阅读说明：本技术 电针治疗系统及其数据优化方法 (Electric needle treatment system and data optimization method thereof ) 是由 周浩 于 2019-09-10 设计创作，主要内容包括：本发明公开了一种电针治疗系统及其数据优化方法,涉及中医诊疗设备技术领域,通过病人端设备录入患者的治疗前评估数据信息,基于评估设备和/或智能运算设备的AI算法程序,得到进一步的问询信息或诊断信息,根据病人端设备的输入数据不断完善治疗前评估数据,最终结合数据库中的历史数据信息,生成适于用户的诊断信息并利用刺激波定制设备将其转变为治疗方案信息,经医生等专业人员确认后发送至病人端设备,而后利用刺激设备作用于人体,上述过程可以实现数据的持续优化,最终针对于不同的个体产生不同的治疗方案数据,对于医学研究分析以及后期治疗均具有重大意义。(The invention discloses an electric needle treatment system and a data optimization method thereof, relating to the technical field of traditional Chinese medicine diagnosis and treatment equipment, the pretreatment evaluation data information of the patient is input through the patient end equipment, further inquiry information or diagnosis information is obtained based on the AI algorithm program of the evaluation equipment and/or the intelligent operation equipment, continuously improving the evaluation data before treatment according to the input data of the patient end equipment, finally combining the historical data information in the database to generate diagnosis information suitable for the user, converting the diagnosis information into treatment scheme information by utilizing stimulus wave customization equipment, sending the treatment scheme information to the patient end equipment after being confirmed by professionals such as doctors and the like, and then, the stimulation equipment is utilized to act on the human body, the continuous optimization of data can be realized in the process, different treatment scheme data are finally generated aiming at different individuals, and the method has great significance for medical research analysis and later treatment.)

1. An electric needle treatment system is characterized by comprising a patient end device (1), an evaluation device (2), an intelligent operation device (3), a stimulus wave customization device (4), a stimulation device (5), a management end device (6) and a database (7) which are connected through a communication network (8); wherein the content of the first and second substances,

the patient end equipment (1) is used for collecting and inputting evaluation data information before and after treatment of a user and sending the evaluation data information to the evaluation equipment (2); receiving and displaying the inquiry information output by the evaluation device (2); receiving treatment scheme information output by the stimulation wave customizing device (4) and/or the management terminal device (6), and sending the treatment scheme information to the stimulation device (5) through user authorization or directly;

the evaluation equipment (2) is used for prompting the patient end equipment (1) to collect and/or receive evaluation data information output by the patient end equipment (1), generating corresponding inquiry information based on an algorithm program configured in the patient end equipment and/or the intelligent operation equipment (3) and sending the inquiry information to the patient end equipment (1);

the intelligent operation device (3) receives evaluation data information from the patient end device (1) and/or the evaluation device (2), generates inquiry information or diagnosis information based on a built-in set algorithm program, the inquiry information is output to the patient end device (1), and the diagnosis information is output to the stimulation wave customization device (4) after being confirmed directly or through an administration end;

the stimulus wave customizing device (4) is used for receiving the diagnosis information output by the intelligent operation device (3), generating corresponding treatment scheme information, and outputting the treatment scheme information to the management terminal device (6) or outputting the treatment scheme information to the patient terminal device (1) after the treatment scheme information is confirmed by the management terminal device (6);

the stimulation device (5) is used for receiving the treatment scheme information transmitted by the patient end device (1), converting the treatment scheme information into stimulation action acting on the human body according to a set algorithm after the treatment scheme information is confirmed by the patient end device (1);

the management terminal equipment (6) receives the treatment scheme information output by the stimulus wave customizing equipment (4), judges and confirms the feasibility of the treatment scheme contained in the treatment scheme information according to the operation of a manager, and outputs the treatment scheme information to the patient terminal equipment (1) or outputs confirmation information to the stimulus wave customizing equipment (4) if the treatment scheme information is feasible;

and the database (7) is used for receiving and storing various data information and various setting algorithm data output by various devices.

2. The electrical needle treatment system according to claim 1, characterized in that the patient-side device (1), the evaluation device (2), the administration-side device (6) and the stimulus wave customization device (4) are configured as a tablet, a computer, a mobile smart device with an application program interface for interacting with a user;

the application program interface is configured to interact with other built-in functional components of the corresponding device and external devices.

3. Electric needle treatment system according to claim 2, characterized in that the patient end device (1) is provided with an initialization program module inside, and is configured to be used for data connection with an external device and obtaining an interactive interface for inputting initial data information.

