CN113223645A - Authority verification method, computer readable storage medium and electrocardiogram machine - Google Patents

Abstract

The application discloses a method for authority verification, a computer readable storage medium and an electrocardiogram machine. The method comprises the following steps: the electrocardiograph collects the biological characteristic information of the user; the electrocardiograph sends a login request and biological characteristic information to the first server, and the biological characteristic information is used for verifying the authority of a user; the electrocardiograph receives login feedback information from the first server. By the method, the use safety of the electrocardiograph can be improved.

Description

Authority verification method, computer readable storage medium and electrocardiogram machine

Technical Field

The present application relates to the field of medical device technology, and in particular, to a method for right verification, a computer-readable storage medium, and an electrocardiograph.

Background

The electrocardiograph is a medical electronic instrument which can automatically record the bioelectric signals (electrocardio signals) generated by exciting cardiac muscle during heart activity and is commonly used for clinical diagnosis and scientific research.

It is worth noting that some medical institutions in remote areas often lack specialized doctors capable of better interpreting electrocardiographic signals after acquiring related electrocardiographic data by using an electrocardiograph, so that the function of the electrocardiograph is limited.

Meanwhile, along with more and more medical institutions using the electrocardiograph, the use safety of the electrocardiograph is more and more important.

Disclosure of Invention

The technical problem that this application mainly solved is to provide a limit verification method, computer readable storage medium and electrocardiograph, can improve electrocardiograph's safety in utilization.

In order to solve the above technical problem, a first aspect of the present application provides a method for authority verification, where the method includes: the electrocardiograph collects the biological characteristic information of the user; the electrocardiograph sends a login request and biological characteristic information to the first server, and the biological characteristic information is used for verifying the authority of a user; the electrocardiograph receives login feedback information from the first server.

To solve the above technical problem, a second aspect of the present application provides a computer storage medium storing a computer program, which when executed by a processor can implement the method described in the first aspect.

In order to solve the above technical problem, a third aspect of the present application provides an electrocardiograph, which includes a processor and a memory coupled to each other, wherein the processor is configured to execute a computer program stored in the memory to perform the method described in the first aspect.

The beneficial effect of this application is: different from the situation of the prior art, the method for authority verification provided by the application can be used for verifying the authority of the user by utilizing the biological characteristic information of the user needing to use the electrocardiograph equipment through utilizing the electrocardiograph, sending the collected biological characteristic information and the login request to the server together, and receiving the login feedback information of the server, so that the electrocardiograph can verify the authority of the user, and further only the user with the authority can log in the electrocardiograph to perform related operations, and the use safety of the electrocardiograph is improved.

Drawings

In order to more clearly illustrate the technical solutions in the present application, the drawings required in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings described below are only some embodiments of the present application, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without inventive labor. Wherein:

FIG. 1 is a schematic flow chart diagram illustrating a first embodiment of a method for rights verification according to the present application;

FIG. 2 is a schematic flow chart diagram illustrating a second embodiment of a method for rights verification according to the present application;

FIG. 3 is a schematic flow chart diagram illustrating a third embodiment of a method for rights verification according to the present application;

FIG. 4 is a schematic flow chart diagram illustrating a fourth embodiment of a method for privilege verification according to the present application;

FIG. 5 is a schematic flow chart diagram illustrating a fifth embodiment of a method for privilege verification according to the present application;

FIG. 6 is a schematic flow chart diagram illustrating a sixth embodiment of a method for privilege verification according to the present application;

FIG. 7 is a schematic flow chart diagram illustrating a seventh embodiment of a method for privilege verification according to the present application;

FIG. 8 is a schematic diagram of a first embodiment of an electrocardiograph according to the present application;

FIG. 9 is a schematic diagram of a frame of a second embodiment of an electrocardiograph according to the present application;

FIG. 10 is a block diagram of an embodiment of a computer-readable storage medium according to the present application.

Detailed Description

The technical solutions in the embodiments of the present application are 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.

The electrocardiograph can collect the electrocardiogram data of the testee. The acquired electrocardiographic data can be used for clinical diagnosis, such as diagnosis of some heart diseases. It will be appreciated that because ecg data can be used for clinical diagnosis, which can reflect the physical condition of the subject, privacy concerns are involved. If the electrocardiogram data of the testers is revealed, medical disputes may be caused. With the use of the electrocardiograph becoming more and more widespread, the use population involved with the electrocardiograph also becomes more and more. Therefore, it is necessary to authenticate the authority of the user of the electrocardiograph so that the user who is not authorized cannot use the electrocardiograph, thereby improving the safety of the electrocardiograph.

