CN112951404A - Implanted wireless intelligent electronic medical system and operation method thereof - Google Patents

Abstract

The invention provides an implantable wireless intelligent electronic medical system and an operation method thereof. The implanted wireless intelligent electronic medical system comprises an implanted wireless intelligent electronic medical apparatus and an external energy controller which are matched with each other, and has a multiple password authentication function so as to ensure the legality of the identity of an operator and the normative of the authority. The invention also provides a factory setting method, a debugging method, a doctor operating method and a patient operating method of the implanted wireless intelligent electronic medical system.

Description

Implanted wireless intelligent electronic medical system and operation method thereof

Technical Field

The invention relates to an implanted wireless intelligent electronic medical system, in particular to an implanted wireless intelligent electronic medical system with a multiple password authentication function.

Background

With the progress of medical technology, the intelligence and miniaturization of implantable electronic medical devices are also gradually advancing. It is also a trend to make intelligent and miniaturized implantable electronic medical devices into chips.

The current implantable electronic medical devices include the following categories:

1. without digital control logic: the curative effect of the whole device completely depends on the inherent constant setting of the device, and the device does not have a parameter setting function and a safety certification function. The implantable electronic medical device can only execute a simple and fixed treatment scheme, and cannot adjust and set treatment parameters according to the change of the state of illness of a patient.

2. There is digital control logic but no wireless communication function with the outside world: the operation of the whole device is completely dependent on the setting and fixed logic at the time of implantation, has no communication function and has corresponding safety certification problems. It is an implanted program-controlled electronic medical apparatus. Compared with the type 1 implantable electronic medical device, the implantable programmable electronic medical device can execute a more complex treatment scheme based on control logic, but cannot adjust and set treatment parameters according to changes of patient conditions.

3. The implanted electronic medical device has a digital control logic and also has a wireless communication function, and the implanted electronic medical device has a communication function with a controller outside the body. The implantable wireless intelligent electronic medical instrument is an implantable wireless intelligent electronic medical instrument. These communication functions are used for parameter setting, control, collection feedback to implanted wireless intelligent electronic medical instrument, even involve supplying power or charging to implanted wireless intelligent electronic medical instrument.

The implanted wireless intelligent electronic medical apparatus (type 3) which has both digital control logic and wireless communication function expands the multifunctionality of the implanted wireless intelligent electronic medical apparatus and realizes the capability of in vitro adjustment. But this also creates a safety hazard.

The 3 rd type implanted wireless intelligent electronic medical apparatus is not judged by the safety certification logic, and at the moment, the illegal monitoring device can easily capture the communication information and copy the communication information, so that the implanted wireless intelligent electronic medical apparatus is controlled. Moreover, during the use by other users, operations beyond the medical safety range or violating the treatment plan may be performed, and thus there is a risk of misoperation. In addition, there may be a risk that the same external controller operates simultaneously on multiple implanted medical chips, resulting in unintended operation and injury.

Therefore, how to perform digital security authentication during the use of the implanted wireless intelligent electronic medical device will be a great concern.

The information disclosed in this background section is only for enhancement of understanding of the general background of the invention and should not be taken as an acknowledgement or any form of suggestion that this information forms the prior art already known to a person skilled in the art.

Disclosure of Invention

The invention aims to provide an implanted wireless intelligent electronic medical system, which comprises an implanted wireless intelligent electronic medical apparatus and an external energy controller which are matched with each other, wherein digital safety authentication can be carried out between the implanted wireless intelligent electronic medical apparatus and the external energy controller, so that the implanted wireless intelligent electronic medical system is prevented from being controlled by illegal operators, or prevented from being operated by patients, or prevented from being operated by other external energy controllers.

The invention relates to an implanted wireless intelligent electronic medical system, which comprises an implanted wireless intelligent electronic medical apparatus and an external energy controller which are mutually matched for use, wherein the implanted wireless intelligent electronic medical apparatus is used for being implanted into the body of a patient, the external energy controller is used for realizing the operation and control of the implanted wireless intelligent electronic medical apparatus through wireless communication,

the external energy controller is provided with a human-computer interaction device;

the embedded wireless intelligent electronic medical apparatus and the external energy controller are provided with a debugging account number and a debugging password, a doctor account number and a doctor password, and a patient account number and a patient password, so that the identity of an operator is authenticated and the legal authority of the operator is limited, meanwhile, the equipment matching legality of the embedded wireless intelligent electronic medical apparatus and the external energy controller is authenticated, and the identity of the operator comprises a product maintenance engineer, a doctor or a patient.