4. Electro-acupuncture treatment system as claimed in claim 1, characterized in that the patient end equipment (1) is configured with sensors for identifying patient identity information and identity recognition program modules.

5. Electro-acupuncture treatment system according to claim 1, characterized in that a guiding program module for guiding a user to use the evaluation device (2) is built in the patient end device (1).

6. Electro-needle therapy system according to claim 1, characterized in that said database (7) comprises:

the relation data storage area is used for storing manually input relation data;

an evaluation data information storage area for storing evaluation data information from the patient-side device (1) and/or the evaluation device (2);

the algorithm program storage area is used for storing related intelligent algorithm program modules;

a treatment data information storage area for storing treatment data information of each user;

and the system operation data storage area is used for storing the operation data information of the system.

7. The electrical needle treatment system according to claim 1,

the network (8) is configured as a local area network, a wide area network, a storage area network or a combination thereof, and the communication method among the networks (8) is configured as WiFi communication, Ethernet communication, Bluetooth communication or optical fiber communication;

the patient end equipment (1) transmits data to other equipment in an encrypted format through the network (8).

8. A method for optimizing data of an electrical needle therapy system, comprising:

establishing a network (8) connection between the devices;

based on the evaluation data information of the user before or after treatment acquired by the patient-side equipment (1);

generating diagnosis information according to an algorithm program built in the evaluation device (2) and/or the intelligent operation device (3);

the stimulation wave customizing device (4) receives the diagnosis information and generates corresponding treatment scheme information according to a built-in setting algorithm;

selecting whether to transmit the treatment scheme information to the patient end equipment (1) according to the confirmation result of the management end equipment (6) on the treatment scheme corresponding to the treatment scheme information;

the stimulation device (5) receives the treatment scheme information transmitted by the patient end device (1), and converts the treatment scheme information into stimulation action acting on the human body according to a set algorithm after the treatment scheme information is confirmed by the patient end device (1);

and generating new inquiry information or diagnosis information based on the evaluation data information of the patient after treatment acquired by the patient end equipment (1) according to the algorithm program built in the evaluation equipment (2) and/or the intelligent operation equipment (3).

9. The data optimization method of the electric needle treatment system according to claim 8, wherein the pre-treatment or post-treatment evaluation data information of the user collected based on the patient end equipment (1) comprises:

the evaluation equipment (2) receives the evaluation data information before treatment output by the patient end equipment (1), judges whether the information needs to be further supplemented or not based on an algorithm program configured in the evaluation equipment and/or the intelligent operation equipment (3), and generates corresponding inquiry information and sends the inquiry information to the patient end equipment (1) if the information needs to be further supplemented;

the patient end equipment (1) receives the inquiry information and outputs the improved evaluation data information before treatment according to the operation of the user.

10. The data optimization method of the electric needle treatment system according to claim 8, wherein the generating of the diagnosis information according to the algorithm program built in the evaluation device (2) and/or the intelligent operation device (3) comprises:

based on the current evaluation data information, a relevant set algorithm program module in a database (7) and historical evaluation data information relevant to the current evaluation data information are called, and new diagnosis information is generated and transmitted to the management terminal equipment (6).

Technical Field

The invention relates to the technical field of traditional Chinese medicine diagnosis and treatment equipment, in particular to an electric needle treatment system and a data optimization method thereof.

Background

Acupuncture originated in China and is now widely used worldwide, and traditional Chinese medicine holds that acupuncture can stimulate and relieve pain and discomfort. Acupuncture has also been documented in the act of h.r.6105, filed 24 months 10 in 2018, as a treatment for pain.

In addition to inserting the needle into the body, the physician also uses an electrical needle with an electrode plate attached to it to stimulate the body with varying electrical wave currents, which is much more effective than fixed frequency current stimulation. In recent years, electro-acupuncture has become a more and more popular means for enhancing analgesic effect and suppressing anxiety in various pain situations.

However, since there is a difference in the body characteristics of each person, different persons are suitable for different frequencies and different intensities of electrical stimulation, and it is very important to continuously obtain accurate data in the electrical acupuncture treatment for evidence-based medical research and electrical acupuncture treatment.

