CN111700621B - Diagnosis and treatment system based on human body data, acquisition terminal and analysis terminal - Google Patents

Abstract

The embodiment of the invention provides a diagnosis and treatment system based on human body data, which comprises: the system comprises at least two acquisition terminals, a service terminal and an analysis terminal; wherein, the male terminal is worn on the condom or attached to the root of the penis, and the female terminal is attached to the pelvic floor muscle. The acquisition terminal is used for acquiring the movement data of the male and female in the sexual life process and sending the movement data to the service terminal; the service terminal is used for binding the motion sensing data with medical records in a medical record database after receiving the motion data sent by the acquisition terminal to obtain human body data of both men and women and sending the human body data to an analysis terminal of a corresponding doctor; and the analysis terminal is used for displaying the motion sensing data and the medical record sheet on the analysis terminal after receiving the human body data of the male and female. The acquired data is more accurate and comprehensive.

Description

Diagnosis and treatment system based on human body data, acquisition terminal and analysis terminal

Technical Field

The invention relates to the field of medical systems, in particular to a diagnosis and treatment system based on human body data, an acquisition terminal and an analysis terminal.

Background

With the increase of the pressure of modern male life, the number of the patients with andropathy increases, and common andropathy such as prostatitis, prostate loss, impotence, premature ejaculation and the like not only cause harm to the male body, but also influence the relationship between the male and the female. At present, the clinical judgment of premature ejaculation mainly listens to patient complaints, but the patient often cannot accurately say the duration of the sexual behavior, or the patient can only use a stopwatch to calculate before and after the sexual behavior according to the requirements of a doctor, so that the operation is inconvenient in the actual operation process. The sexual behavior is the interactive behavior of both men and women, and the time for only simply recording the male sexual behavior is one-sided, so that the interactive process in the process of the sexual behavior of both men and women cannot be comprehensively reflected, the sexual capability of the male cannot be truly reflected, and the diagnosis and judgment of a doctor are not facilitated. Therefore, in the existing clinical evaluation of premature ejaculation, because the data provided by the patient is fuzzy and the data dimension is single, the diagnosis and evaluation difficulty of the doctor is high, and the diagnosis and evaluation accuracy is not high.

Disclosure of Invention

The embodiment of the invention provides a diagnosis and treatment system based on human body data, which can improve the accuracy of movement data of both men and women in the sexual life process and the accuracy of analysis through the movement data of both men and women, so that the diagnosis and judgment accuracy is improved.

In a first aspect, an embodiment of the present invention provides a diagnosis and treatment system based on human body data, which is used for acquiring and analyzing exercise data of both male and female in a sexual life process, and the diagnosis and treatment system based on human body data includes: the system comprises at least two acquisition terminals, a service terminal and an analysis terminal;

the collecting terminal at least comprises a male terminal and a female terminal, the male terminal is worn on the condom or attached to the root of the penis, and the female terminal is attached to the pelvic floor muscle. The acquisition terminal is used for acquiring motion data in the sexual life process of both the male and the female, and sending the motion data to the service terminal, the motion data is coded and packaged in a first coding mode, and the motion data comprises motion sensing data and medical record numbers of both the male and the female;

the service terminal is used for performing first decoding on the motion data in a first decoding mode after receiving the motion data sent by the acquisition terminal, binding the motion sensing data with medical records in a medical record database according to medical record numbers obtained by the first decoding to obtain human body data of both men and women, and sending the human body data of both men and women to an analysis terminal of a corresponding doctor, wherein the human body data of both men and women are encoded and packaged in a second encoding mode, and the first decoding mode corresponds to the first encoding mode;

the analysis terminal is used for carrying out second decoding on the human body data of the male and female parties through a second decoding mode after receiving the human body data of the male and female parties to obtain motion sensing data and medical records of the male and female parties, and displaying the motion sensing data and the medical records on the analysis terminal to provide diagnosis and treatment bases of the male and female parties, wherein the second decoding mode corresponds to the second coding mode.

Optionally, the collection terminal is two, the collection terminal includes man's terminal and woman's terminal, and man's terminal is worn at the condom or attached at the root of the penis, and woman's terminal is attached on pelvic floor muscle, the collection terminal includes:

the pelvic floor monitoring system comprises a plurality of motion sensor modules, a plurality of control modules and a plurality of control modules, wherein each motion sensor module corresponds to one sampling point in a pelvic floor muscle part and is used for acquiring motion sensing data of different sampling points in the pelvic floor muscle part;

the first encoding and packaging module is used for acquiring medical record numbers of the male and female parties, and encoding and packaging the motion sensing data of different sampling points in a preset first encoding mode by combining the medical record numbers to obtain the motion data;

and the first sending module is used for sending the motion data to a service terminal.

Optionally, the medical record number is entered according to a corresponding medical record sheet when the doctor allocates the acquisition terminal;

and a plurality of first coding modes are preset in the acquisition terminal, the first coding modes are determined by both men and women and/or doctors, and the determined first coding modes are uploaded to a server to be associated with the acquisition terminal.

Optionally, the acquiring terminal further includes: the device comprises a distance sensing module and a judging module;

the distance sensing module is used for acquiring the distance between the two acquisition terminals in real time;

the judging module is used for judging whether the distance between the two acquisition terminals is smaller than a preset first distance or not, and informing the motion sensor module to acquire motion sensing data when the distance between the two acquisition terminals is smaller than the preset first distance;

in the process of acquiring motion sensing data by the motion sensor module, the judgment module is further used for judging whether the distance between the two acquisition terminals is greater than a preset second distance, and informing the motion sensor module to stop acquiring the motion sensing data when the distance between the two acquisition terminals is greater than the preset second distance.