Referring to fig. 1, fig. 1 is a schematic flowchart illustrating a method for rights verification according to a first embodiment of the present application. Specifically, the method for verifying the authority may include the steps of:

step S11: the electrocardiograph acquires biometric information of the user.

In order to improve the use safety of the electrocardiograph, the electrocardiograph can be locked. The electrocardiograph can be operated only under the condition that the equipment is unlocked, so that the use safety of the electrocardiograph is improved. There are many ways to unlock, for example, unlocking with a password, unlocking with a pattern, and the like.

In this embodiment, the electrocardiograph may be used to collect the biometric information of the user, and the collected biometric information may be used to verify the authority of the user. In particular, the biometric characteristic may be the user's only physiological characteristic or behavior that can be measured or automatically identified and verified, such as a fingerprint, face image, iris, palm print, gait, voice, handwriting, etc. By collecting the biological characteristics of the user, the authority of the user can be verified according to the biological characteristics. Specifically, a biometric information collection module may be integrated on the electrocardiograph to collect biometric information of the user. Or a biological characteristic information acquisition module can be externally connected with the electrocardiograph.

In a specific implementation scenario, the electrocardiograph may be equipped with a fingerprint acquisition module to acquire fingerprint information of the user and perform authority verification using the acquired fingerprint information.

In another specific implementation scenario, the electrocardiograph may also be equipped with an iris acquisition module, such as a high-definition camera capable of acquiring iris information of an eye of the user, and further verify the authority of the user by using the acquired iris information.

In other implementation scenarios, the electrocardiograph may further be equipped with a microphone for collecting voice information of the user; the system can also be provided with a camera for collecting the facial information of the user so as to carry out face recognition to verify the authority. It will be appreciated that the biometric information that can be acquired by the electrocardiograph is not limited.

Step S12: the electrocardiograph sends a login request and biological characteristic information to the first server, and the biological characteristic information is used for verifying the authority of a user; the electrocardiograph receives login feedback information from the first server.

After the biometric information of the user is collected, the biometric information can be used to verify the authority of the user. For example, the electrocardiograph may send a login request and the biometric information to the first server, and the first server identifies the biometric information to verify the authority of the user. The first server may be a server dedicated to verifying the login request and the biometric information sent by the electrocardiograph, or may be a server having other functions. In the first server, the biological characteristic information of all users using the electrocardiograph can be stored, so that the biological characteristic information sent by the electrocardiograph can be accurately identified without being unrecognizable. The first server may be integral with the electrocardiograph or separate from the electrocardiograph.

It can be understood that, when a new user needs to be added, the first server can identify the authority of the newly added user by collecting the biometric information by the electrocardiograph and sending the collected biometric information to the first server. Furthermore, one or more digits can be selected from users of the electrocardiograph to be set as an administrator, and only the administrator can use the electrocardiograph to perform operations of adding or deleting user rights, wherein adding the user rights means that the acquired biological characteristic information is sent to the server for right verification; the user to be deleted sends a deletion request to the electrocardiograph to request for deleting the biometric information stored in the first server, and the deleted user cannot pass the verification of the first server.

Step S13: the electrocardiograph receives login feedback information from the first server.

After the first server verifies the login request and the biometric information sent by the electrocardiograph, login feedback information can be sent to the electrocardiograph, namely the electrocardiograph receives the login feedback information from the first server. After receiving the login feedback information, the electrocardiograph can execute relevant operations according to the login feedback information. For example, an interface after login or an interface for rejecting login is displayed.

The method comprises the steps that the electrocardiograph is used for collecting the biological characteristic information of a user, the collected biological characteristic information and a login request I can be sent to the first server, and then the first server carries out authority verification by using the biological characteristic information to verify the authority of the user. The electrocardiograph can also receive login feedback information sent by the first server and determine the authority of the user according to the login feedback information. Through the biological characteristic information of the acquisition user, the authority of the user using the electrocardiograph can be verified, so that people without the authority can not log in, and data in the electrocardiograph can not be checked, and the confidence safety of the electrocardiograph can be improved.

Referring to fig. 2, fig. 2 is a flowchart illustrating a method for verifying a right according to a second embodiment of the present application. The method specifically comprises the following steps:

step S21: the electrocardiograph acquires biometric information of the user.

Please refer to step S11.

Step S22: the electrocardiograph sends a login request and biological characteristic information to the first server, and the biological characteristic information is used for verifying the authority of the user.

Please refer to step S12.

Step S23: the electrocardiograph receives login feedback information from the first server.

Please refer to step S13.

Step S24: and if the login feedback information shows that the login is successful, displaying the operation interface after the login by the electrocardiograph.