Disclosure of Invention

In the process of electric needle treatment, different individuals are suitable for electric stimulation with different frequencies and intensities, and in the prior art, the electric needle treatment scheme is fixed and single, so that the treatment effect is reduced, and even side effects are possibly generated. Therefore, an objective of the present invention is to provide an electrical needle therapy system, which can continuously optimize and adjust the therapy scheme according to individual differences, such as adjusting the frequency and intensity parameters of electrical needle stimulation, and finally confirm the therapy scheme most suitable for the individual patient, thereby improving the effect of electrical needle therapy. Based on the electric needle treatment system, the second objective of the present invention is to provide a data optimization method for an electric needle treatment system, which can take the big data, the input of the individual patient and the administrator as the optimization conditions, and finally confirm the optimal scheme parameters for the electric needle treatment system to use, wherein the specific scheme is as follows:

an electric needle treatment system comprises patient end equipment, evaluation equipment, intelligent operation equipment, stimulus wave customization equipment, stimulus equipment, management end equipment and a database which are connected through a network; wherein the content of the first and second substances,

the patient end equipment is used for acquiring and inputting evaluation data information before and after treatment of the user and sending the evaluation data information to the evaluation equipment; receiving and displaying inquiry information output by the evaluation equipment; receiving treatment scheme information output by the stimulation wave customizing device and/or the management terminal device, and sending the treatment scheme information to the stimulation device after authorization of a user or directly;

the evaluation equipment is used for prompting the evaluation data information acquired and/or received by the patient end equipment through the patient end equipment, generating corresponding inquiry information based on an algorithm program configured in the patient end equipment and/or the intelligent operation equipment and sending the inquiry information to the patient end equipment;

the intelligent operation device receives evaluation data information from the patient end device and/or the evaluation device, generates inquiry information or diagnosis information based on a built-in set algorithm program, the inquiry information is output to the patient end device, and the diagnosis information is output to the stimulus wave customization device directly or after being confirmed by the management end;

the stimulus wave customizing device is used for receiving the diagnosis information output by the intelligent operation device, generating corresponding treatment scheme information, and outputting the treatment scheme information to the management terminal device or outputting the treatment scheme information to the patient terminal device after the treatment scheme information is confirmed by the management terminal device;

the stimulation device receives the treatment scheme information transmitted by the patient end device, and converts the treatment scheme information into stimulation action acting on the human body according to a set algorithm after the treatment scheme information is confirmed by the patient end device;

the management terminal device receives the treatment scheme information output by the stimulus wave customizing device, judges and confirms the feasibility of the treatment scheme contained in the treatment scheme information according to the operation of a manager, and outputs the treatment scheme information to the patient terminal device or outputs confirmation information to the stimulus wave customizing device if the treatment scheme information is feasible;

and the database receives and stores various data information and various set algorithm data output by various devices.

According to the technical scheme, the self condition of the user can be fully evaluated before the electric acupuncture treatment is carried out by the user, then the intelligent operation equipment and the evaluation equipment generate the treatment scheme information suitable for the user according to the evaluation data information and/or the historical evaluation data information before the treatment, and the treatment scheme information is continuously optimized in the subsequent treatment or data processing according to the feedback of the patient end equipment, so that a set of targeted treatment scheme suitable for the user is finally generated, and the treatment effect of the electric acupuncture treatment system is greatly improved.

Further, the patient end device, the evaluation device, the management end device and the stimulus wave customization device are configured to be a tablet computer, a computer and a mobile intelligent device with an application program interface for interacting with a user;

the application program interface is configured to interact with other built-in functional components of the corresponding device and external devices.

Through above-mentioned technical scheme, can reduce the restriction that the environment used to above-mentioned system, the user can use simple and convenient at home or other places.

Further, an initialization program module is arranged in the patient-side equipment and is configured to be used for being connected with external network data and obtaining an interactive interface for inputting initial data information.

Through the technical scheme, the user can conveniently register or log in and input initial data information.

Further, the patient-end equipment is provided with a sensor for identifying the identity information of the patient and an identity identification program module.

Through above-mentioned technical scheme, can promote the security of system, avoid other people to use above-mentioned system to cause the interference to the treatment.

Further, a guiding program module for guiding a user to use the evaluation equipment is built in the patient-end equipment.

Through the technical scheme, a user of the patient end equipment can quickly learn to use the evaluation equipment, and the use difficulty of the system is reduced.

Further, the database includes:

the relation data storage area is used for storing manually input relation data;

the evaluation data information storage area is used for storing evaluation data information from the patient-side equipment and/or the evaluation equipment;

the algorithm program storage area is used for storing related intelligent algorithm program modules;

a treatment data information storage area for storing treatment data information of each user;

and the system operation data storage area is used for storing the operation data information of the system.