Optionally, the analysis terminal includes:

the second decoding module is used for decoding the received human body data of the male and female parties in a preset second decoding mode to obtain motion sensing data and medical records of the male and female parties;

the motion analysis module is used for carrying out motion analysis on the motion sensing data and establishing a corresponding motion model;

and the display module is used for rendering the motion model and displaying the rendered motion module, the motion sensing data and the medical record sheet.

The second aspect provides an acquisition terminal, which is used for acquiring motion data of male and female parties in the sexual life process and at least comprises a first acquisition terminal and a second acquisition terminal which are respectively worn or attached to the male and female parties in the sexual life process; the acquisition terminal is used for acquiring motion data in the sexual life process of both the male and the female, and sending the motion data to the service terminal, and the motion data is coded and packaged in a first coding mode, wherein the motion data comprises motion sensing data and medical record numbers of both the male and the female;

the server is used for performing first decoding on the motion data in a first decoding mode after receiving the motion data sent by the acquisition terminal, binding the motion sensing data with a medical record in a medical record database according to a medical record number obtained by the first decoding to obtain human body data of both men and women, and sending the human body data of both men and women to an analysis terminal of a corresponding doctor, wherein the human body data of both men and women are encoded and packaged in a second encoding mode, and the first decoding mode corresponds to the first encoding mode.

Optionally, the collection terminal includes:

the pelvic floor monitoring system comprises a plurality of motion sensor modules, a plurality of control modules and a plurality of control modules, wherein each motion sensor module corresponds to one sampling point in a pelvic floor muscle part and is used for acquiring motion sensing data of different sampling points in the pelvic floor muscle part;

the first encoding and packaging module is used for acquiring medical record numbers of the male and female parties, and encoding and packaging the motion sensing data of different sampling points in a preset first encoding mode by combining the medical record numbers to obtain the motion data;

and the first sending module is used for sending the motion data to a service terminal.

Optionally, the collection terminal includes:

the device comprises a distance sensing module and a judging module;

the distance sensing module is used for acquiring the distance between the first acquisition terminal and the second acquisition terminal in real time;

the judging module is used for judging whether the distance between the first acquisition terminal and the second acquisition terminal is smaller than a preset first distance or not, and informing the motion sensor module to acquire motion sensing data when the distance between the first acquisition terminal and the second acquisition terminal is smaller than the preset first distance;

the judgment module is further used for judging whether the distance between the first acquisition terminal and the second acquisition terminal is greater than a preset second distance or not in the process of acquiring motion sensing data by the motion sensor module, and informing the motion sensor module of stopping the acquisition of the motion sensing data when the distance between the first acquisition terminal and the second acquisition terminal is greater than the preset second distance.

The analysis terminal performs second decoding on the human body data of both the male and the female in a second decoding mode after receiving the human body data of both the male and the female sent by the server to obtain the motion sensing data and the medical record sheets of both the male and the female, and displays the motion sensing data and the medical record sheets on the analysis terminal to provide diagnosis and treatment bases of both the male and the female;

the server binds the motion sensing data acquired by the acquisition terminal with medical records in a medical record database, and then encodes and packages the data in a second encoding mode, wherein the second encoding mode corresponds to the second decoding mode.

Optionally, the analysis terminal includes:

the second decoding module is used for decoding the received human body data of the male and female parties in a preset second decoding mode to obtain motion sensing data and medical records of the male and female parties;

the motion analysis module is used for carrying out motion analysis on the motion sensing data and establishing a corresponding motion model;

and the display module is used for rendering the motion model and displaying the rendered motion module, the motion sensing data and the medical record sheet.

In the embodiment of the invention, the diagnosis and treatment system based on human body data comprises: the system comprises at least two acquisition terminals, a service terminal and an analysis terminal; the collecting terminal at least comprises a male terminal and a female terminal, the male terminal is worn on the condom or attached to the root of the penis, and the female terminal is attached to the pelvic floor muscle. The acquisition terminal is used for acquiring motion data in the sexual life process of both the male and the female, and sending the motion data to the service terminal, the motion data is coded and packaged in a first coding mode, and the motion data comprises motion sensing data and medical record numbers of both the male and the female; the service terminal is used for performing first decoding on the motion data in a first decoding mode after receiving the motion data sent by the acquisition terminal, binding the motion sensing data with medical records in a medical record database according to medical record numbers obtained by the first decoding to obtain human body data of both men and women, and sending the human body data of both men and women to an analysis terminal of a corresponding doctor, wherein the human body data of both men and women are encoded and packaged in a second encoding mode, and the first decoding mode corresponds to the first encoding mode; the analysis terminal is used for carrying out second decoding on the human body data of the male and female parties through a second decoding mode after receiving the human body data of the male and female parties to obtain motion sensing data and medical records of the male and female parties, and displaying the motion sensing data and the medical records on the analysis terminal to provide diagnosis and treatment bases of the male and female parties, wherein the second decoding mode corresponds to the second coding mode. The method has the advantages that the movement data of both the male and female parties in the room traveling process are acquired through the worn or attached acquisition terminal, so that the male data and the female data can be acquired, and the movement data of the male and female parties in the room traveling process is not required to be acquired through dictation of a patient, so that the acquired data are more accurate and comprehensive, more accurate data are provided for doctors, and the diagnosis and judgment accuracy of the doctors is improved; in addition, because different coding modes are collected in the data transmission process, the data security can be improved, a patient does not need to worry about leakage of own data in the transmission process, and the privacy of the patient can be protected to a certain extent.