After the electrocardiogram machine receives the login feedback information sent by the first server, the electrocardiogram machine can execute relevant operations according to the login feedback information. The login feedback information may include permission of login, or may be a case where login is denied, or may be a case where login is temporarily disabled. After receiving the login feedback information, the electrocardiograph can execute relevant operations according to the login feedback information.

For example, if the login feedback information indicates that the login is successful, the operation interface may be switched to the interface after the login. When the login feedback information is that the login is refused, displaying a page that the user does not have the authority to use the equipment, namely if the login feedback information indicates that the login fails, displaying the page after the login fails by the electrocardiograph; and when the login feedback information indicates that the user can not login temporarily, displaying a page for the user to login temporarily and contact the administrator.

When the login feedback information indicates that the login is successful, the operation interface displayed by the electrocardiograph can display the physiological data operation which can be executed by the electrocardiograph after the electrocardiograph displays the operation interface after the login, and the physiological data operation can be all the operations which can be executed by the electrocardiograph. For example, the button is used for collecting electrocardio data, viewing historical electrocardio data and viewing patient information. Of course, the physiological data operation may also include adding or deleting users, setting the authority of each user specifically, and the like. It will be appreciated that the operator interface may include a number of pages, or sub-pages, on which the physiological data operations that may be performed by the electrocardiograph may be displayed.

Step S25: the electrocardiograph receives the physiological data operation instruction.

After the electrocardiograph displays the physiological data operation which can be executed, the user can select the corresponding physiological data operation according to the self requirement so as to execute the relevant operation by using the electrocardiograph. For example, a nurse can select an operation of collecting electrocardiographic data, an electrocardiograph is used for collecting electrocardiographic data, and a doctor can select an operation of checking electrocardiographic data and check electrocardiographic data of a tester. When the user selects the physiological data operation, the electrocardiogram machine receives the physiological data operation instruction, and the electrocardiogram machine can perform related operations according to the received physiological data operation instruction.

Step S26: the electrocardiograph responds to the physiological data operation instruction to execute corresponding operation.

After the electrocardiograph receives the relevant physiological data operating instruction selected by the user, the electrocardiograph can respond to the physiological data operating instruction and execute corresponding operation according to the received execution.

In a specific implementation scenario, the physiological data operation may be acquiring electrocardiographic data, and the electrocardiograph may execute the electrocardiographic data acquisition operation according to the instruction. When all the electrocardiogram data of the testee are checked during the physiological data operation, the electrocardiogram machine can execute the operation of displaying all the electrocardiogram data of the testee according to the instruction.

It can be understood that the electrocardiograph can also have a plurality of functions, such as checking historical electrocardiographic data, checking medical history information of a tester, analyzing electrocardiographic data, and the like, besides acquiring electrocardiographic data. The nurse may only need to perform the operation of collecting the electrocardiographic data, and the tester may only need to check all the information about the tester. That is, the functions to be used are different for different users. If the electrocardiograph displays the registered interface according to the biological characteristic information of the user and all functions of the electrocardiograph can be used, the user may view the data of other people by using the functions of the electrocardiograph and cause information leakage. If the tester logs in, the electrocardiogram data of other people can be checked through the function of checking the data.

Therefore, it is necessary that the user's identity be verified again after the user selects a function to be operated, in order to ensure that the user has the right to use the function. Namely, after the electrocardiograph receives the physiological data operation instruction in step S24, the identity of the user is verified again.

Referring to fig. 3, fig. 3 is a schematic flowchart of a third embodiment of a method for right verification according to the present application, which is executed after the electrocardiograph receives the physiological data operation command in step S24 based on the second embodiment, and specifically includes the following steps:

step S31: the electrocardiograph acquires biometric information of the user.

After the electrocardiograph receives the physiological data operation instruction, it is necessary to acquire the biometric information of the user again to identify the identity of the user and determine whether the user has the authority to operate using the physiological data. The specific process of collecting the biometric information of the user can be referred to the above step S11.

The physiological data operation of the user needing to be operated is verified again, the identity of the user can be verified through the biological characteristic information, if the user is a nurse, the nurse can operate the operation of collecting the electrocardio data, and if the user is a tester, the operation of checking all self data can be realized. By using the biological characteristic information to identify the identity, the safety of the information can be further improved.

In other embodiments, the electrocardiograph may also collect user-specific data, such as passwords, patterns, etc.

Step S32: the electrocardiograph sends the biometric information to the first server.

After the electrocardiograph acquires the biological characteristic information of the user, the biological characteristic information can be sent to the first server, so that the first server can verify the identity of the user according to the biological characteristic information and return a verification result to the electrocardiograph.