Further, the network is configured as a local area network, a wide area network, a storage area network or a combination thereof, and the inter-network communication method is configured as WiFi communication, ethernet communication, bluetooth communication, optical fiber communication;

and the patient end equipment transmits data to other equipment in an encrypted format through the network.

Through the technical scheme, the authenticity and the privacy of the data input by the patient end equipment can be ensured.

A method of data optimization for an electrical needle treatment system, comprising:

establishing network connection among all devices;

based on the evaluation data information of the patient before or after treatment acquired by the patient-side equipment;

generating diagnosis information according to an algorithm program built in the evaluation equipment and/or the intelligent operation equipment;

the stimulation wave customizing device receives the diagnosis information and generates corresponding treatment scheme information according to a built-in set algorithm;

selecting whether to transmit the treatment scheme information to the patient end equipment or not according to the confirmation result of the management end equipment on the treatment scheme corresponding to the treatment scheme information;

the stimulation equipment receives the treatment scheme information transmitted by the patient end equipment, and converts the treatment scheme information into stimulation action acting on the human body according to a set algorithm after the treatment scheme information is confirmed by the patient end equipment;

and generating new inquiry information or diagnosis information based on the evaluation data information of the patient end equipment after treatment, which is acquired by the patient end equipment, according to an algorithm program built in the evaluation equipment and/or the intelligent operation equipment.

Through the technical scheme, the treatment scheme information of the patient can be continuously optimized, and the accuracy of later-stage data analysis is improved.

Further, the information of the user pre-treatment or post-treatment evaluation data collected by the patient-side equipment includes:

the evaluation equipment receives the evaluation data information before treatment output by the patient end equipment, judges whether the information needs to be further supplemented or not based on an algorithm program configured in the evaluation equipment and/or the intelligent operation equipment, and generates corresponding inquiry information and sends the inquiry information to the patient end equipment if the information needs to be further supplemented;

the patient end equipment receives the inquiry information and outputs the improved evaluation data information before treatment according to the operation of the user.

Through the technical scheme, the user can continuously improve the input evaluation data information before treatment in a guiding mode, the evaluation equipment and/or the intelligent operation equipment can analyze the data, and the generated diagnosis information is more accurate.

Further, the generating of the diagnostic information according to the algorithm program built in the evaluation device and/or the intelligent operation device includes:

and calling a related set algorithm program module in the database and historical evaluation data information related to the current evaluation data information based on the current evaluation data information, generating new diagnosis information and transmitting the new diagnosis information to the management terminal equipment.

Compared with the prior art, the invention has the following beneficial effects:

the method comprises the steps of inputting evaluation data information of a patient before treatment through patient end equipment, obtaining further inquiry information or diagnosis information based on an AI algorithm program of the evaluation equipment and/or intelligent operation equipment, continuously improving the evaluation data before treatment according to input data of the patient end equipment, finally generating diagnosis information suitable for a user by combining historical data information in a database, converting the diagnosis information into treatment scheme information, sending the treatment scheme information to the patient end equipment after being confirmed by professionals such as doctors, and then acting on a human body by utilizing stimulation equipment.

Drawings

FIG. 1 is a system block diagram of an electrical needle treatment system of the present application;

FIG. 2 is a diagram illustrating a connection relationship and data transmission among devices according to an embodiment of the present invention;

fig. 3 is a method diagram of the data optimization method of the electric needle treatment system of the invention.

Reference numerals: 1. a patient-end device; 2. evaluating the device; 3. an intelligent computing device; 4. a stimulus wave customization device; 5. a stimulation device; 6. a management-side device; 7. a database; 8. a network.

Detailed Description

In the following description, for purposes of explanation, specific details are set forth in order to provide a thorough understanding of the present invention. The embodiments of the present application described below may be applied to or incorporated into various components such as programs, circuits, devices, and systems. The structures and components shown in block diagrams are schematic illustrations of specific embodiments of the application, it being understood that the connections between the components in the figures are not limited to direct connections, but may be modified, redefined, or otherwise altered by intervening components. Furthermore, those skilled in the art will recognize that the embodiments of the invention described below may be implemented or embodied in a wide variety of ways, such as method flows, devices, and systems.

Connections between components or systems in the figures are not limited to direct connections only, and data between these components may be modified, reformatted or otherwise altered by intervening components. Additional or fewer connections may also be used. It should also be noted that the term coupled should be understood to include direct connections, indirect connections through one or more intervening devices, and wireless connections.