Drawings

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

Fig. 1 is a frame diagram of a diagnosis and treatment system based on human body data according to an embodiment of the present invention;

fig. 2 is a frame diagram of another diagnosis and treatment system based on human body data according to an embodiment of the present invention;

fig. 3 is a signaling flowchart of a diagnosis and treatment system based on human body data according to an embodiment of the present invention;

fig. 4 is a schematic diagram of a multi-sampling-point attached collection terminal according to an embodiment of the present invention;

FIG. 5 is a schematic diagram of a motion model of a sampling plane according to an embodiment of the present invention;

fig. 6 is an attachment schematic diagram of an attachment type acquisition terminal according to an embodiment of the present invention;

fig. 7 is a wearing schematic diagram of a wearable acquisition terminal provided in an embodiment of the present invention;

fig. 8 is a block diagram of an acquisition terminal according to an embodiment of the present invention;

fig. 9 is a block diagram of an analysis terminal according to an embodiment of the present invention.

Detailed Description

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

Referring to fig. 1, fig. 1 is a frame diagram of a diagnosis and treatment system based on human body data according to an embodiment of the present invention, and as shown in fig. 1, the diagnosis and treatment system based on human body data includes: the system comprises a collection terminal 100, a service terminal 200 and an analysis terminal 300, wherein the collection terminal 100 at least comprises a first collection terminal 101 and a second collection terminal 102.

The first collecting terminal 101 is a male terminal, and is worn on a condom or attached to the root of a penis; the second collection terminal 102 is a female terminal attached to the pelvic floor muscles. The pelvic floor muscles are human tissue muscle groups participating in sexual life, and the motion process of the pelvic floor muscles can truly reflect the sexual intercourse process between men and women.

In the embodiment of the invention, the acquisition terminal 100 is used for acquiring the movement data of the male and female in the sexual life process, and the acquired movement data removes the factors described by people, so that more accurate movement data of the sexual intercourse between the male and female can be acquired.

The service terminal 200 is in communication connection with the acquisition terminal 100 and the analysis terminal 300, specifically, the service terminal 200 is connected with the acquisition terminal 100 through a first network 201, and the service terminal 200 is connected with the analysis terminal 300 through a second network 202. The first network 201 may be a wireless connection, and the wireless connection of the first network 201 may include, but is not limited to, a 3G/4G connection, a WiFi connection, a bluetooth connection, a WiMAX connection, a Zigbee connection, a uwb (ultra wideband) connection, and other wireless connections now known or developed in the future. The second network 202 may be a wired connection or a wireless connection, and when the service terminal 200 and the analysis terminal 300 are in a hospital intranet, the second network 202 may be a wired connection, and when the second network 202 is a wireless connection, similar to the first network 201, specific connection methods of the second network 202 may include, but are not limited to, a 3G/4G connection, a WiFi connection, a bluetooth connection, a WiMAX connection, a Zigbee connection, an uwb (ultra wideband) connection, and other wireless connection methods now known or developed in the future.

Before the sexual intercourse of both men and women, the collecting terminal 100 can be worn or attached according to the prompt of doctors or products. The collecting terminal 100 collects motion data of pelvic floor muscles in the sexual intercourse process of both men and women, the motion data comprises motion sensing data collected by a motion sensor module in the collecting terminal 100, and the motion sensing data can be motion acceleration data, motion frequency data, motion posture data, motion time data and the like.

The acquisition terminal 100 is preset with a first encoding mode, and after acquiring the motion data of the pelvic floor muscle, the acquisition terminal 100 encodes and packages the motion data in the first encoding mode to form a data packet which can be transmitted in a communication network protocol, and sends the data packet corresponding to the motion data to the server. The IP address of the service terminal is pre-stored in the acquisition terminal 100.

The exercise data further includes medical record numbers corresponding to both male and female parties, the medical record numbers are numbers corresponding to medical records, the medical records are stored in the medical record database 400, and the service terminal 200 can read the corresponding medical records from the medical record database 400 according to the medical record numbers. The medical record numbers may be written into the acquisition terminal 100 in advance by a doctor or a corresponding staff for storage according to medical record sheets when the product is received in a hospital.

The motion data coded by the first coding mode at least comprises a device ID field, a medical record number field and a motion sensing data field. The device ID field is used to indicate the number of the acquisition terminal. Specifically, the device ID is a plaintext field, and is used for matching a corresponding decoding manner in the server.

After receiving the motion data sent by the collection terminal 100, the service terminal 200 first extracts the device ID field in the motion data, where the device ID field is a plaintext field and only needs to be extracted through a corresponding communication protocol. After obtaining the device ID field, the service terminal 200 matches the first decoding method corresponding to the device ID field, and decodes the motion data by the first decoding method to obtain the motion sensing data and the corresponding medical record number. The service terminal 200 reads a corresponding medical record from the medical record database 400 according to the medical record number, binds the medical record with the motion sensing data, performs secondary encoding and packaging in a preset second encoding mode to obtain human body data of both the male and the female, and sends the human body data of both the male and the female to the analysis terminal 300 of the corresponding doctor.

Optionally, the service terminal 200 includes a first decoding module for decoding the received motion data, the service terminal 200 further includes a second encoding module for encoding the motion sensing data and the medical record to obtain human body data of both the male and the female, and the service terminal 200 further includes a second sending module for sending the human body data of both the male and the female to the analysis terminal 300.

Further, the second encoding method is determined by the doctor and uploaded to the service terminal 200. After the service terminal 200 determines the corresponding medical record, the bound medical record and the motion sensing data are encoded and packaged according to the encoding mode uploaded by the medical record.

After receiving the human body data of both male and female parties sent by the service terminal, the analysis terminal 300 performs second decoding on the human body data of both male and female parties through a preset second decoding mode to obtain corresponding motion sensing data and medical records, and displays the motion sensing data and medical records on the analysis terminal to provide diagnosis and treatment bases for both male and female parties, wherein the second decoding mode corresponds to the second encoding mode.