In the implantable wireless intelligent electronic medical system of the invention, preferably, the human-computer interaction device includes a display screen and an input device, so as to transmit instructions to the implantable wireless intelligent electronic medical apparatus.

In the implantable wireless intelligent electronic medical system of the invention, preferably, the input device is a key or a virtual key.

In the implantable wireless intelligent electronic medical system, the human-computer interaction device is preferably an upper computer communication module, and the instructions are sent to the implantable wireless intelligent electronic medical apparatus by using an upper computer display screen and an input device through the upper computer communication module. Further preferably, the upper computer communication module is a wireless communication module, such as a bluetooth module or a WIFI module.

In the implantable wireless intelligent electronic medical system of the present invention, preferably, the implantable wireless intelligent electronic medical device has a security chip, and the security chip stores the debugging account and the debugging password, the doctor account and the doctor password, and the patient account and the patient password, and executes the account and password authentication function.

In the implantable wireless intelligent electronic medical system of the present invention, preferably, after factory setting, the debugging account and the debugging password, and the doctor account and the doctor password are stored in both the implantable wireless intelligent electronic medical device and the external energy controller.

The invention also aims to provide operation methods of the implanted wireless intelligent electronic medical system, which can ensure that digital safety authentication is carried out between the implanted wireless intelligent electronic medical apparatus and the external energy controller, thereby avoiding the control of illegal operators, the non-operation of patients or the misoperation of other external energy controllers.

The operation method of the implanted wireless intelligent electronic medical system comprises the following debugging processes:

step 100, providing an implanted wireless intelligent electronic medical system according to claim 4, and starting up;

step 101, selecting a product maintenance engineer option on a 'selection login user' interface of an in vitro energy controller;

step 102, inputting a debugging account number and a debugging password, and prompting to re-input if the account number or the password is wrong;

if the password passes the authentication, step 103 is executed to obtain the debugging authority and select the password operation or the operation unrelated to the password;

if a password independent operation is selected, step 104 is entered to perform a password independent operation, including: detecting the state of the implanted wireless intelligent electronic medical apparatus and the external energy controller thereof or setting various treatment parameters;

if the password operation is selected, entering step 105, selecting an account type, wherein the account type comprises a product maintenance engineer, a doctor or a patient, and then selecting an operation type;

if the selection operation type is "acquire", step 106 is entered, and the account number and password of the type determined in step 105 are acquired.

If the type of selection operation is "modify", step 107 is entered to modify the account number and password of the type determined in step 105.

If the selection operation type is reset, step 108 is entered, and the account number and password of the type determined in step 105 are reset.

In the operation method of the implantable wireless intelligent electronic medical system of the invention, the following doctor operation process can be included:

step 200, providing an implanted wireless intelligent electronic medical system which is debugged, and starting up the system;

step 201, selecting a doctor option on a 'select login user' interface of an in vitro energy controller;

step 202, inputting a doctor account and a doctor password, and prompting to re-input if the account or the password is wrong;

if the password passes the authentication, step 203 is entered, the doctor operation authority is obtained, and the password operation or the operation unrelated to the password is selected;

if a password independent operation is selected, step 204 is entered and a password independent operation is performed, including: detecting the state of the implanted wireless intelligent electronic medical apparatus and the external energy controller thereof or setting various treatment parameters;

if the password operation is selected, entering step 205, selecting an account type, wherein the account type comprises a doctor or a patient, and then selecting an operation type;

if "acquire" is selected, go to step 206, acquire the patient's account and password;

if "modify" is selected, go to step 207, modify the account and password of the type determined in step 205; and

if reset is selected, step 208 is entered, resetting the account number and password of the type determined in step 205.

In the operation method of the implantable wireless intelligent electronic medical system of the invention, the following patient operation processes can be further included:

step 300, providing an implanted wireless intelligent electronic medical system set by a doctor in an operation process, and starting up the system;

step 301, inputting a patient account and a patient password, and prompting to re-input if the password is wrong;

if the password authentication is passed, step 302 is entered, the operation authority of the patient is obtained, the stimulation intensity of the implanted wireless intelligent electronic medical apparatus is adjusted, and the implanted wireless intelligent electronic medical apparatus executes the treatment operation.