Reference in the specification to one embodiment, multiple embodiments, or a particular embodiment means that a particular feature, structure, characteristic, or function described in connection with at least one embodiment of the invention is included in multiple embodiments. Moreover, the appearances of the foregoing phrases in various places in the specification are not necessarily all referring to the same embodiment.

Embodiments of the present application are seen in fig. 1 to 3. Specific embodiments of the present electric needle treatment system will be described in terms of various structural and functional components. It will be appreciated by those skilled in the art that the above-described embodiments may be implemented in a variety of environments, including, but not limited to, hospitals, home care, nursing homes, rehabilitation centers, and the like.

Fig. 1 is a system framework diagram of an embodiment of the electric needle treatment system of the present application, which mainly includes a patient end device 1, an evaluation device 2, an intelligent operation device 3, a stimulation wave customization device 4, a stimulation device 5, a management end device 6 and a database 7 connected through a network 8.

The patient end equipment 1 is used for collecting and inputting evaluation data information before and after treatment of a user and sending the evaluation data information to the evaluation equipment 2; receiving and displaying the inquiry information output by the evaluation device 2; the treatment scheme information output by the stimulation wave customizing device 4 and/or the management end device 6 is received and is sent to the stimulation device 5 through authorization of a user or directly.

In the present application, the patient-side device 1, the evaluation device 2, the management-side device 6 and the stimulus wave customization device 4 may be practically a tablet computer, a smart phone or other electronic devices, and have an Application Program Interface (API) for interacting with a user, and the API may interact with other components in the device, such as a touch screen, a keyboard and a sensor, and even other external devices.

In particular, the patient-side device 1 may be a self-measuring device or an assistant-measuring device, such as an automatic blood pressure meter, an automatic blood glucose meter, etc., which automatically collects or enters information of pre-treatment evaluation data of the user, or may be a device operated by the user himself, a caregiver, or a person who has not been trained before.

The patient-side device 1 is internally provided with an initialization program module configured as an interactive interface for data connection with external equipment and obtaining and inputting initial data information, such as user personal name information, age information and the like.

In some embodiments, patient-side device 1 may be configured as a smartphone with an associated application installed, which may be downloaded via a download link provided by a medical service provider, such as a hospital, and the downloadable link may be sent to the user's smartphone once the user registers or logs in. The user can then download, install, and execute instructions from the cell phone app.

In practice, after registration and authentication of the patient, the PRO data, i.e. the data of the disease and/or the result of treatment thereof reported by the user, can be input to the patient-side device 1. The user can use various communication and recording modes, such as data recording in the form of a questionnaire sent by a mobile phone or data recording by voice. The patient-side device 1 can communicate the PRO data in a wired or wireless communication manner via the network 8.

In the present application, the network 8 may be a Local Area Network (LAN), a Wide Area Network (WAN), a Storage Area Network (SAN), or a combination thereof. The network 8 may be configured to support various communication methods including, but not limited to, WiFi communication, ethernet communication, bluetooth communication, fiber optic communication, and the like.

In some embodiments, the patient-side device 1 may transmit data to other devices in an encrypted format via the network 8.

In the application, the evaluation device 2 prompts the patient end device 1 to acquire and/or receive evaluation data information output by the patient end device 1, generates corresponding inquiry information based on the algorithm program configured in the patient end device and/or the intelligent operation device 3, and sends the inquiry information to the patient end device 1.

The query information may comprise a data request and/or a question, and the evaluation device 2 may generate a further request question based on the data received from the patient-side device 1. For example, in practice, the patient is asked whether a part of the body is painful, and if the received data returned by the patient-side device 1 is a positive answer, then a question related to pain, such as a pain level or a more specific part of pain, is further generated. The above problem is generated and transmitted to the patient-side device 1.

In the present application, the algorithm program applied to the evaluation device 2 may be stored in the evaluation device 2 itself or in the intelligent arithmetic device 3. Generally, for some simple pre-treatment evaluation data information output by the patient-side device 1, an algorithm program built in the evaluation device 2 may be used to realize evaluation and output corresponding query information, and for some complex pre-treatment evaluation data information, the data information needs to be transmitted to the intelligent operation device 3 for complex operation. In a specific embodiment, the intelligent computing device 3 may be configured in a cloud, and the evaluation device 2 is in data communication with the intelligent computing device 3 through the network 8.