In an embodiment of the present invention, a diagnosis and treatment system based on human body data includes: the system comprises at least two acquisition terminals, a service terminal and an analysis terminal; wherein, the male terminal is worn on the condom or attached to the root of the penis, and the female terminal is attached to the pelvic floor muscle. The acquisition terminal is used for acquiring motion data in the sexual life process of both the male and the female, and sending the motion data to the service terminal, the motion data is coded and packaged in a first coding mode, and the motion data comprises motion sensing data and medical record numbers of both the male and the female; the service terminal is used for performing first decoding on the motion data in a first decoding mode after receiving the motion data sent by the acquisition terminal, binding the motion sensing data with medical records in a medical record database according to medical record numbers obtained by the first decoding to obtain human body data of both men and women, and sending the human body data of both men and women to an analysis terminal of a corresponding doctor, wherein the human body data of both men and women are encoded and packaged in a second encoding mode, and the first decoding mode corresponds to the first encoding mode; the analysis terminal is used for carrying out second decoding on the human body data of the male and female parties through a second decoding mode after receiving the human body data of the male and female parties to obtain motion sensing data and medical records of the male and female parties, and displaying the motion sensing data and the medical records on the analysis terminal to provide diagnosis and treatment bases of the male and female parties, wherein the second decoding mode corresponds to the second coding mode. The method has the advantages that the worn or attached acquisition terminals are used for acquiring the movement data of two men and women in the room traveling process, namely, the male data and the female data can be acquired, and the movement data of the men and women during room traveling can be acquired without dictating by a patient, so that the acquired data is more accurate and comprehensive, more accurate data can be provided for doctors, and the diagnosis and judgment accuracy of the doctors is improved; in addition, because different coding modes are collected in the data transmission process, the data security can be improved, a patient does not need to worry about leakage of own data in the transmission process, and the privacy of the patient can be protected to a certain extent.

As shown in fig. 2, fig. 2 is a block diagram of another diagnosis and treatment system based on human body data according to an embodiment of the present invention, different from the embodiment of fig. 1, the collecting terminal 100 may send the motion data to the communication terminal 500 of the patient, and the service terminal 200 sends the motion data through the communication terminal 500 of the patient.

In this way, the patient can determine whether to transmit the motion data to the service terminal 200. For example, the user wears or attaches the above-mentioned acquisition terminal 100 to walk after drinking or taking a medicine, can avoid the automatic uploading of motion data under the abnormal conditions such as after drinking or taking a medicine, and whether the patient normally walks through the communication terminal 500, when the patient confirms that the patient normally walks, the suggestion patient can upload corresponding motion data.

The communication terminal may be a mobile communication terminal, such as a mobile phone, a smart watch, a portable digital assistant, a tablet, or a computer, a notebook, a digital housekeeper, an intelligent robot assistant, or the like.

Optionally, as shown in fig. 3, fig. 3 is a signaling flowchart of a diagnosis and treatment system based on human body data according to an embodiment of the present invention, and as shown in fig. 3, the signaling flowchart includes the following steps:

s100, the acquisition terminal 100 acquires the movement data of the male and female during sexual intercourse.

The collecting terminal 101 is worn on a condom or attached to the root of a penis by a male terminal, and the female terminal 102 is attached to pelvic floor muscles. The exercise data refers to the exercise data of the pelvic floor muscles when both men and women walk. The motion data includes motion sensing data and medical record numbers, and the motion data is encoded and packaged in a first encoding mode preset in the acquisition terminal 100.

S101, the acquisition terminal 100 sends the motion data to the communication terminal 500 of the patient.

The communication terminal may be a mobile communication terminal, such as a mobile phone, a smart watch, a portable digital assistant, a tablet, or a computer, a notebook, a digital housekeeper, an intelligent robot assistant, or the like.

S102, the communication terminal 500 prompts the patient whether to confirm the transmission to the service terminal 200.

Whether the patient normally walks in the room is prompted through the communication terminal 500, and when the patient determines that the patient normally walks in the room, the patient is prompted to upload corresponding motion data, and the process proceeds to step S103. When the patient determines that the room is not normally taken, the corresponding exercise data is not uploaded to the service terminal 200. The above-mentioned prompt may be displayed through the user communication terminal, such as: "is alcohol drunk before traveling? "," is an aixing drug taken? "and the like.

S103, the communication terminal 500 transmits the motion data to the service terminal 200.

When the patient determines to normally travel the room, the exercise data is transmitted to the service terminal 200 through the communication terminal 500.

In one possible embodiment, when the patient determines that both the male and female are normally traveling, the exercise data is transmitted to the service terminal 200 through the communication terminal 500.

It should be noted that, the above steps S101 to S103 are optional, and are shown as a dashed line flow in fig. 3, and whether the rooms of both the male and female are normal or not is confirmed by the patient himself, so as to avoid the collected exercise data being the exercise data in the abnormal condition, and further improve the accuracy of the exercise data. In some possible embodiments, after step S100, one may go directly to step S104.

And S104, the acquisition terminal 100 sends the motion data to the service terminal 200.

The acquisition terminal 100 encodes and packages the acquired motion sensing data and medical record numbers pre-stored in the acquisition terminal 100 in a preset first encoding mode, and then sends the encoded and packaged motion sensing data and medical record numbers to the service terminal 200 through the first network 201. Wherein, the IP address of the service terminal 200 may be preset in the acquisition terminal 100.

S105, after receiving the motion data, the service terminal 200 performs first decoding on the motion data to obtain motion sensing data and medical record numbers in the motion data.

The motion data may be decoded in the service terminal 200 through a preset first decoding manner, where the first decoding manner corresponds to a first encoding manner in the acquisition terminal 100.