The invention also provides another operation method of the implanted wireless intelligent electronic medical system. The method does not need to be debugged by equipment maintenance engineers.

The operation method of the other implantable wireless intelligent electronic medical system comprises the following doctor operation processes:

step 200', providing an implanted wireless intelligent electronic medical system which is set by a factory, and starting up the system;

step 201 ', selecting a doctor option on a ' select login user ' interface of an in vitro energy controller;

step 202', inputting a doctor account and a doctor password, and prompting to re-input if the account or the password is wrong;

if the password passes the authentication, step 203' is entered, and the operation authority of the doctor is obtained, and the password operation or the operation unrelated to the password is selected;

if a password independent operation is selected, step 204' is entered, and password independent operations are performed, including: detecting the state of the implanted wireless intelligent electronic medical apparatus and the external energy controller thereof or setting various treatment parameters;

if the password operation is selected, entering step 205', selecting an account type, wherein the account type comprises a doctor or a patient, and then selecting an operation type;

if "acquire" is selected, then step 206 'is entered, where the patient's account number and password are acquired;

if "modify" is selected, step 207 'is entered, and the account and password of the type determined in step 205' are modified; and

if reset is selected, step 208 'is entered, resetting the account and password of the type determined in step 205'.

In the operation method of the another implantable wireless intelligent electronic medical system, the following patient operation processes may also be included:

step 300', providing an implanted wireless intelligent electronic medical system set by a doctor in an operation process, and starting up the system;

step 301', inputting a patient account and a patient password, and prompting to re-input if the password is wrong;

if the password authentication is passed, step 302' is entered, the operation authority of the patient is obtained, the stimulation intensity of the implanted wireless intelligent electronic medical apparatus is adjusted, and the implanted wireless intelligent electronic medical apparatus executes the treatment operation.

The implanted wireless intelligent electronic medical system and the method, in particular to a digital security authentication mechanism with triple account numbers and password settings, ensure the legality and authority normalization of the identity of an operator, and simultaneously ensure the uniqueness and legality of control equipment, thereby effectively avoiding potential safety hazards.

The method and apparatus of the present invention have other features and advantages which will be apparent from or are set forth in detail in the accompanying drawings and the following detailed description, which are incorporated herein, and which together serve to explain certain principles of the invention.

Drawings

Fig. 1 shows an implanted wireless intelligent electronic medical system according to the present invention.

Fig. 2 shows a factory setting flow chart of the implanted wireless intelligent electronic medical system according to the invention.

Fig. 3 shows a flow chart of a debugging process of the operation method of the implanted wireless intelligent electronic medical system according to the invention.

Fig. 4 shows a flow chart of the operation of a doctor of the operation method of the implanted wireless intelligent electronic medical system according to the invention.

Fig. 5 shows a flow chart of patient operation of a method of operation of an implanted wireless intelligent electronic medical system according to the present invention.

Detailed Description

Reference will now be made in detail to the various embodiments of the invention, examples of which are illustrated in the accompanying drawings and described below. While the invention is described in conjunction with the exemplary embodiments, it will be understood that this description is not intended to limit the invention to those exemplary embodiments. On the contrary, the invention is intended to cover not only these exemplary embodiments, but also various alternatives, modifications, equivalents and other embodiments, which may be included within the spirit and scope of the invention as defined by the appended claims.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. The exemplary embodiments are examples and may be implemented in various forms by those skilled in the art. Accordingly, the present invention is not limited to the exemplary embodiments described herein.

Fig. 1 shows an implanted wireless intelligent electronic medical system according to the present invention.

As shown in fig. 1, the implantable wireless intelligent electronic medical system of the present invention includes an implantable wireless intelligent electronic medical device 1 and an external energy controller 2, which are used in cooperation with each other, and digital security authentication can be performed between the two devices.

The external energy controller is provided with a human-computer interaction device. The human-computer interaction device can comprise a display screen and an input device so as to send instructions to the implantable wireless intelligent electronic medical instrument. Instead of a display screen, the function of the display screen may be realized by combining an LED indicator light and a voice prompt. The input device can be a key, a virtual key displayed on a screen, and can also be voice input.

In the implanted wireless intelligent electronic medical system, the man-machine interaction device can also be an upper computer communication module, and the upper computer display screen and the input device are utilized to send instructions to the implanted wireless intelligent electronic medical apparatus through the upper computer communication module. The upper computer communication module is a wireless communication module, such as a Bluetooth module or a WIFI module. The upper computer communication module can be communicated with an upper computer, and the upper computer can be a computer, a mobile phone or other electronic control equipment.

