescue step into an operation coding data packet which can be broadcasted by the Bluetooth BLE chip.

It should be noted that, this step may also be performed by other communication data transmission manners, which will not be further described in this embodiment.

Step S408: and acquiring an operation code corresponding to the rescue operation prompt in the operation code data packet through a target application on the terminal.

After receiving the operation coding data packet from the target defibrillator in the rescue mode, the target application on the terminal can analyze the operation coding data packet to obtain operation coding data or operation serial numbers of rescue operation prompts contained in the operation coding data packet, wherein the operation coding or operation serial numbers can be understood as operation codes corresponding to the rescue operation prompts so as to further play the rescue operation prompts corresponding to the operation codes, such as playing rescue step voices, rescue step videos and the like.

In one embodiment of this step, the method includes: extracting operation coding data in the operation coding data packet; and matching the built-in operation codes of the target application of the terminal according to the operation code data. Specifically, the operation prompt field or the operation code defined by the equipment provider is downloaded in advance in the target application of the terminal, for example, when the target application is downloaded and installed on the terminal, the operation prompt field or the operation code defined by the equipment provider and matched prompt voice and video are built in the target application, or after the target application is installed on the terminal, the operation prompt field or the operation code defined by the equipment provider and the matched prompt voice and video are requested to be downloaded to the cloud server of the equipment provider through the target application and are arranged in the target application. Further, after receiving the operation coding data packet from the target defibrillator, the target application on the terminal extracts the operation coding data in the operation coding data packet, and matches the preset operation prompt field or operation code in the target application according to the operation coding data so as to obtain prompt voice and video corresponding to the operation coding data.

In yet another embodiment of the present step, the method includes: and sending the operation code to the cloud service end through the target application on the terminal, wherein the cloud service end is used for searching a preset prompting voice and video set according to the received operation code to obtain prompting voice and video corresponding to the operation code, and sending the obtained prompting voice and video to the target application of the terminal. Specifically, after the terminal or the target application on the terminal receives the operation coding data packet from the target defibrillator, the terminal extracts the operation coding data of the operation coding data packet through the target application of the terminal, and then sends the extracted operation coding data to the cloud service end of the equipment provider, and the cloud service end is requested to provide operation prompt voice and video corresponding to the operation coding data in the above manner and is issued to the target application of the field so as to be used by the terminal for extracting or acquiring the voice and video.

Further, the target application can send the language type and the operation code of the terminal to the cloud server, the cloud server searches a preset prompting voice and video set according to the language type and the operation code to obtain prompting voice and video corresponding to the language type and the operation code, and sends the obtained prompting voice and video to the target application of the terminal for use. The rescue workers in different mother languages can hear prompt voice and video in different mother languages on the respective terminals, and the guiding value of rescue is improved.

Step S409: and generating an operation prompt instruction according to the operation code, wherein the operation prompt instruction is used for playing operation prompt voice corresponding to the operation code.

After the prompt voice and the video are obtained, the terminal generates an operation prompt instruction for triggering related devices, such as a signal instruction for triggering a video player or a loudspeaker and the like, so that the operation prompt image-text and/or the operation prompt voice corresponding to the operation code are played in a video or voice mode.

Referring to fig. 5, which is a block diagram of a configuration updating apparatus of a defibrillator according to a fourth embodiment of the present invention, an embodiment of the present invention improves a configuration updating apparatus of a defibrillator, the configuration updating apparatus of the defibrillator corresponds to a defibrillator execution body processor and is applied to the defibrillator, and the apparatus 500 comprises:

A switching module 501, configured to switch a current mode of the target defibrillator to a configuration mode in response to a user pressing a key of a configuration mode switching request;

the first receiving module 502 is configured to receive, after the first terminal establishes a communication connection with the target defibrillator, a prompt configuration parameter sent from the first terminal, where the prompt configuration parameter is a configuration parameter generated by the first terminal according to the acquired environmental data;

an updating module 503, configured to update the prompt configuration of the target defibrillator according to the prompt configuration parameters.