Step S33: the electrocardiograph receives the verification result from the first server.

When the first server verifies the identity of the user according to the biological characteristic information, a verification result can be returned to the electrocardiograph, and the verification result can be that the user has the use authority, namely the verification is passed. The verification result may also have no usage right, i.e. the verification fails. In some embodiments, the result of the verification may also include temporarily not having usage rights, please contact the administrator.

After receiving the verification result from the first server, the electrocardiograph may perform a related operation according to the verification result.

Step S34: and if the verification result is passed, the electrocardiograph executes the step of executing the corresponding operation in response to the physiological data operation instruction, and if the verification result is not passed, the electrocardiograph does not execute the step of executing the corresponding operation in response to the physiological data operation instruction.

When the verification result sent by the first server is failed, the user does not have the authority of using the physiological data to be operated by the user, and therefore, the electrocardiograph does not execute the step of responding the physiological data operation instruction to execute the corresponding operation.

When the verification result sent by the first server is passed, the user is allowed to have the authority of using the physiological data to be operated by the user, and therefore, the electrocardiograph executes the step of responding to the physiological data operation instruction to execute the corresponding operation.

Referring to fig. 4, fig. 4 is a flowchart illustrating a method for verifying a right according to a fourth embodiment of the present application. The embodiment is further extended by the step of executing corresponding operation in response to the physiological data operation instruction in the electrocardiograph of the third embodiment.

In a specific implementation scenario, the physiological data operation selected by the user may be an operation of viewing a first analysis result of the electrocardiographic data, that is, the electrocardiograph may receive an operation instruction of viewing the first analysis result of the electrocardiographic data, at this time, the electrocardiograph may perform the operations of verifying the identity of the user in steps S31-S34, and after the verification is passed, the electrocardiograph may respond to the operation instruction of viewing the first analysis result of the electrocardiographic data and perform a corresponding operation, and the specific steps include:

step S41: the electrocardiograph provides the collected electrocardio data to the opposite terminal equipment.

When a user needs to check a result obtained by analyzing the use data acquired by the electrocardiograph, the electrocardiograph can generate the acquired electrocardiograph data to the opposite terminal, namely, the acquired electrocardiograph data is provided for the opposite terminal device. The opposite end device can be a computer for receiving and displaying the electrocardiogram data acquired by the electrocardiogram machine, and can also be other devices capable of displaying the electrocardiogram data. Because the electrocardiogram data can be displayed on the opposite-end equipment, a user of the opposite-end equipment can analyze the displayed electrocardiogram data and feed back an analysis result to the electrocardiograph through the opposite-end equipment. It can be understood that the opposite-end device can be a diagnosis center of a hospital, and can analyze the electrocardiographic data and obtain a result. The diagnosis center may be a diagnosis center of a medical institution in which the electrocardiograph is located, or may be a diagnosis center of another hospital. The mechanism to which the peer device belongs is not limited. The electrocardio equipment is set to be capable of sending the collected electrocardio data to an opposite end, for example, the electrocardio data is sent to a big hospital with better medical conditions from a remote small town through a network, so that a more professional doctor can analyze the electrocardio data, a tester can enjoy better medical service, and the limitation of regions is broken through.

Step S42: the electrocardiograph receives a first analysis result of the electrocardiographic data provided by the opposite-end device, and the first analysis result of the electrocardiographic data is obtained by analyzing the electrocardiographic data by a user of the opposite-end device.

It can be understood that, after the electrocardiograph provides the electrocardiograph data to the opposite-end device, the user of the opposite-end device can analyze the electrocardiograph data and feed back an analysis result to the electrocardiograph, that is, feed back a first analysis result to the electrocardiograph. That is, the electrocardiogram receives the first analysis result of the electrocardiographic data provided by the end device. The content of the first analysis result can be interpretation of the electrocardiogram data, judgment of whether the electrocardiogram data is abnormal or not, possible reasons for generating the abnormal and related suggestions.

Step S43: the electrocardiograph displays a first analysis result of the electrocardiographic data.

After the electrocardiogram machine receives the first analysis result, the analysis result can be displayed through the display equipment of the electrocardiogram machine, and the user of the electrocardiogram machine can check the analysis result. For example, the first analysis result is displayed on the screen of the electrocardiograph.

Referring to fig. 5, fig. 5 is a flowchart illustrating a fifth embodiment of a method for rights verification according to the present application. This embodiment is a further extension of the fourth embodiment described above before the step of displaying the first analysis result of the electrocardiograph.