Generally speaking, doctors need to perform comprehensive configuration on the external energy controllers used by the implanted wireless intelligent electronic medical apparatus and the patients, and the patients only need to perform simple operations (for example, turning on or off, increasing or decreasing stimulation intensity, etc.) by using the external energy controllers. The operation performed by the doctor is much more complicated than that of the patient. Therefore, in order to facilitate the operation of doctors and reduce the probability of misoperation of patients, the external energy controller can be divided into a doctor external energy controller and a patient external energy controller. The doctor external energy controller has complex operation function and man-machine interaction interface, while the patient external energy controller has only simple man-machine interaction interface.

The implanted wireless intelligent electronic medical device can be integrated into a chip comprising a safety module. The safety module can also be made into a safety chip, and the safety chip is taken as a component to be installed in the implanted wireless intelligent electronic medical apparatus. The security module or the security chip stores the debugging account and the debugging password, the doctor account and the doctor password, and the patient account and the patient password, and executes the account and password authentication function.

The implanted wireless intelligent electronic medical system is provided with a triple account and a triple password, namely a debugging account and a debugging password, a doctor account and a doctor password, and a patient account and a patient password. And one of the triple account numbers and the passwords passes the authentication, so that the legal operation identity of the heavy operator (including a product maintenance engineer, a doctor or a patient) is authenticated, the operation authority of the heavy operator is regulated, and the legal pairing relationship between the implanted wireless intelligent electronic medical equipment and the paired external energy controller is authenticated.

If the account number or the password input by the operator is not accordant with both the implanted wireless intelligent electronic medical device and the external energy controller, the authentication cannot be passed. At the moment, the operator receives the feedback information to display that the account numbers or the passwords of the implanted wireless intelligent electronic medical instrument and the external energy controller are not consistent with the account numbers or the passwords input by the operator. At this time, the operator should try to retrieve the account and the password or seek resetting of the account and the password by an authorized person.

If the operator knows the account number and the password which are operated, only one of the implanted wireless intelligent electronic medical device and the external energy controller is in accordance with the account number and the password, and the authentication cannot be passed. At the moment, the operator receives feedback information to display which account or password of the implanted wireless intelligent electronic medical device or the external energy controller is not consistent with the account or password input by the operator. At this time, the operator should exclude the device whose password cannot be matched in the implanted wireless intelligent electronic medical device and the external energy controller, and search for the device whose password can be matched.

The operation of the implanted wireless intelligent electronic medical device comprises password operation and operation independent of the password.

A password-independent operation means that the operation is independent of the acquisition, modification or resetting of a password and/or account number. The operation includes, but is not limited to, adjusting treatment parameters including, but not limited to, adjusting parameters of the stimulation pulses, reading device operational data, and the like. These operational functions are necessary for using or demonstrating the implanted wireless intelligent electronic medical device.

Password operations include obtaining, modifying, or resetting a password and/or account number.

The account and/or the password are obtained by inquiring the account and/or the password of the implanted wireless intelligent electronic medical device and the in-vitro energy controller thereof. It is common for an operator or a user to forget an account number and a password, and the function of acquiring the account number and the password is necessary for retrieving the password.

The account and/or the password are modified, namely the account and the password of the implanted wireless intelligent electronic medical device and the in-vitro energy controller thereof are modified. For the operator or user, modifying the account number or modifying the password is an operation that is often used for security of the authority or for memorizing the account number or the password.

Resetting the account and password means restoring the account and password to factory conditions. The product maintenance engineer may reset all triple account numbers and passwords.

Authority of product maintenance engineer

Before a product leaves a factory, a product maintenance engineer is required to debug the product before the product reaches a user (a doctor or a patient), so that an account number and a password of an implanted wireless intelligent electronic medical instrument in a hand of the user and an external energy controller of the medical instrument are paired (of course, the product can be directly handed to the doctor to operate after leaving the factory, but strict training is required to be performed on the doctor). Thereby, risks due to illegal users and operations of illegal devices can be avoided.

After the implantable wireless intelligent electronic medical device leaves the factory, a product maintenance engineer has the highest authority, and the debugging account and the debugging password are used for the product maintenance engineer to operate. And the product maintenance engineer can obtain the complete control right of the device, namely the corresponding external energy controller, through the authentication of the debugging account number and the debugging password.