The first encoding mode can be determined by both men and women of the patient, and the uploading service terminal 200 is associated with the corresponding acquisition terminal 100; or the doctor can determine the position, and the uploading service terminal 200 is associated with the corresponding acquisition terminal 100; the medical collecting terminal can also be determined by both the male and the female of the patient and a doctor together, and uploaded to the service terminal 200 to be associated with the corresponding collecting terminal 100. Of course, multiple sets of encoding modes can be preset for selection. For example, there are A, B, C, D four encoding modes, where a is selected as the first encoding mode, and if the device ID of the acquisition terminal 100 is 12345, the service terminal 200 uses the decoding mode a1 of the first encoding mode a as the first decoding mode, and binds the first decoding mode with the acquisition terminal 100 having the device ID of 12345. When the motion data is received, if the extraction device ID is 12345, the decoding method a1 is selected to decode the motion data. In this way, the security of the movement data during transmission can be increased.

S106, the service terminal 200 matches the corresponding medical record list according to the medical record number.

The medical record list is stored in the medical record database 400, and the service terminal 200 has the right to read the medical record list in the medical record database 400. The medical record sheet records the etiology and illness state of a patient checked in a hospital and records the corresponding responsible doctor.

S107, the service terminal 200 extracts corresponding doctor information according to the medical record list.

The service terminal 200 stores the contact information of the doctor, and the contact information may be the IP address of the analysis terminal 300 corresponding to the doctor.

S108, the service terminal 200 binds the motion sensing data with the medical record sheet and codes the data to obtain human body data of both men and women.

The human body data of both the male and the female comprise motion sensing data and medical records, and are obtained by encoding and packaging the human body data of both the male and the female through a second encoding mode preset in the service terminal 200. The second encoding method is determined by a doctor. Each doctor can designate one of the preset coding modes as a common coding mode, so that the human body data of both men and women can be decoded only by using the decoding mode corresponding to the second coding mode, and the data safety of both men and women of patients is protected.

S109, the service terminal 200 transmits the human body data of both the male and female to the analysis terminal 300.

S110, the analysis terminal 300 decodes the human body data of the male and the female to obtain the motion sensing data and the medical record in the human body data of the male and the female.

Wherein the decoding is a second decoding scheme corresponding to the second encoding scheme. The first encoding method and the second encoding method are different encoding methods, and the corresponding first decoding method and the corresponding second decoding method are also different decoding methods. Thus, the safety in the data transmission process can be further ensured.

And S111, the analysis terminal 300 displays the motion sensing data and the medical record sheet.

By displaying the motion sensing data and the medical record sheet on the analysis terminal 300, a doctor can diagnose corresponding to a patient through the content displayed on the analysis terminal.

In the implementation of the invention, the worn or attached acquisition terminal is used for acquiring the motion data of two men and women in the room traveling process, namely, the male data and the female data can be acquired, and the motion data of the room traveling between the two men and women can be acquired without dictating by a patient, so that the acquired data is more accurate and comprehensive, more accurate data is provided for doctors, and the diagnosis and judgment accuracy of the doctors is improved; in addition, because different coding modes are collected in the data transmission process, the data security can be improved, a patient does not need to worry about leakage of own data in the transmission process, and the privacy of the patient can be protected to a certain extent.

Optionally, the collection terminal 100 includes a motion sensor module for collecting pelvic floor muscle motion data and a microprocessor for processing the data, and the microprocessor may be a small microprocessor, so that the collection terminal 100 may be designed to be light and handy and convenient to wear or attach. For example, the microprocessor may be an MC9S08PA4AVDC microprocessor, the MC9S08PA4AVDC microprocessor has 8 pins and a size of 3 × 3 × 0.9mm, the acquisition terminal 100 may be designed to be small, so that it is convenient for both men and women to wear or attach, thereby greatly reducing the external influence on both men and women during sexual intercourse, and making the acquired data more accurate.

The motion sensor module can be an acceleration sensor module (collecting motion acceleration data), a gyroscope module (collecting motion attitude data), a frequency calculation module (collecting motion frequency data), a timer module (collecting motion time data) and the like. The motion sensor module can convert motion analog signals into electric signals, transmit the electric signals to the microprocessor through pins of the microprocessor for processing, and convert the electric signals into digital signals to obtain corresponding motion sensing data. The microprocessor comprises a first encoding and packaging module which is used for acquiring medical record numbers of both men and women of a patient, and encoding and packaging the motion sensing data of different sampling points in a preset first encoding mode by combining the medical record numbers to obtain corresponding motion data. The acquisition terminal 200 further includes a storage module, configured to store a medical record number, an equipment ID, an IP address of the service terminal, and a first encoding method.

Optionally, the above-mentioned acquisition terminal 100 includes a plurality of motion sensor modules, each motion sensor module corresponds to one sampling point in the pelvic floor muscle, for example, when the motion sensor is an acceleration sensor module, and the set sampling points are 5, each sampling point acquires motion sensing data of the pelvic floor muscle through one acceleration sensor module. As shown in fig. 4, fig. 4 is a schematic view of an attached collection terminal, in fig. 4, the collection terminal has 5 sampling points, and when the collection terminal is attached to pelvic floor muscles of both men and women, motion sensing data of the 5 sampling points of the pelvic floor muscles can be collected. Of course, in a possible embodiment, each sampling point may correspond to multiple motion sensor modules, for example, one collection point may collect corresponding motion sensing data through the acceleration sensor module (collecting motion acceleration data) and the gyroscope module (collecting motion attitude data).

By setting a plurality of sampling points, more dimensionality motion data can be acquired, and the accuracy of the motion data is improved.

Optionally, the above-mentioned collecting terminal 100 further includes a first sending module, configured to send the packaged motion data to the service terminal 200.