A configuration updating apparatus for a defibrillator according to a fourth embodiment of the present invention includes: a switching module 501, a first receiving module 502 and an updating module 503. Wherein, the current mode of the target defibrillator is switched to the configuration mode by the switching module 501 in response to the user pressing the key of the configuration mode switching request; after the first terminal and the target defibrillator are in communication connection through the first receiving module 502, the prompting configuration parameters sent by the first terminal are received, wherein the prompting configuration parameters are generated by the first terminal according to the acquired environmental data; the prompt configuration of the target defibrillator is updated by the update module 503 according to the prompt configuration parameters. According to the scheme, environmental data of the current environment of the target defibrillator is sensed through the terminal, prompt configuration parameters are generated according to the environmental data, and the prompt configuration parameters are sent to the target defibrillator to be used for updating prompt configuration of the target defibrillator; compared with the related art, the method and the device can acquire the environment data corresponding to the current application place environment of the target defibrillator, adjust the prompt configuration corresponding to the target defibrillator according to the environment data, dynamically adjust the prompt configuration of the target defibrillator according to the environment data of the installation site, and improve the availability and reliability of the target defibrillator.

Further, the apparatus 500 further includes: a confirmation module 504 and a first communication module 505.

A confirmation module 504, configured to receive a communication connection request sent by a target application of the first terminal in a configuration mode;

The first receiving module 502 is further configured to confirm whether the first terminal has a connection right according to the communication connection request;

a first communication module 505 is configured to establish a communication connection between the first terminal and the target defibrillator when it is confirmed that the first terminal has the connection right.

Further, the apparatus 500 further includes: a first playing module 506 and a first sending module 507.

The first playing module 506 is configured to play the rescue operation prompt according to the updated prompt configuration in the rescue mode.

The first sending module 507 is configured to transmit, by using a wireless broadcast manner, an operation code packet corresponding to the rescue operation prompt to one or more second terminals, where the operation code packet has an operation code of the rescue operation prompt, and the second terminals are configured to play the corresponding rescue operation prompt according to the operation code.

Referring to fig. 6, which is a block diagram of a configuration updating apparatus of a defibrillator according to a fifth embodiment of the present invention, an embodiment of the present invention improves a configuration updating apparatus of a defibrillator, which is applied to a terminal, and corresponds to an execution subject processor of the terminal, and the apparatus 600 includes:

The first obtaining module 601 is configured to obtain environmental data of an environment in which the target defibrillator is currently located after communication connection with the target defibrillator is established through a configuration mode of the target application on the terminal;

the first generating module 602 is configured to generate a prompt configuration parameter according to a corresponding relationship between preset environmental data and the prompt configuration parameter, by using the acquired environmental data;

a second sending module 603 is configured to send prompt configuration parameters to the target defibrillator, where the prompt configuration parameters are used to update the prompt configuration of the target defibrillator.

The invention provides a configuration updating device of a defibrillator, comprising: a first acquisition module 601, a first generation module 602, a second transmission module 603; specifically, after establishing communication connection with the target defibrillator through the configuration mode of the target application on the terminal, the first acquisition module 601 acquires environmental data of the current environment of the target defibrillator; generating prompt configuration parameters by using the acquired environmental data according to the corresponding relation between the preset environmental data and the prompt configuration parameters through a first generation module 602; the prompt configuration parameters are sent to the target defibrillator via the second sending module 603, which prompt configuration parameters are used to update the prompt configuration of the target defibrillator. The method comprises the steps of sensing environmental data of the current environment of a target defibrillator through a terminal, and generating prompt configuration parameters according to the environmental data, wherein the prompt configuration parameters are used for controlling the target defibrillator to adjust prompt configuration; compared with the related art, the method and the device can acquire the environment data corresponding to the current application place environment of the target defibrillator, adjust the prompt configuration corresponding to the target defibrillator according to the environment data, and dynamically adjust the prompt configuration of the target defibrillator according to the target environment data, so that the rescue operation prompts are played according to the prompt configuration, and the availability and the reliability of the target defibrillator are improved if rescue step voices and rescue step videos included in the rescue operation prompts are played.