The intelligent operation device 3 is configured with a set program algorithm, which generally includes an AI program algorithm, receives the evaluation data information from the patient end device 1 and/or the evaluation device 2, generates inquiry information or diagnostic information based on a built-in set algorithm program, the inquiry information is output to the patient end device 1, and the diagnostic information is output to the stimulus wave customization device 4 directly or after being confirmed by the management end.

Further, the generation of the above-described inquiry information or diagnostic information may be realized using an Artificial Intelligence (AI) -based intelligent operation device 3 program. The artificial intelligence based algorithm module may comprise software and/or hardware, including a program or combination of instructions. The generated request and/or question is transmitted back to the patient-side device 1 so that the patient can enter more data information accordingly. The generated evaluation data information is transmitted to the management-side device 6 for reference.

In some embodiments, the diagnostic information is generated using an AI program with an evolutionary algorithm built in. The AI program for generating diagnostic information and the AI program for generating further query information may share the same hardware, but use different software modules. The intelligent computing device 3 may be a centralized server or a cloud-based server.

In some embodiments, at least one of the evaluation devices 2 corresponds to the patient-side device 1 and/or the administration-side device 6. The user is prompted to use the evaluation device 2 to perform some self-measurements or auxiliary measurements via the patient-end device 1. The assessment can be requested by the doctor, and the intelligent computing device 3 generates corresponding inquiry information according to the assessment data information input by the user and finally sends the inquiry information to the patient-side device 1.

In some embodiments, in order to facilitate the user to become familiar with and operate the above-mentioned evaluation device 2, a guidance program module for guiding the user to use the evaluation device 2 is built in the patient-end device 1, i.e. related applications can be loaded in the patient-end device 1 to guide the use of the evaluation device 2. In some embodiments, a variety of application program modules may be configured, including program modules with augmented reality functionality, to ensure that the user is using assessment device 2 correctly. The collected evaluation data can be transmitted from the patient end equipment 1 and/or the evaluation equipment 2 to the intelligent operation equipment 3 and the management end equipment 6 as a reference for further operation.

In the present application, the stimulus wave customization device 4 receives the diagnostic information output by the intelligent operation device 3, generates corresponding treatment plan information, and outputs the treatment plan information to the management terminal device 6 or outputs the treatment plan information to the patient terminal device 1 after being confirmed by the management terminal device 6.

In detail, the stimulation wave customization device 4 receives evaluation data of the intelligent computing device through the network 8 to customize a specific stimulation wave suitable for a patient, including specific pulse parameters, such as stimulation time, frequency, voltage, current, stimulation wave shape, and combinations thereof. The specific pulse parameters are provided for the management end equipment 6 to be confirmed and then transmitted to the patient end equipment 1 to start or end stimulation, and the database 7 stores the data.

In practice, the stimulation device 5 receives the treatment plan information transmitted by the patient end device 1, and converts the treatment plan information into a stimulation action acting on the human body according to a set algorithm after the treatment plan information is confirmed by the patient end device 1. The stimulation device 5 may comprise a programmed power generator for outputting stimulation waves of set parameters. The output end of the program control power supply generator is connected with the acupuncture needle through conductive materials, and the conductive materials include but are not limited to wires, conductive patches, conductive clips and the like.

The stimulation wave customizing device 4 is in data connection with the patient end device 1 through a wired or wireless network 8, and the treatment scheme information is transmitted to the stimulation wave customizing device 4 by using the patient end device 1 and the action of the stimulation wave customizing device 4 is controlled.

In some embodiments, the patient-side device 1 securely transmits information in encrypted form to ensure privacy and authenticity of the user input data, and the evaluation data collected from the evaluation device 2 is transmitted in the same manner. The encrypted communication may be achieved by using security functions embedded in the hardware and/or software of the patient-end device 1, which may enable the security functions when transmitting and storing sensitive data.

In some embodiments, patient-side device 1 includes a sensor for collecting information related to the identity of the user, which information may be used for identification and/or authentication of the user. The sensor may be a fingerprint sensor, an iris scanner, or the like. In some embodiments, the sensor may be a camera or a microphone. Patient-side device 1 performs facial or voice recognition via a camera or microphone using pre-loaded software for identification and/or authentication.

In some embodiments, patient-side device 1 is a smartphone, tablet or laptop computer, etc. that has installed an automated service program that can be downloaded via a download link provided by a medical service provider, such as a hospital, that is provided to the user at the time of registration of the user. After the installation is completed, an Application Program Interface (API) is displayed on the screen of the patient-side device 1 to guide the patient to start the automatic service. Such automated services include, but are not limited to: detection data of each instrument for detecting the body parameters of the user is automatically acquired and sent to the evaluation device 2.