The operations of the product maintenance engineer include password operations and operations unrelated to passwords.

The password operations of the product maintenance engineer include acquiring all account numbers and/or passwords, modifying all account numbers and/or passwords, and resetting all account numbers and/or passwords. The passwords comprise a debugging account number and a debugging password, a doctor account number and a doctor password, and a patient account number and a patient password.

The product maintenance engineer has complete operation authority over all accounts and passwords, and is convenient for setting and operating equipment, and also convenient for helping doctors or patients to detect the equipment and retrieve the accounts and passwords.

After a product maintenance engineer debugs the implanted wireless intelligent electronic medical instrument and the external energy controller thereof, the equipment can be provided for doctors to use.

Authority of doctor

The doctor obtains the control right for the implanted wireless intelligent electronic medical instrument and the external energy controller thereof through the initial doctor account and the doctor password. That is, if the doctor account and the doctor password pass the authentication, the doctor obtains the authority to operate the external energy controller, and obtains the authority to operate the paired implanted wireless intelligent electronic medical apparatus through the external energy controller.

The password operation authority of the doctor comprises the steps of obtaining, modifying or resetting the patient account and the patient password, and modifying or resetting the doctor account and the doctor password.

The doctor can also perform the aforementioned password-independent operations, such as a treatment function operation.

Of course, if the account number and password entered by the doctor are not authenticated, the doctor should try to retrieve the password. In particular, the account number and password may be retrieved by a product maintenance engineer.

After a doctor formulates a treatment scheme for a patient, the doctor can set an implanted wireless intelligent electronic medical instrument and an external energy controller thereof aiming at the patient, and the implanted wireless intelligent electronic medical instrument and the external energy controller comprise an account number and a password of the patient. After the setting is finished, the implanted wireless intelligent electronic medical device can be implanted into the body of a patient, and the external energy controller is worn on the body of the patient or delivered to the patient to be arranged in a selected treatment place of the patient.

Of course, the patient's account number and password are preferably set by negotiation with the patient to facilitate patient memorization of the patient's account number and password.

Patient's rights

When treatment is needed, a patient implanted with the implanted wireless intelligent electronic medical instrument inputs a patient account and a patient password on the external energy controller, and after the authentication is passed, the patient obtains the control right of the implanted wireless intelligent electronic medical instrument and the external energy controller thereof. The patient can then initiate treatment and adjust the stimulation intensity. If the authentication is not passed, the patient needs to re-input the patient account and the patient password. If the patient account and the patient password cannot be authenticated, a doctor or a product maintenance engineer needs to be found to help acquire the patient account and the patient password or to help modify the patient account and the patient password.

Factory settings

Before the product leaves the factory, preliminary setting (namely factory setting) needs to be carried out so that a product maintenance engineer and a doctor can operate the implanted wireless intelligent electronic medical system.

Fig. 2 shows a factory setting flow chart of the implanted wireless intelligent electronic medical system according to the invention. And when the device is factory set, the debugging account number and the debugging password, and the doctor account number and the doctor password are stored in both the implanted wireless intelligent electronic medical instrument and the external energy controller. As shown in fig. 2:

the implanted wireless intelligent electronic medical instrument and the external energy controller thereof are firstly subjected to factory setting. This process is done by a product engineer before shipment. The setting process comprises the following steps: in step 000, the implantable wireless intelligent electronic medical device and the external energy controller thereof are provided and started.

Then, step 001 is executed, i.e. it is checked whether the implanted wireless intelligent electronic medical apparatus and the external energy controller thereof are in the initial state. For example, the screen of the external energy controller can display whether the implantable wireless intelligent electronic medical device and the external energy controller thereof are in the initial state.

If not, return to step 000. If the state is the initial state, step 002 is executed, namely, the debugging account number and the debugging password are set.

Then step 003 is executed, i.e. the doctor account number and the doctor password are set. The set doctor account and doctor password are the initial doctor account and doctor password, and all products can have the same initial doctor account and doctor password. After leaving the factory, the operating doctor can log in by using the initial doctor account and the doctor password at the moment and modify the doctor account and the doctor password selected by the doctor.