Before the electrocardiograph obtains the first analysis result, the electrocardiograph can also execute relevant operations to be provided for a user of the opposite-end device so as to assist the user of the opposite-end device in analyzing the electrocardiographic data. Specifically, before the electrocardiograph receives a first analysis result of electrocardiographic data provided by the peer device, the following steps may be executed:

step S51: and the electrocardiograph analyzes the electrocardiogram data to obtain a second analysis result.

The electrocardiograph may first perform a machine analysis on the electrocardiographic data to obtain a second analysis result. For the electrocardiographic data, the electrocardiographic data of a normal person may be inconsistent with the electrocardiographic data of a patient with a heart disease, so that the electrocardiographic data acquired by the normal person can be automatically analyzed by using an electrocardiograph to obtain a second analysis result. The second analysis result may be a result of roughly judging the electrocardiographic data of the subject, and for example, the second analysis result may be that the electrocardiographic data is normal, the electrocardiographic data is abnormal, or the electrocardiographic data is in an emergency.

In a specific implementation scenario, when the electrocardiograph automatically analyzes electrocardiographic data to obtain that an emergency exists, early warning information can be provided to the peer device to notify the peer device to send an early warning prompt to a user of the peer device, so that the user of the peer device can know the emergency in time to perform corresponding processing in time. The early warning prompt can be a prompt tone or can be a telephone, WeChat, QQ and the like which automatically dials the user.

Step S52: the electrocardiograph provides a second analysis result for the opposite-end equipment, and the second analysis result is used for assisting a user of the opposite-end equipment to analyze the electrocardiogram data.

After the electrocardiograph automatically analyzes the acquired electrocardiographic data, the obtained second analysis result can be sent to the opposite-end equipment, and then the electrocardiographic data can be analyzed by a user of the opposite-end equipment according to the second analysis result.

It should be noted that, before the electrocardiograph obtains the first analysis result, the automatic analysis performed by the electrocardiograph and the subsequent operation steps S51-S52 may be performed simultaneously with the electrocardiograph providing the collected electrocardiograph data to the opposite device, or may be performed before or after the electrocardiograph has finished sending the electrocardiograph data. The operations of steps S51-S52 may be performed as long as they are before the electrocardiograph obtains the first analysis result. In some embodiments, the analysis may be performed after the first analysis result is obtained by the electrocardiograph, and in a case that the second analysis result of the electrocardiograph is transmitted after the first analysis result is obtained, the second analysis result may be used to assist the user of the peer device in analyzing the cardiac electrical data next time.

Referring to fig. 6, fig. 6 is a flowchart illustrating a method for verifying a right according to a sixth embodiment of the present application. The embodiment is further extended by the step of executing corresponding operation in response to the physiological data operation instruction in the electrocardiograph of the third embodiment.

The electrocardiograph disclosed in step S34 executes corresponding operations in response to the physiological data operation instruction, and the corresponding operations may also be operations for viewing the electronic medical record. The specific electrocardiograph responds to the electronic medical record viewing instruction to execute the corresponding operation, and the method can comprise the following steps:

step S61: the electrocardiograph sends a request for obtaining the electronic medical record to the second server.

When the user of the electrocardiograph wants to view the electronic medical record, the electrocardiograph can send a request for obtaining the electronic medical record to the second server to request the second server to send the electronic medical record which the user of the electrocardiograph wants to view to the electrocardiograph.

In a specific implementation scenario, the electronic medical record that the user wants to view may be the current medical record data of the tester, may also include the previous medical record data, or may be all the medical record data related to the tester. That is, the request for acquiring the electronic medical record transmitted from the electrocardiograph to the second server may be a request for acquiring the current medical record data, a request for acquiring the current medical record data including the previous medical record data, or a request for acquiring all the medical record data.

The second server may be a server for storing medical record data of a medical institution to which the electrocardiograph belongs, or a server for storing medical records established in a plurality of medical institutions. It is understood that the type of the second server is not limited, as long as the second server can receive the request for acquiring the electronic medical record sent by the electrocardiograph.

Step S62: the electrocardiograph receives the electronic medical record from the second server.

After receiving the request for acquiring the electronic medical record sent by the electrocardiograph, the second server can send medical record data to be acquired to the electrocardiograph. That is, the electrocardiograph receives the electronic medical record from the second server. When the medical record data to be acquired by the electrocardiogram machine is a request of the current medical record data, the second server can only send the current medical record data. Of course, the second server can also send all medical record data to the electrocardiograph device at one time, so that the user of the electrocardiograph can conveniently check the medical record data.

Step S63: the electrocardiograph displays the electronic medical record.