Optionally, the acquisition terminal 100 further includes a distance sensing module and a determining module. The distance sensing module is used for acquiring the distances between two acquisition terminals respectively corresponding to the male and female in real time. The judging module is used for judging whether the distance between the two acquisition terminals is smaller than a preset first distance or not, and informing the motion sensor module to acquire motion sensing data when the distance between the two acquisition terminals is smaller than the preset first distance. In the process of acquiring the motion sensing data by the motion sensor module, the judging module is further configured to judge whether the distance between the two acquiring terminals is greater than a preset second distance, and notify the motion sensor module to stop acquiring the motion sensing data when the distance between the two acquiring terminals is greater than the preset second distance. It should be noted that the preset second distance is greater than the preset first distance.

Furthermore, when the distance between the two acquisition terminals is smaller than the preset first distance, it indicates that the pelvic muscles of the male and female are relatively close, and the male and female can be considered to start sexual intercourse. Taking the attached collecting terminal as an example, the male part is attached to the root of the penis, and the female part is attached to the pelvic floor muscle part near the sexual organ, or the front part of the thigh root, or the lower part of the navel, etc. When the distance between the two acquisition terminals is smaller than the preset first distance, the acquisition of the motion sensing data is started, so that the data can be more accurate. When the distance between the two acquisition terminals is changed from being smaller than the preset first distance to being larger than the preset second distance, the sexual organs between the male and female are far away, the sexual intercourse between the male and female can be considered to be stopped, and at the moment, the acquisition of the motion sensing data is stopped, so that the data can be more accurate.

Optionally, the analysis terminal 300 includes a second decoding module, a motion analysis module, and a display module.

The second decoding module is used for decoding the received human body data of both men and women in a preset second decoding mode to obtain the motion sensing data and the medical record of both men and women of the patient. The motion analysis module is used for carrying out motion analysis on the motion sensing data and establishing a corresponding motion model. The display module is used for rendering the motion model and displaying the rendered motion module, the motion sensing data and the medical record list.

Furthermore, the motion sensing data includes motion sensing data of both men and women, and the motion conditions of both men and women are modeled according to the motion sensing data of both men and women, so as to obtain corresponding motion models.

In the embodiment of the present invention, the collection terminal 200 collects motion sensing data at a plurality of sampling points, where the motion sensing data at each sampling point includes motion acceleration data, motion attitude data, motion frequency data, motion time data, and the like. As shown in fig. 5, a plurality of sampling points may form one sampling plane, and thus, two sampling planes may be formed for both men and women, and the sampling planes are dynamically simulated by the motion acceleration data, the motion attitude data, the motion frequency data, the motion time data, and the like to obtain two sampling planes with motion changes, and the two sampling planes with motion changes may be used as motion models for both men and women.

Specifically, the relative position of the sampling surfaces can be adjusted through the motion attitude data and the distance between the two acquisition terminals, the jitter of the two sampling surfaces can be adjusted through the motion acceleration data and the motion frequency data, and the duration of the two sampling surfaces as a motion model can be adjusted through the motion time data. Therefore, the motion pictures of the two sampling surfaces can be obtained, the motion can be visually and dynamically displayed, and the doctor can conveniently observe the motion pictures.

The rendered motion module, the motion sensing data and the medical record are displayed, so that a doctor can more directly analyze data of both men and women of a patient.

In a possible embodiment, whether the patient has premature ejaculation or not can be automatically analyzed through the motion acceleration data, the motion posture data, the motion frequency data, the motion time data and the like, for example, when the motion time is less than the preset time, the motion frequency is less than the preset frequency, and when the motion acceleration is less than the preset acceleration, the patient can be judged to have premature ejaculation.

Or, in another possible embodiment, it is determined whether the motion acceleration data, the motion attitude data, the motion frequency data, the motion time data, and the like are similar to records on a medical record list, and if so, the medical record list is used as a preliminary determination result.

Optionally, an embodiment of the present invention provides an acquisition terminal, where the acquisition terminal 100 is an attached acquisition terminal, and is attached to the sexual organs of both the male and the female, as shown in fig. 6, and is configured to acquire motion data in the sexual life process of both the male and the female, and send the motion data to a service terminal, where the motion data is encoded and packaged in a first encoding manner, where the motion data includes motion sensing data and medical record numbers of both the male and the female.

Specifically, this attached type acquisition terminal includes overburden and attached layer, through the integrated microprocessor of PCB board, motion sensor module, the first sending module etc. of flexography between overburden and attached layer for acquisition terminal can be attached softly at human pelvic floor muscle.

The attachment layer can be a biological glue layer, the covering layer is a waterproof material layer, and waterproof environments are provided for the electronic modules such as the microprocessor, the motion sensor module and the first sending module through the biological glue layer and the waterproof material layer.

The collecting terminals comprise a first collecting terminal and a second collecting terminal, the first collecting terminal is worn on a condom or attached to the root of a penis, the second collecting terminal is attached to the pelvic floor muscle of a female, the flexible printed PCB is further integrated with a distance sensing module, and the distance sensing module is used for collecting the distance between the first collecting terminal and the second collecting terminal in real time; the microprocessor comprises a judging module, wherein the judging module is used for judging whether the distance between the first acquisition terminal and the second acquisition terminal is smaller than a preset first distance or not, and informing the motion sensor module to acquire motion sensing data when the distance between the first acquisition terminal and the second acquisition terminal is smaller than the preset first distance; in the process of acquiring the motion sensing data by the motion sensor module, the judging module is further configured to judge whether the distance between the first acquisition terminal and the second acquisition terminal is greater than a preset second distance, and notify the motion sensor module to stop acquiring the motion sensing data when the distance between the first acquisition terminal and the second acquisition terminal is greater than the preset second distance.

The server is used for performing first decoding on the motion data in a first decoding mode after receiving the motion data sent by the acquisition terminal, binding the motion sensing data with medical records in a medical record database according to medical record numbers obtained by the first decoding to obtain human body data of both men and women, and sending the human body data of both men and women to an analysis terminal of a corresponding doctor, wherein the human body data of both men and women are encoded and packaged in a second encoding mode, and the first decoding mode corresponds to the first encoding mode.