In the present application, the management-side device 6 receives the treatment plan information output by the stimulus wave customization device 4, determines and confirms the feasibility of the treatment plan included in the treatment plan information according to the operation of the administrator, and outputs the treatment plan information to the patient-side device 1 or outputs confirmation information to the stimulus wave customization device 4 if the treatment plan information is feasible. The administration end device 6 is preferably configured to a doctor or a caregiver having an associated medical experience.

The database 7 receives and stores various data information and various setting algorithm data output by various devices.

In detail, the database 7 mainly comprises: and a relation data storage area for storing manually inputted relation data including a user ID and correspondence data thereof with information such as evaluation data information, diagnosis information, treatment plan information, and the like. An evaluation data information storage area for storing evaluation data information from the patient-side device 1 and/or the evaluation device 2; an algorithm program storage area for storing related intelligent algorithm program modules; a treatment data information storage area for storing treatment data information of respective users; and the system operation data storage area is used for storing operation data information of the system.

In the above embodiments, there are mainly 3 data sources in the database 7. The first source is manually entered data, the second source is data for the stimulus wave customization device 4, and the third source is data for system usage and machine learning. The devices are coupled for information exchange by wired or wireless connections through one or more networks 8.

It should be noted that each of the above devices may be configured as a component containing various functions, and some devices may be integrated together as one device, for example, a user end device and the evaluation device 2 are integrated in an intelligent mobile terminal, and application software or APP may be installed on the devices to realize the required functions.

Fig. 2 shows data connection and transmission relationship among the devices, Ope1 in fig. 2 indicates that the patient-side device 1 downloads data through a download link provided by a medical service provider such as a hospital, Ope2 indicates that the patient-side device 1 performs registration or entry work, and Ope3 indicates that PRO data is downloaded. Data1 represents assessment Data information before treatment, Data2 represents query information, Data3 represents diagnosis information, and Data4 represents treatment protocol information.

Based on the electric needle treatment system, the invention also provides a data optimization method of the electric needle treatment system. Before describing the above method steps, one skilled in the relevant art will recognize that:

the following steps may be optionally performed;

the following steps are not limited to the specific order specified herein;

the following steps may be performed in a different order;

the following steps may be performed simultaneously.

In this application, as shown in fig. 3, the data optimization method of the electrical needle treatment system mainly includes:

s1, establishing network 8 connection among the devices;

s2, based on the user assessment data information before or after treatment collected by the patient end equipment 1;

s3, generating diagnosis information according to the algorithm program built in the evaluation equipment 2 and/or the intelligent operation equipment 3;

s4, the stimulation wave customizing device 4 receives the diagnosis information and generates corresponding treatment scheme information according to a built-in setting algorithm;

s5, selecting whether to transmit the treatment plan information to the patient-side device 1 according to the confirmation result of the management-side device 6 on the treatment plan corresponding to the treatment plan information;

s6, the stimulation device 5 receives the treatment scheme information transmitted by the patient end device 1, and converts the treatment scheme information into stimulation action acting on the human body according to a set algorithm after the treatment scheme information is confirmed by the patient end device 1;

s7, generating new inquiry information or diagnosis information based on the post-treatment evaluation data information of the user collected by the patient-side device 1 and according to the algorithm program built in the evaluation device 2 and/or the intelligent operation device 3.

After the step S7 is completed, the subsequent treatment execution steps can be started from step S3, and certainly, the patient-side device 1 can also continue to supplement the relevant data from step S2.

In the step S1, a network 8 connection between the devices is established, where the network 8 may be a Local Area Network (LAN), a Wide Area Network (WAN), a Storage Area Network (SAN), or a combination thereof, and the data communication mode may flexibly adopt the following modes as required: including but not limited to WiFi communication, ethernet communication, bluetooth communication, fiber optic communication. It should be noted that the connection of the network 8 between the devices is not required to be complete in the initial state, for example, when the intelligent computing device 3 is required, the evaluation device 2 and the intelligent computing device 3 are connected. Of course, it is also possible to make the connections all at once.