After the setting is completed, the equipment enters a 'selective login user interface' after being started, and the factory setting process is completed. At this time, the general passwords (no matter the debugging account number and the debugging password or the doctor account number and the initial doctor password) of each set of the implanted wireless intelligent electronic medical apparatus and the external energy controller thereof are universal. That is, each implantable wireless intelligent electronic medical device is interchangeable, and each external energy controller is also interchangeable. That is, any external energy controller can operate any implanted wireless intelligent electronic medical apparatus.

Operation method of implanted wireless intelligent electronic medical system

The first operation method of the implanted wireless intelligent electronic medical system of the invention is described below. The whole operation process comprises an operation process (debugging process) of a product maintenance engineer, a doctor operation process and a patient operation process.

Operation procedure (debugging procedure) of product maintenance engineer

Fig. 3 shows a flow chart of the debugging process of the implanted wireless intelligent electronic medical system according to the invention. As shown in fig. 3:

step 100, providing an implanted wireless intelligent electronic medical system according to claim 4, and starting up.

Step 101, selecting a product maintenance engineer option on a 'select login user' interface of the in vitro energy controller.

Step 102, inputting a debugging account number and a debugging password, and prompting to re-input if the account number or the password is wrong.

If the password authentication is passed, step 103 is executed to obtain the debugging authority and select the password operation or the operation unrelated to the password.

If the operation that is not related to the password is selected, step 104 is entered, and the operation that is not related to the password is executed (for example, the status of the implanted wireless intelligent electronic medical device and the external energy controller thereof or the setting of various treatment parameters is detected).

If a password operation is selected, step 105 is entered, the account type (product maintenance engineer, doctor or patient) is selected, and then the operation type is selected.

If "acquire" is selected, step 106 is entered, and the account number and password of the type determined in step 105 are acquired.

If "modify" is selected, step 107 is entered, and the account number and password of the type determined in step 105 are modified.

If reset is selected, step 108 is entered, resetting the account number and password of the type determined in step 105.

The above is the operation process of the product maintenance engineer.

Procedure of doctor

Fig. 4 shows a flow chart of the doctor's operation of the implanted wireless intelligent electronic medical system according to the invention. As shown in fig. 4:

in step 200, the implanted wireless intelligent electronic medical system is provided and started up. At this time, the external energy controller displays the selected login user. In step 201, the input user type is "doctor", and a doctor operation mode is entered.

At step 202, a doctor account number and a doctor password are entered. If the password is wrong, re-entry is prompted.

If the password authentication is passed, step 203 is entered, and the doctor operation authority is obtained, and the password operation or the operation unrelated to the password is selected.

If the operation that is not related to the password is selected, step 204 is entered, and the operation that is not related to the password is executed (for example, the status of the implanted wireless intelligent electronic medical device and the external energy controller thereof or the setting of various treatment parameters is detected).

If the password operation is selected, step 205 is entered, the account type (doctor or patient) is selected, and then the operation type is selected.

If "acquire" is selected, then step 206 is entered where the patient's account number and password are acquired.

If "modify" is selected, step 207 is entered and the account number and password of the type determined in step 205 are modified.

If reset is selected, step 208 is entered, resetting the account number and password of the type determined in step 205.

Procedure for patient

Fig. 5 shows a flow chart of patient operation of the implanted wireless intelligent electronic medical system according to the present invention. As shown in fig. 5:

step 300, providing an implanted wireless intelligent electronic medical system set by a doctor in an operation process, and starting up the system;

step 301, inputting a patient account and a patient password, and prompting to re-input if the password is wrong;

if the password authentication is passed, step 302 is entered, the operation authority of the patient is obtained, the stimulation intensity of the implanted wireless intelligent electronic medical apparatus is adjusted, and the implanted wireless intelligent electronic medical apparatus executes the treatment operation.

The invention also provides a second operation method of the implanted wireless intelligent electronic medical system. The method does not need to be debugged by an equipment maintenance engineer, namely, a doctor directly obtains a product which is subjected to factory setting.