Optionally, an embodiment of the present invention further provides another collection terminal, where the collection terminal is a wearable collection terminal, is worn on a male condom, and is configured to collect motion data in a sexual life process of a male, and send the motion data to a service terminal, where the motion data is encoded and packaged in a first encoding manner, where the motion data includes motion sensing data and medical record numbers of both the male and the female.

Specifically, this wearing formula collection terminal includes skin and nexine, through the integrated microprocessor of PCB board, motion sensor module, the first sending module etc. of flexography between skin and nexine for collection terminal can be attached at human pelvic floor muscle softly.

The collecting terminals comprise a first collecting terminal and a second collecting terminal, the first collecting terminal is worn on a condom or attached to the root of a penis, the second collecting terminal is attached to the pelvic floor muscle of a female, the flexible printed PCB is further integrated with a distance sensing module, and the distance sensing module is used for collecting the distance between the first collecting terminal and the second collecting terminal in real time; the microprocessor comprises a judging module, wherein the judging module is used for judging whether the distance between the first acquisition terminal and the second acquisition terminal is smaller than a preset first distance or not, and informing the motion sensor module to acquire motion sensing data when the distance between the first acquisition terminal and the second acquisition terminal is smaller than the preset first distance; in the process of acquiring the motion sensing data by the motion sensor module, the judging module is further configured to judge whether the distance between the first acquisition terminal and the second acquisition terminal is greater than a preset second distance, and notify the motion sensor module to stop acquiring the motion sensing data when the distance between the first acquisition terminal and the second acquisition terminal is greater than the preset second distance.

The server is used for performing first decoding on the motion data in a first decoding mode after receiving the motion data sent by the acquisition terminal, binding the motion sensing data with medical records in a medical record database according to medical record numbers obtained by the first decoding to obtain human body data of both men and women, and sending the human body data of both men and women to an analysis terminal of a corresponding doctor, wherein the human body data of both men and women are encoded and packaged in a second encoding mode, and the first decoding mode corresponds to the first encoding mode.

Optionally, referring to fig. 8, fig. 8 is a block structure diagram of an acquisition terminal according to an embodiment of the present invention, and as shown in fig. 8, an acquisition terminal 100 includes a microprocessor 103, a motion sensor module 104 connected to the microprocessor 103, and a first sending module 105. The microprocessor 103 includes a first code packaging module 1031.

The number of the motion sensor modules 104 can be multiple, each motion sensor module 104 corresponds to one sampling point in the pelvic floor muscle part, and the motion sensor modules 104 are used for collecting motion sensing data of different sampling points in the pelvic floor muscle part; the first encoding and packaging module 1031 is configured to obtain medical record numbers of both the male and the female, and encode and package the motion sensing data of different sampling points in a preset first encoding manner by combining the medical record numbers to obtain the motion data; a first sending module 105, configured to send the motion data to the service terminal 200.

Optionally, the collecting terminal 100 includes a first collecting terminal 101 and a second collecting terminal 102, the first collecting terminal 101 is worn on a condom or attached to the root of a penis, the second collecting terminal 102 is attached to a pelvic floor muscle of a female, the collecting terminal 100 further includes a distance sensing module 106, and the distance sensing module 106 is configured to collect a distance between the first collecting terminal 101 and the second collecting terminal 102 in real time; the microprocessor 103 includes a determining module 1032, where the determining module 1032 is configured to determine whether a distance between the first collecting terminal 101 and the second collecting terminal 102 is smaller than a preset first distance, and notify the motion sensor module 104 to collect motion sensing data when the distance between the first collecting terminal 101 and the second collecting terminal 102 is smaller than the preset first distance; in the process of acquiring motion sensing data by the motion sensor module 104, the determining module 1032 is further configured to determine whether a distance between the first acquiring terminal 101 and the second acquiring terminal 102 is greater than a preset second distance, and notify the motion sensor module 104 to stop acquiring the motion sensing data when the distance between the first acquiring terminal 101 and the second acquiring terminal 102 is greater than the preset second distance.

Optionally, an analysis terminal is provided in an embodiment of the present invention, after receiving human body data of both sides of a male and a female sent by a server, the analysis terminal performs second decoding on the human body data of both sides of the male and the female through a second decoding method to obtain motion sensing data and medical records of both sides of the male and the female, and displays the motion sensing data and the medical records on the analysis terminal to provide diagnosis and treatment bases of both sides of the male and the female; the server binds the motion sensing data acquired by the acquisition terminal with medical records in a medical record database, and then encodes and packages the data in a second encoding mode, wherein the second decoding mode corresponds to the second encoding mode.

Optionally, referring to fig. 9, fig. 9 is a block diagram of an analysis terminal according to an embodiment of the present invention, and as shown in fig. 9, the analysis terminal 300 includes: a second decoding module 301, a motion analysis module 302, and a display module 303. The second decoding module 301 is configured to decode the received human body data of both the male and the female in a preset second decoding manner, so as to obtain motion sensing data and medical records of both the male and the female of the patient; the motion analysis module 302 is configured to perform motion analysis on the motion sensing data, and establish a corresponding motion model according to the motion analysis; and the display module 303 is configured to render the motion model, and display the rendered motion model, the motion sensing data, and the medical record sheet.

Optionally, an embodiment of the present invention further provides a computer-readable storage medium, where a computer program is stored on the computer-readable storage medium, and when the computer program is executed by a processor, the computer program implements each process of the signaling flow of the diagnosis and treatment system based on human body data provided in the embodiment of fig. 3 of the present invention, and can achieve the same technical effect, and in order to avoid repetition, details are not repeated here.