After the electrocardiograph receives the electronic medical record data, the electronic medical record data can be displayed through the display equipment of the electrocardiograph, and a user of the electrocardiograph can check the electronic medical record data. For example, the electronic medical record data is displayed through a screen of an electrocardiograph. The displayed electronic medical record data can be the current electronic medical record data of the tester or the historical electronic medical record data.

Referring to fig. 7, fig. 7 is a flowchart illustrating a method for verifying authority according to a seventh embodiment of the present application. The embodiment is further extended by the step of executing corresponding operation in response to the physiological data operation instruction in the electrocardiograph of the third embodiment.

The electrocardiograph in step S34 executes corresponding operations in response to the physiological data operation instruction, where the corresponding operations may be operations for viewing other physiological data besides the electrocardiographic data, and the operations for other physiological data may include electrophysiological reports, personal information of the testers, and the like. The operation of the electrocardiograph responding to the other physiological data besides the electrocardio data can comprise the following steps:

step S71: the electrocardiograph sends a request to the second server to obtain other physiological data.

When the user of the electrocardiograph wants to view other physiological data, the electrocardiograph may send a request for obtaining other physiological data to the second server to request the second server to send the electrocardiograph other physiological data that the user of the electrocardiograph wants to view.

In a specific implementation scenario, when the other physiological data is an electrophysiology report, the electrocardiograph sends a request for obtaining the electrophysiology report data to the second server.

Step S72: the electrocardiograph receives other physiological data from the second server.

The second server may send the electrocardiograph the other physiological data to be acquired after receiving the request for acquiring the other physiological data sent by the electrocardiograph. I.e. the electrocardiograph receives further physiological data from the second server. The second server may only send the current electrophysiology report data when the other physiological data to be acquired by the electrocardiograph is a request for the electrophysiology report data. Of course, the second server may also transmit all the electrophysiological report data to the electrocardiograph device at one time, so as to facilitate the user of the electrocardiograph to view the data.

Step S73: the electrocardiograph displays other physiological data.

After the electrocardiograph receives other physiological data, the other physiological data can be displayed through the display equipment of the electrocardiograph, and the user of the electrocardiograph can check the other physiological data. For example, other physiological data is displayed on the screen of the electrocardiograph. When the other physiological data is electrophysiological report data, the current electrophysiological report data or the historical electrophysiological report data may be displayed.

Referring to fig. 8, fig. 8 is a schematic diagram of a frame of a first embodiment of an electrocardiograph according to the present application.

The electrocardiograph 70 comprises a processor 81 and a memory 82 coupled to each other, and the processor 81 is configured to execute program instructions stored in the memory 82 to implement the steps of any of the above-mentioned method embodiments or the steps correspondingly executed by the electrocardiogram of any of the above-mentioned method embodiments. The electrocardiograph may further include a touch screen, a printing component, a communication circuit, etc. according to requirements, in addition to the processor and the memory, which is not limited herein.

In particular, the processor 81 is configured to control itself and the memory 82 to implement the steps of any of the above-described embodiments of the multi-lead electrocardiographic data acquisition method. Processor 81 may also be referred to as a CPU (Central Processing Unit). The processor 81 may be an integrated circuit chip having signal processing capabilities. The Processor 81 may also be a general purpose Processor, a Digital Signal Processor (DSP), an Application Specific Integrated Circuit (ASIC), a Field Programmable Gate Array (FPGA) or other Programmable logic device, discrete Gate or transistor logic, discrete hardware components. A general purpose processor may be a microprocessor or the processor may be any conventional processor or the like. In addition, the processor 81 may be commonly implemented by a plurality of integrated circuit chips.

Referring to fig. 9, fig. 9 is an exploded view of the second embodiment of the electrocardiograph. As shown in fig. 9, the electrocardiograph includes a host 10, the host 10 includes a housing 11 and a display 12 embedded in the housing, the host 10 may include the processor and the memory shown in fig. 8, and may further include a communication circuit for communicating with an external device, wherein the communication circuit may include at least one of: wifi communication circuit, bluetooth communication circuit, cellular mobile communication circuit, etc.

In one implementation, the display 12 is a touch screen, so that a user can interact with the electrocardiograph by touching the display 12. For example, a data acquisition icon is displayed on a display interface of a touch display screen of the electrocardiograph, and when a touch signal of a user to the data acquisition icon is detected, electrocardiograph data acquisition is executed. The electrocardiograph can also utilize the touch display screen to realize the interactive operation with the user in any embodiment.