The operation method of the other implantable wireless intelligent electronic medical system comprises the following doctor operation processes:

step 200', the implanted wireless intelligent electronic medical system set by a factory is started;

step 201 ', selecting a doctor option on a ' select login user ' interface of an in vitro energy controller;

step 202', inputting a doctor account and a doctor password, and prompting to re-input if the account or the password is wrong;

if the password passes the authentication, step 203' is entered, and the operation authority of the doctor is obtained, and the password operation or the operation unrelated to the password is selected;

if a password independent operation is selected, step 204' is entered, and password independent operations are performed, including: detecting the state of the implanted wireless intelligent electronic medical apparatus and the external energy controller thereof or setting various treatment parameters;

if the password operation is selected, entering step 205', selecting an account type, wherein the account type comprises a doctor or a patient, and then selecting an operation type;

if "acquire" is selected, then step 206 'is entered, where the patient's account number and password are acquired;

if "modify" is selected, step 207 'is entered, and the account and password of the type determined in step 205' are modified; and

if reset is selected, step 208 'is entered, resetting the account and password of the type determined in step 205'.

It can be seen that this method of operation is the same as that shown in figure 4, except that the commissioning process by the equipment maintenance engineer has not been undertaken.

The patient operation process of the operation method of the another implantable wireless intelligent electronic medical system is as follows:

step 300', providing an implanted wireless intelligent electronic medical system set by a doctor in an operation process, and starting up the system;

step 301', inputting a patient account and a patient password, and prompting to re-input if the password is wrong;

if the password authentication is passed, step 302' is entered, the operation authority of the patient is obtained, the stimulation intensity of the implanted wireless intelligent electronic medical apparatus is adjusted, and the implanted wireless intelligent electronic medical apparatus executes the treatment operation.

It can be seen that this method of operation is the same as that shown in figure 5, except that the commissioning process by the equipment maintenance engineer has not been previously undertaken.

According to the implanted wireless intelligent electronic medical system, digital safety authentication is performed between the implanted wireless intelligent electronic medical apparatus and the external energy controller which are matched with each other, the legality and authority standardization of the identity of an operator are ensured, and the uniqueness and legality of the control equipment are ensured, so that the system is prevented from being controlled by an illegal operator, or prevented from being operated by a patient, or prevented from being operated by other external energy controllers, and potential safety hazards are effectively avoided.

The foregoing descriptions of specific exemplary embodiments of the present invention have been presented for purposes of illustration and description. They are not intended to be exhaustive or to limit the invention to the precise forms disclosed, and obviously many modifications and variations are possible in light of the above teaching. The exemplary embodiments were chosen and described in order to explain certain principles of the invention and its practical application to enable others skilled in the art to make and use various exemplary embodiments of the invention and various alternatives and modifications as are suited to the particular use contemplated. It is intended that the scope of the invention be defined by the following claims and their equivalents.

Claims (11)

1. An implanted wireless intelligent electronic medical system comprises an implanted wireless intelligent electronic medical apparatus and an external energy controller which are mutually matched for use, wherein the implanted wireless intelligent electronic medical apparatus is used for being implanted into the body of a patient, the external energy controller is used for realizing the control and the control of the implanted wireless intelligent electronic medical apparatus through wireless communication,

the external energy controller is provided with a human-computer interaction device;

the embedded wireless intelligent electronic medical apparatus and the external energy controller are provided with a debugging account number and a debugging password, a doctor account number and a doctor password, and a patient account number and a patient password, so that the identity of an operator is authenticated and the legal authority of the operator is limited, meanwhile, the equipment matching legality of the embedded wireless intelligent electronic medical apparatus and the external energy controller is authenticated, and the identity of the operator comprises a product maintenance engineer, a doctor or a patient.

2. The implantable wireless intelligent electronic medical system according to claim 1, wherein the human-computer interaction device comprises a display screen and an input device for sending commands to the implantable wireless intelligent electronic medical device.

3. The implantable wireless intelligent electronic medical system of claim 2, wherein the input device is a key or a virtual key.

4. The implantable wireless intelligent electronic medical system according to claim 1, wherein the human-computer interaction device is an upper computer communication module, and the instructions are sent to the implantable wireless intelligent electronic medical device through the upper computer communication module by using an upper computer display screen and an input device.

5. The implantable wireless intelligent electronic medical system according to claim 1, wherein the implantable wireless intelligent electronic medical device has a security chip, and the security chip stores the debugging account and the debugging password, the doctor account and the doctor password, and the patient account and the patient password, and performs an account and password authentication function.

6. The implantable wireless intelligent electronic medical system according to any one of claims 1-5, wherein the commissioning account and commissioning password, the doctor account and doctor password are stored in both the implantable wireless intelligent electronic medical device and the in vitro energy controller after factory setup.