It will be understood by those skilled in the art that all or part of the processes included in the system implementing the embodiments described above may be implemented by the relevant hardware instructed by a computer program, which may be stored in a computer-readable storage medium, and when executed, may include the processes of the embodiments of the methods described above. The storage medium may be a magnetic disk, an optical disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), or the like.

The above disclosure is only for the purpose of illustrating the preferred embodiments of the present invention, and it is therefore to be understood that the invention is not limited by the scope of the appended claims.

Claims (6)

1. A diagnosis and treatment system based on human body data is used for acquiring and analyzing movement data of male and female in the sexual life process, and is characterized by comprising the following components: the system comprises an acquisition terminal, a service terminal and an analysis terminal;

the collecting terminal comprises a male terminal and a female terminal, the male terminal is worn on a condom or attached to the root of a penis, the female terminal is attached to pelvic floor muscles, the collecting terminal is used for collecting motion data in the sexual life process of both the male and female, the motion data are sent to the service terminal, the motion data are coded and packaged in a first coding mode, and the motion data comprise motion sensing data and medical record numbers of both the male and female;

the service terminal is used for performing first decoding on the motion data in a first decoding mode after receiving the motion data sent by the acquisition terminal, binding the motion sensing data with medical records in a medical record database according to medical record numbers obtained by the first decoding to obtain human body data of both men and women, and sending the human body data of both men and women to an analysis terminal of a corresponding doctor, wherein the human body data of both men and women are encoded and packaged in a second encoding mode, and the first decoding mode corresponds to the first encoding mode;

the analysis terminal is used for carrying out second decoding on the human body data of the male and female parties through a second decoding mode after receiving the human body data of the male and female parties to obtain motion sensing data and medical records of the male and female parties, and displaying the motion sensing data and the medical records on the analysis terminal to provide diagnosis and treatment bases of the male and female parties, wherein the second decoding mode corresponds to the second coding mode;

the acquisition terminal comprises:

the device comprises a distance sensing module, a motion sensor and a judging module;

the distance sensing module is used for acquiring the distance between the male terminal and the female terminal in real time;

the judging module is used for judging whether the distance between the male terminal and the female terminal is smaller than a preset first distance or not, and informing the motion sensor module to collect motion sensing data when the distance between the female terminal and the male terminal is smaller than the preset first distance;

in the process of acquiring the motion sensing data by the motion sensor module, the judging module is further configured to judge whether the distance between the male terminal and the female terminal is greater than a preset second distance, and notify the motion sensor module to stop acquiring the motion sensing data when the distance between the male terminal and the female terminal is greater than the preset second distance.

2. The diagnosis and treatment system based on human body data as claimed in claim 1, wherein the collection terminal further comprises:

the pelvic floor monitoring system comprises a plurality of motion sensor modules, a plurality of control modules and a plurality of control modules, wherein each motion sensor module corresponds to one sampling point in a pelvic floor muscle part and is used for acquiring motion sensing data of different sampling points in the pelvic floor muscle part;

the first encoding and packaging module is used for acquiring medical record numbers of the male and female parties, and encoding and packaging the motion sensing data of different sampling points in a preset first encoding mode by combining the medical record numbers to obtain the motion data;

and the first sending module is used for sending the motion data to a service terminal.

3. The human data-based diagnosis and treatment system according to claim 2, wherein the medical record number is entered according to a corresponding medical record list when a doctor allocates the acquisition terminal;

and a plurality of first coding modes are preset in the acquisition terminal, the first coding modes are determined for both men and women and/or doctors, and the determined first coding modes are uploaded to a service terminal to be associated with the acquisition terminal.

4. The diagnosis and treatment system based on human body data as claimed in claim 1, wherein the analysis terminal comprises:

the second decoding module is used for decoding the received human body data of the male and female parties in a preset second decoding mode to obtain motion sensing data and medical records of the male and female parties;

the motion analysis module is used for carrying out motion analysis on the motion sensing data and establishing a corresponding motion model;

and the display module is used for rendering the motion model and displaying the rendered motion module, the motion sensing data and the medical record sheet.

5. An acquisition terminal is used for acquiring motion data of male and female parties in the sexual life process, and is characterized by comprising a male terminal and a female terminal, wherein the male terminal is worn on a condom or attached to the root of a penis, and the female terminal is attached to pelvic floor muscles; the acquisition terminal is used for acquiring motion data in the sexual life process of both the male and the female, and sending the motion data to the service terminal, and the motion data is coded and packaged in a first coding mode, wherein the motion data comprises motion sensing data and medical record numbers of both the male and the female;

the acquisition terminal comprises:

the device comprises a distance sensing module, a motion sensor and a judging module;

the distance sensing module is used for acquiring the distance between the male terminal and the female terminal in real time;

the judging module is used for judging whether the distance between the male terminal and the female terminal is smaller than a preset first distance or not, and informing the motion sensor module to collect motion sensing data when the distance between the female terminal and the female terminal is smaller than the preset first distance;

in the process of acquiring the motion sensing data by the motion sensor module, the judging module is further configured to judge whether the distance between the male terminal and the female terminal is greater than a preset second distance, and notify the motion sensor module to stop acquiring the motion sensing data when the distance between the male terminal and the female terminal is greater than the preset second distance.

6. The acquisition terminal of claim 5, wherein the acquisition terminal comprises:

the pelvic floor monitoring system comprises a plurality of motion sensor modules, a plurality of control modules and a plurality of control modules, wherein each motion sensor module corresponds to one sampling point in a pelvic floor muscle part and is used for acquiring motion sensing data of different sampling points in the pelvic floor muscle part;

the first encoding and packaging module is used for acquiring medical record numbers of the male and female parties, and encoding and packaging the motion sensing data of different sampling points in a preset first encoding mode by combining the medical record numbers to obtain the motion data;

and the first sending module is used for sending the motion data to a service terminal.

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