The step S2, based on the pre-treatment or post-treatment evaluation data information of the user collected by the patient-side device 1, includes:

s21, the assessment device 2 receives the pre-treatment assessment data information output by the patient end device 1, judges whether the information needs to be further supplemented or not based on the self and/or algorithm program configured in the intelligent operation device 3, and if the information needs to be further supplemented, generates corresponding inquiry information and sends the inquiry information to the patient end device 1;

s22, the patient terminal device 1 receives the inquiry information and outputs the completed evaluation data information before treatment according to the user' S operation.

Through the steps, the patient end equipment 1 can continuously improve the evaluation data information before treatment according to the prompt, so that the diagnosis information generated by the intelligent operation equipment 3 at the later stage is more accurate, and the generated treatment scheme information is more suitable for patients. Similarly, the intelligent operation device 3 can also utilize the built-in machine learning software to further improve the built-in algorithm according to the data recorded by the patient-side device 1, so as to facilitate the generation of inquiry information with pertinence in the later period.

The step S3 is to generate the diagnostic information according to the algorithm program built in the evaluation device 2 and/or the intelligent computing device 3, and includes:

and S31, based on the current evaluation data information, calling the relevant set algorithm program module in the database 7 and the historical evaluation data information relevant to the current evaluation data information, generating new diagnosis information and transmitting the new diagnosis information to the management terminal device 6. By the above scheme, the intelligent operation device 3 can refer to the historical data information in the database 7 when generating corresponding diagnosis information, thereby making the most accurate diagnosis.

In step S4, the stimulus wave customizing device 4 receives the diagnosis information, which is expressed in a form that can be recognized by a user or a manager (doctor, caregiver, or the like) in practice, for example, a written description, and generates corresponding treatment plan information in a form that cannot be directly applied to the human body according to a setting algorithm built therein, and in this case, the diagnosis information needs to be converted into treatment plan information, which is expressed in a form that can be recognized by the stimulus device 5 and the manager, such as the time length, frequency, waveform, and the like of the stimulus wave, as described above.

It should be understood that before executing the above step S2, in order to obtain the relevant interactive interface, the patient-side device 1 may download the relevant application program through a download link provided by a medical service provider, such as a hospital, and then perform registration and login.

The method for optimizing the data of the electric needle treatment system can be summarized as follows: the network 8 connection among all the devices is established, and the patient-side device 1 such as a smart phone downloads an interactive interface program through a download link provided by the hospital or the related nursing institution, and the interactive interface program can be connected with other external devices. The method comprises the steps that a user inputs own information according to a prompt, wherein the information comprises personal information, disease information corresponding to the person, physical condition description information and the like, the information is called pre-treatment evaluation data information, the pre-treatment evaluation data information is sent to an evaluation device 2, the evaluation device 2 processes the pre-treatment evaluation information based on a built-in set algorithm program and/or an algorithm program of an intelligent operation device 3, if the pre-treatment evaluation data information is complete, diagnosis information is generated according to the pre-treatment evaluation data information, if the pre-treatment evaluation data information is incomplete, corresponding inquiry information is generated and transmitted to a patient end device 1, and the user continues to complete related evaluation data according to the prompt until the diagnosis information is generated. The data in the above-mentioned interaction process are stored in the database 7.

The generated diagnosis information is sent to the management terminal device 6 and the patient terminal device 1 for reference, and is sent to the stimulation wave customizing device 4 to generate corresponding treatment scheme information, namely, the duration, frequency, waveform and the like of the stimulation waves on the electric needles. The treatment plan information is sent to the management terminal device 6 for confirmation, if the management terminal considers that the treatment plan is feasible, the treatment plan information is sent to the patient terminal device 1, and after the user refers to the treatment plan information, the stimulation device 5 can be selectively controlled to execute the treatment plan corresponding to the treatment plan information, so that treatment is realized; and then, the evaluation data information after treatment is sent to the evaluation equipment 2, and similarly, inquiry information can be further generated and sent to the patient end equipment 1 according to the evaluation data information after treatment sent by the patient end equipment 1 until the evaluation data information after treatment is completed, so as to generate new diagnosis information. The database 7 stores data information in the above-described process.

When data analysis or next diagnosis is carried out in the later period, the new diagnosis information can be used as a reference, so that the system data can be continuously optimized.

The above description is only a preferred embodiment of the present invention, and the protection scope of the present invention is not limited to the above embodiments, and all technical solutions belonging to the idea of the present invention belong to the protection scope of the present invention. It should be noted that modifications and embellishments within the scope of the invention may occur to those skilled in the art without departing from the principle of the invention, and are considered to be within the scope of the invention.