The housing 11 includes a first side 111 and a second side 112 opposite to each other, the first side 111 is used for connecting with a peripheral device, and in an implementation scenario, the peripheral device may include any one of the handle 20 and the printing assembly 30. In a specific implementation scenario, when the peripheral device is connected to the first side portion 111, the second side portion 112 and the peripheral device are simultaneously abutted against the supporting surface, so that a predetermined angle is formed between the plane where the display screen 12 is located and the supporting surface, so as to facilitate a user to observe an interface displayed on the display screen 12, or to touch the display screen 12, where the predetermined angle may be set to 30 degrees, 35 degrees, and the like, and the embodiment is not limited herein.

In addition, in order to conveniently and quickly realize the connection between the host computer 10 and the peripheral device, connectors matched with each other may be further provided on the host computer 10 and the peripheral device. It includes handle 20 to exemplify to add the device outward, and constant head tank 113 has all been seted up to host computer 10 near the both sides of first side 111, and handle 20 includes the first location arm 21 of two relative settings, and first location arm 21 matches each other with constant head tank 113 to can insert constant head tank 113 with first location arm 21, realize dismantling between host computer 10 and the handle 20 and be connected. In an implementation scenario, the first side portion 111 may further be provided with a plurality of clamping holes (not shown), the handle 20 further includes a first mounting portion 22 disposed between the two first positioning arms 21, and the first mounting portion 22 is provided with a first clamping column 221 matched with the clamping holes. In one implementation scenario, in order to facilitate the user to carry the host 10 through the handle 20, the handle 20 further includes a handle 23, and the handle 23, the two first positioning arms 21 and the first mounting portion 22 enclose and form a through slot 24 for the user to hold, so that the user can conveniently carry the host 10. Alternatively, when the peripheral device includes the printing assembly 30, the printing assembly 30 may include two oppositely disposed second positioning arms 31, similar to the handle 20, and the second positioning arms 31 and the positioning slots 113 are matched with each other, so that the second positioning arms 31 can be inserted into the positioning slots 113 to realize the detachable connection between the host computer 10 and the printing assembly 30. In one implementation scenario, the printing assembly 30 further includes a second mounting portion 32 disposed between the two second positioning arms 31, and the second mounting portion 32 is provided with a second clamping column 321 matching with the clamping hole.

In addition, the main body 10 further includes a first collecting interface 114, a second collecting interface 115, and a switch button 116 disposed on the housing 11, and the second side portion 112 further has a sound hole 1121, and a scanning head 1122 for scanning a barcode. In addition, the host 10 may further include at least one of a power adapter interface, an ethernet interface, a USB (Universal Serial Bus) interface, a SD (Secure Digital) memory card slot, a SIM (Subscriber identity Module) card slot, and an NFC (Near Field Communication) recognizer.

In addition, the Operating System (OS) of the host 10 may be based on Linux, Windows, or the like, and the embodiment is not particularly limited herein.

The handle 20 and the printing assembly 30 can be configured according to actual needs. For example, for a scene that is frequently carried and used outdoors, the handle 20 and the printing component 30 may be additionally reconfigured on the basis of the host 10, and for a scene that is used inside a hospital, the printing component 30 may be additionally reconfigured on the basis of the host 10, or when the host 10 is connected to an external printing device through a network, the printing component 30 may not be additionally configured, which is not illustrated herein.

It is understood that the electrocardiograph may be further provided with at least one of the following components: the camera shooting assembly is used for image or video acquisition and is matched with a communication circuit to realize video interaction with a far end, the GPS positioning group is used for acquiring the position of the electrocardiograph, and the biological characteristic acquisition assembly is used for acquiring the biological characteristics of a user (such as a fingerprint acquisition assembly for acquiring fingerprints and a camera shooting assembly for acquiring pupils).

Referring to fig. 10, fig. 10 is a block diagram illustrating an embodiment of a computer-readable storage medium 1200 according to the present application. The computer readable storage medium 1200 stores a computer program, which when executed by a processor, is capable of implementing the steps of the gain adjustment method in any of the embodiments described above.

The computer-readable storage medium 1200 may be a medium that can store a computer program, such as a usb disk, a removable hard disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk or an optical disk, or may be a server that stores the computer program, and the server may send the stored computer program to another device for running or may run the stored computer program by itself.

It is to be understood that in the embodiments provided in this application, all embodiments are non-conflicting, i.e., can be combined with each other. In the several embodiments provided in the present application, it should be understood that the disclosed method and apparatus may be implemented in other ways. For example, the above-described apparatus embodiments are merely illustrative, and for example, a division of a module or a unit is merely a logical division, and an actual implementation may have another division, for example, a plurality of units or components may be combined or integrated into another system, or some features may be omitted, or not executed. In addition, the shown or discussed mutual coupling or direct coupling or communication connection may be an indirect coupling or communication connection of devices or units through some interfaces, and may be in an electrical, mechanical or other form.