In one embodiment, the first acquisition module 601 includes: the device comprises an acquisition module, a determination module and a second generation module.

The acquisition module is used for acquiring light brightness information of the current environment of the target defibrillator and acquiring noise information of the current environment of the target defibrillator.

The determining module is used for determining an environment brightness value of the environment where the target defibrillator is currently located according to the collected light brightness information; and determining an environmental noise value of the environment in which the target defibrillator is currently located according to the collected noise information.

And the second generation module is used for generating environment data by using the environment brightness value and the environment noise value.

Further, the apparatus 600 further includes: a lookup module 604 and a second communication module 605.

A searching module 604, configured to search for a nearby defibrillator using a searching function of a target application after a user successfully logs in the target application on the terminal; a list of defibrillator devices is generated based on all the defibrillators found.

A second communication module 605 is configured to establish a communication connection between the terminal and the target defibrillator in response to a target defibrillator selected by the user from the list of defibrillator devices.

Further, the apparatus 600 further includes: the second receiving module 606, the second obtaining module 607 and the second playing module 608.

A second receiving module 606 is configured to receive the operation encoding data packet sent by the target defibrillator through wireless broadcasting.

The second obtaining module 607 is configured to obtain, by using a target application on the terminal, an operation code corresponding to the rescue operation prompt in the operation code data packet.

The second playing module 608 is configured to generate an operation prompt instruction according to the operation code, where the operation prompt instruction is used to play an operation prompt voice corresponding to the operation code.

It should be noted that, regarding the configuration updating device of the defibrillator provided in this embodiment as a device item corresponding to the foregoing configuration updating method of the defibrillator, the technical features of the portion are similar or similar to the foregoing method steps, and the description of the technical features of the device may refer to the description of the configuration updating method of the defibrillator of the foregoing embodiment, which is not further described in this embodiment.

A sixth embodiment of the present invention provides an electronic device, please refer to fig. 7, which is a schematic diagram of the electronic device according to the sixth embodiment of the present invention, the electronic device corresponds to a defibrillator, the electronic device includes: the configuration updating method of the defibrillator according to any one of the second embodiment is implemented when the processor 702 executes the computer program, and the communication bus 703 is communicatively connected to the memory 701 and the processor 702, and the memory 701 is coupled to the processor 702, respectively.

The computer program of the configuration updating method of the defibrillator mainly comprises: responding to the key pressing of the configuration mode switching request by a user, and switching the current mode of the target defibrillator to the configuration mode; after the first terminal and the target defibrillator are in communication connection, receiving prompt configuration parameters sent by the first terminal, wherein the prompt configuration parameters are generated by the first terminal according to the acquired environmental data; updating the prompt configuration of the target defibrillator according to the prompt configuration parameters. In addition, a computer program may also be divided into one or more modules, one or more modules being stored in a memory and executed by a processor to accomplish the present invention. One or more modules may be a series of computer program instruction segments capable of performing particular functions to describe execution of a computer program in a computing device. For example, the computer program may be divided into a switching module 501, a receiving module 502, an updating module 503, a confirming module 504, a first communication module 505, a first playing module 506, and a first transmitting module 507 as shown in fig. 5.

The Processor 702 may be a central processing module (Central Processing Unit, CPU), but may also be other general purpose processors, digital signal processors (DIGITAL SIGNAL Processor, DSP), application SPECIFIC INTEGRATED Circuit (ASIC), off-the-shelf Programmable gate array (Field-Programmable GATE ARRAY, FPGA) or other Programmable logic devices, discrete gate or transistor logic devices, discrete hardware components, or the like. A general purpose processor may be a microprocessor or the processor may be any conventional processor or the like.