7. The operation method of the implanted wireless intelligent electronic medical system comprises the following debugging processes:

step 100, providing an implanted wireless intelligent electronic medical system according to claim 4, and starting up;

step 101, selecting a product maintenance engineer option on a 'selection login user' interface of an in vitro energy controller;

step 102, inputting a debugging account number and a debugging password, and prompting to re-input if the account number or the password is wrong;

if the password passes the authentication, step 103 is executed to obtain the debugging authority and select the password operation or the operation unrelated to the password;

if a password independent operation is selected, step 104 is entered to perform a password independent operation, including: detecting the state of the implanted wireless intelligent electronic medical apparatus and the external energy controller thereof or setting various treatment parameters;

if the password operation is selected, entering step 105, selecting an account type, wherein the account type comprises a product maintenance engineer, a doctor or a patient, and then selecting an operation type;

if the operation type is selected as 'acquisition', the method proceeds to step 106, and an account and a password of the type determined in step 105 are acquired;

if the operation type is selected as 'modification', the operation proceeds to step 107, and the account and the password of the type determined in step 105 are modified;

if the selection operation type is reset, step 108 is entered, and the account number and password of the type determined in step 105 are reset.

8. The method of operation of an implantable wireless intelligent electronic medical system of claim 7, further comprising the following physician-operated procedures:

step 200, providing an implanted wireless intelligent electronic medical system which is debugged, and starting up the system;

step 201, selecting a doctor option on a 'select login user' interface of an in vitro energy controller;

step 202, inputting a doctor account and a doctor password, and prompting to re-input if the account or the password is wrong;

if the password passes the authentication, step 203 is entered, the doctor operation authority is obtained, and the password operation or the operation unrelated to the password is selected;

if a password independent operation is selected, step 204 is entered and a password independent operation is performed, including: detecting the state of the implanted wireless intelligent electronic medical apparatus and the external energy controller thereof or setting various treatment parameters;

if the password operation is selected, entering step 205, selecting an account type, wherein the account type comprises a doctor or a patient, and then selecting an operation type;

if "acquire" is selected, go to step 206, acquire the patient's account and password;

if "modify" is selected, go to step 207, modify the account and password of the type determined in step 205; and

if reset is selected, step 208 is entered, resetting the account number and password of the type determined in step 205.

9. The method of operation of an implantable wireless intelligent electronic medical system of claim 8, further comprising the following patient operational procedures:

step 300, providing an implanted wireless intelligent electronic medical system set by a doctor in an operation process, and starting up the system;

step 301, inputting a patient account and a patient password, and prompting to re-input if the password is wrong;

if the password authentication is passed, step 302 is entered, the operation authority of the patient is obtained, the stimulation intensity of the implanted wireless intelligent electronic medical apparatus is adjusted, and the implanted wireless intelligent electronic medical apparatus executes the treatment operation.

10. The operation method of the implanted wireless intelligent electronic medical system comprises the following doctor operation processes:

step 200', providing an implanted wireless intelligent electronic medical system according to claim 4, and starting up;

step 201 ', selecting a doctor option on a ' select login user ' interface of an in vitro energy controller;

step 202', inputting a doctor account and a doctor password, and prompting to re-input if the account or the password is wrong;

if the password passes the authentication, step 203' is entered, and the operation authority of the doctor is obtained, and the password operation or the operation unrelated to the password is selected;

if a password independent operation is selected, step 204' is entered, and password independent operations are performed, including: detecting the state of the implanted wireless intelligent electronic medical apparatus and the external energy controller thereof or setting various treatment parameters;

if the password operation is selected, entering step 205', selecting an account type, wherein the account type comprises a doctor or a patient, and then selecting an operation type;

if "acquire" is selected, then step 206 'is entered, where the patient's account number and password are acquired;

if "modify" is selected, step 207 'is entered, and the account and password of the type determined in step 205' are modified; and

if reset is selected, step 208 'is entered, resetting the account and password of the type determined in step 205'.

11. The method of operation of an implantable wireless intelligent electronic medical system of claim 10, further comprising the following patient operational procedures:

step 300', providing an implanted wireless intelligent electronic medical system set by a doctor in an operation process, and starting up the system;

step 301', inputting a patient account and a patient password, and prompting to re-input if the password is wrong;

if the password authentication is passed, step 302' is entered, the operation authority of the patient is obtained, the stimulation intensity of the implanted wireless intelligent electronic medical apparatus is adjusted, and the implanted wireless intelligent electronic medical apparatus executes the treatment operation.

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