Units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of network units. Some or all of the units can be selected according to actual needs to achieve the purpose of the embodiment.

In addition, functional units in the embodiments of the present application may be integrated into one processing unit, or each unit may exist alone physically, or two or more units are integrated into one unit. The integrated unit can be realized in a form of hardware, and can also be realized in a form of a software functional unit.

The integrated unit, if implemented in the form of a software functional unit 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 application may be substantially implemented or contributed to by the prior art, or all or part of the technical solution may be embodied in a software product, which is stored in a storage medium and includes instructions for causing a computer device (which may be a personal computer, a server, a network device, or the like) or a processor (processor) to execute all or part of the steps of the method according to the embodiments of the present application. And the aforementioned storage medium includes: a U-disk, a removable hard disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk or an optical disk, and other various media capable of storing program codes.

Claims (10)

1. A method of rights verification, comprising:

the electrocardiograph collects the biological characteristic information of the user;

the electrocardiograph sends a login request and the biological characteristic information to a first server, and the biological characteristic information is used for verifying the authority of the user;

the electrocardiograph receives login feedback information from the first server.

2. The method of claim 1, further comprising:

if the login feedback information indicates that the login is successful, the electrocardiograph displays an operation interface after the login;

the electrocardiograph receives a physiological data operation instruction;

and the electrocardiograph responds to the physiological data operating instruction to execute corresponding operation.

3. The method of claim 2,

the electrocardiograph receiving physiological data operation instructions comprises the following steps:

the electrocardiograph receives an operation instruction for checking a first analysis result of the electrocardiograph data;

the electrocardiograph executing corresponding operations in response to the physiological data instructions comprises:

the electrocardiograph provides the acquired electrocardiogram data to the opposite terminal equipment;

the electrocardiograph receives a first analysis result of the electrocardiographic data provided by the opposite-end device, wherein the first analysis result of the electrocardiographic data is obtained by analyzing the electrocardiographic data by a user of the opposite-end device;

and the electrocardiograph displays a first analysis result of the electrocardiogram data.

4. The method of claim 3,

before the electrocardiograph receives the first analysis result of the electrocardiographic data provided by the peer device, the electrocardiograph further comprises:

the electrocardiograph analyzes the electrocardiogram data to obtain a second analysis result;

the electrocardiograph provides the second analysis result to the opposite-end device, and the second analysis result is used for assisting a user of the opposite-end device to analyze the electrocardiogram data.

5. The method of claim 4,

if the second analysis result indicates that the electrocardiographic data has an emergency, the method further comprises the following steps:

the electrocardiograph provides early warning information for the opposite terminal equipment, and the early warning information is used for informing the opposite terminal equipment to send an early warning prompt to a user of the opposite terminal equipment.

6. The method of claim 2,

the electrocardiograph receiving physiological data operation instructions comprises the following steps:

the electrocardiograph receives an operation instruction for checking the electronic medical record;

the electrocardiograph executing corresponding operations in response to the physiological data instructions comprises:

the electrocardiograph sends a request for acquiring the electronic medical record to a second server;

the electrocardiograph receives the electronic medical record from the second server;

the electrocardiograph displays the electronic medical record.

7. The method of claim 2,

the electrocardiograph receiving physiological data operation instructions comprises the following steps:

the electrocardiograph receives an operation instruction for checking other physiological data except the electrocardio data;

the electrocardiograph executing corresponding operations in response to the physiological data instructions comprises:

the electrocardiograph sends a request for acquiring the other physiological data to a second server;

the electrocardiograph receiving the other physiological data from the second server;

the electrocardiograph displays the other physiological data.

8. The method according to any one of claims 2 to 7,

after receiving the physiological data operation instruction, the electrocardiograph further comprises:

the electrocardiograph collects the biological characteristic information of the user;

the electrocardiograph sends the biological characteristic information to the first server;

the electrocardiograph receives a verification result from the first server;

and if the verification result is passed, the electrocardiograph executes the step of responding to the physiological data operation instruction to execute the corresponding operation, and if the verification result is not passed, the electrocardiograph does not execute the step of responding to the physiological data operation instruction to execute the corresponding operation.

9. A computer storage medium, characterized in that it stores a computer program which, when executed by a processor, implements the method of any one of claims 1-8.

10. An electrocardiograph comprising a processor and a memory coupled to each other, the processor being configured to execute a computer program stored in the memory to perform the method of any one of claims 1-8.

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