The present invention also provides a storage medium, which is a computer readable storage medium, and a computer program is stored on the computer readable storage medium, and when the computer program is executed by a processor, the steps in the configuration updating method of a defibrillator in any one of the second embodiments are implemented.

In addition, a seventh embodiment of the present invention provides an electronic device corresponding to a terminal, the schematic diagram of which is similar to the electronic device structure of a defibrillator, referring to fig. 7, the present embodiment does not provide a drawing, the electronic device includes: the defibrillator configuration updating method comprises a memory, a processor and a communication bus, wherein the communication bus is respectively in communication connection with the memory and the processor, the memory is coupled with the processor, a computer program is stored on the memory, and the steps in the defibrillator configuration updating method according to any one of the fourth embodiment are realized when the processor executes the computer program.

The computer program of the configuration updating method of the defibrillator mainly comprises: after communication connection with a target defibrillator is established through a configuration mode of a target application on a terminal, environment data of the current environment of the target defibrillator is obtained; generating prompt configuration parameters by using the acquired environmental data according to the corresponding relation between the preset environmental data and the prompt configuration parameters; the prompt configuration parameters are sent to the target defibrillator, and the prompt configuration parameters are used for controlling the target defibrillator to adjust the prompt configuration. In addition, a computer program may also be divided into one or more modules, one or more modules being stored in a memory and executed by a processor to accomplish the present invention. One or more modules may be a series of computer program instruction segments capable of performing particular functions to describe execution of a computer program in a computing device. For example, the computer program may be divided into a first acquisition module 601, a first generation module 602, and a second transmission module 603 as shown in fig. 6.

The Processor may be a central processing module (Central Processing Unit, CPU), but may also be other general purpose processors, digital signal processors (DIGITAL SIGNAL Processor, DSP), application SPECIFIC INTEGRATED Circuit (ASIC), off-the-shelf Programmable gate array (Field-Programmable GATE ARRAY, FPGA) or other Programmable logic devices, discrete gate or transistor logic devices, discrete hardware components, or the like. A general purpose processor may be a microprocessor or the processor may be any conventional processor or the like.

The present invention also provides a storage medium, which is a computer readable storage medium, and the computer readable storage medium stores a computer program, where the computer program, when executed by a processor, implements each step in the configuration updating method of a defibrillator according to any one of the above-mentioned third embodiments.

In the several embodiments provided by the present application, it should be understood that the disclosed apparatus and method may be implemented in other manners. For example, the apparatus embodiments described above are merely illustrative, e.g., the division of modules is merely a logical function division, and there may be additional divisions of actual implementation, e.g., multiple modules or components may be combined or integrated into another system, or some features may be omitted, or not performed. Alternatively, the coupling or direct coupling or communication connection shown or discussed with each other may be an indirect coupling or communication connection via some interfaces, devices or modules, which may be in electrical, mechanical, or other forms.

The modules illustrated as separate components may or may not be physically separate, and components shown as modules may or may not be physical modules, i.e., may be located in one place, or may be distributed over a plurality of network modules. Some or all of the modules may be selected according to actual needs to achieve the purpose of the solution of this embodiment.

In addition, each functional module in each embodiment of the present invention may be integrated into one processing module, or each module may exist alone physically, or two or more modules may be integrated into one module. The integrated modules may be implemented in hardware or in software functional modules.

The integrated modules, if implemented in the form of software functional modules and sold or used as a stand-alone product, may be stored in a computer readable storage medium. Based on such understanding, the technical solution of the present invention may be embodied in essence or a part contributing to the prior art or all or part of the technical solution in the form of a software product stored in a storage medium, including several instructions for causing a computer device (which may be a personal computer, a server, or a network device, etc.) to perform all or part of the steps of the methods of the embodiments of the present invention. And the aforementioned storage medium includes: a usb disk, a removable hard disk, a Read-Only Memory (ROM), a random access Memory (RAM, random Access Memory), a magnetic disk, or an optical disk, or other various media capable of storing program codes.

It should be noted that, for the sake of simplicity of description, the foregoing method embodiments are all expressed as a series of combinations of actions, but it should be understood by those skilled in the art that the present invention is not limited by the order of actions described, as some steps may be performed in other order or simultaneously in accordance with the present invention. Further, those skilled in the art will appreciate that the embodiments described in the specification are all preferred embodiments, and that the acts and modules referred to are not necessarily all required for the present invention.

In the foregoing embodiments, the descriptions of the embodiments are emphasized, and for parts of one embodiment that are not described in detail, reference may be made to the related descriptions of other embodiments.

The foregoing describes a method, apparatus and system for updating a configuration of a defibrillator according to the present invention, and those skilled in the art will recognize that the scope of the present invention may be modified according to the concepts of the embodiments of the present invention.

Claims (9)

1. A method for updating a configuration of a defibrillator, the method being applied to the defibrillator, wherein an operation mode of the defibrillator includes a configuration mode and a rescue mode, the method comprising:

responding to the pressing of a key used for switching the working mode of the defibrillator by a user, and correspondingly switching the working mode of the defibrillator to the configuration mode;

Receiving a communication connection request sent by a first terminal to establish communication connection between the first terminal and the defibrillator; the first terminal is internally provided with an application program special for the defibrillator, the working mode of the application program is adapted to the defibrillator, and the first terminal sends the communication connection request to the defibrillator through the application program in the configuration mode;

After the first terminal and the defibrillator are in communication connection, receiving prompt configuration parameters sent by the first terminal; the application program in the configuration mode is used for acquiring surrounding environment data, generating the prompt configuration parameters according to the environment data and sending the prompt configuration parameters to the defibrillator;

Updating the prompt configuration of the defibrillator according to the prompt configuration parameters;

After the defibrillator enters the rescue mode, playing a corresponding rescue operation prompt according to the updated prompt configuration; and/or transmitting an operation code data packet corresponding to the rescue operation prompt to at least one second terminal in a wireless broadcasting mode, wherein the operation code data packet is provided with operation codes of the rescue operation prompt, so that the second terminal plays the rescue operation prompt according to each operation code in the operation code data packet.

2. The method for updating the configuration of a defibrillator of claim 1, wherein after the step of receiving the communication connection request sent by the first terminal, further comprising:

Confirming whether the first terminal has a connection right according to the communication connection request;

And if the first terminal has the connection authority, establishing communication connection between the first terminal and the defibrillator.

3. The configuration updating method of the defibrillator is characterized by being applied to a first terminal, wherein an application program special for the defibrillator is installed in the first terminal, the working mode of the application program comprises a configuration mode and a rescue mode, the working mode of the defibrillator is suitable for the application program, and the configuration updating method comprises the following steps:

Transmitting, by the application in the configuration mode, a communication connection request to the defibrillator in the configuration mode to establish a communication connection between the first terminal and the defibrillator;

Acquiring environmental data of the current environment of the defibrillator;

generating corresponding prompt configuration parameters by using the acquired environment data according to the corresponding relation between the preset environment data and the prompt configuration parameters;

The prompt configuration parameters are sent to the defibrillator, so that the defibrillator updates prompt configuration according to the prompt configuration parameters, plays corresponding rescue operation prompts according to the updated prompt configuration in the rescue mode, and/or transmits operation coding data packets corresponding to the rescue operation prompts to at least one second terminal in a wireless broadcasting mode in the rescue mode, wherein the operation coding data packets are provided with operation codes of the rescue operation prompts, and the second terminal is used for playing the rescue operation prompts according to the operation codes in the operation coding data packets.

4. The method of updating the configuration of a defibrillator of claim 3, wherein the environmental data comprises an ambient brightness value and an ambient noise value, and wherein the step of obtaining the environmental data of the environment in which the defibrillator is currently located comprises:

Collecting light brightness information of the current environment of the defibrillator and collecting noise information of the current environment of the defibrillator;

Determining an ambient brightness value of the current environment of the defibrillator according to the light brightness information;

determining an environmental noise value of the current environment of the defibrillator according to the noise information;

and generating the environmental data by using the environmental brightness value and the environmental noise value.

5. The method of updating the configuration of a defibrillator of claim 3, wherein after the step of sending the prompt configuration parameters to the defibrillator, further comprising:

the application program receives the operation coding data packet sent by the defibrillator in the rescue mode in a wireless broadcast mode in the rescue mode;

the application program obtains the operation code corresponding to the rescue operation prompt in the operation code data packet;

generating a corresponding operation prompt instruction according to the operation code, wherein the operation prompt instruction is used for controlling the first terminal to play the rescue operation prompt corresponding to the operation code.

6. The method of updating the configuration of a defibrillator of claim 5, wherein the step of obtaining the operation code corresponding to the rescue operation prompt in the operation code packet comprises:

Extracting the operation code corresponding to the rescue operation prompt from the operation code data packet;

and matching the rescue operation prompt built in the application program according to the operation code.

7. A configuration updating apparatus for a defibrillator, wherein the operation mode of the defibrillator includes a configuration mode and a rescue mode, the configuration updating apparatus comprising:

the switching module is used for responding to the pressing of a key used for switching the working mode of the defibrillator by a user and correspondingly switching the working mode of the defibrillator to the configuration mode;

A receiving module for:

Receiving a communication connection request sent by a first terminal to establish communication connection between the first terminal and the defibrillator; the first terminal is internally provided with an application program special for the defibrillator, the working mode of the application program is adapted to the defibrillator, and the first terminal sends the communication connection request to the defibrillator through the application program in the configuration mode; the method comprises the steps of,

After the first terminal and the defibrillator are in communication connection, receiving prompt configuration parameters sent by the first terminal; the application program in the configuration mode is used for acquiring surrounding environment data, generating the prompt configuration parameters according to the environment data and sending the prompt configuration parameters to the defibrillator;

the updating module is used for updating the prompt configuration of the defibrillator according to the prompt configuration parameters;

After the defibrillator enters the rescue mode, corresponding rescue operation prompts are played according to the updated prompt configuration; and/or transmitting an operation code data packet corresponding to the rescue operation prompt to at least one second terminal in a wireless broadcasting mode, wherein the operation code data packet is provided with operation codes of the rescue operation prompt, so that the second terminal plays the rescue operation prompt according to each operation code in the operation code data packet.

8. The utility model provides a configuration updating device of defibrillator, its characterized in that is applied to first terminal, install the dedicated application of defibrillator in the first terminal, the mode of operation of application includes configuration mode and rescue mode, the mode of operation of defibrillator suits with the application, the configuration updating device includes:

The first acquisition module is used for acquiring environment data of the current environment of the defibrillator after a communication connection request is sent to the defibrillator in the configuration mode through the application program in the configuration mode so as to establish communication connection between the first terminal and the defibrillator;

The first generation module is used for generating corresponding prompt configuration parameters by using the acquired environment data according to the corresponding relation between the preset environment data and the prompt configuration parameters;

The sending module is used for sending the prompt configuration parameters to the defibrillator so that the defibrillator updates prompt configuration per se according to the prompt configuration parameters, plays corresponding rescue operation prompts according to the updated prompt configuration in the rescue mode, and/or transmits operation code data packets corresponding to the rescue operation prompts to at least one second terminal in a wireless broadcasting mode in the rescue mode, wherein the operation code data packets are provided with operation codes of the rescue operation prompts, and the second terminal is used for playing the rescue operation prompts according to the operation codes in the operation code data packets.

9. A configuration updating system for a defibrillator, comprising: a defibrillator having a configuration updating means as claimed in claim 7 and a first terminal having a configuration updating means as claimed in claim 8, said defibrillator being in communication connection with said first terminal.