CN113539499B - Multichannel intelligent health data measurement and control system and method - Google Patents

Abstract

The invention discloses a multichannel intelligent health data measurement and control system and a method, wherein the method comprises the following steps: step 1: starting a multichannel intelligent health data measurement and control system, and initializing parameters; step 2: entering a screening/training module and a data management module which are arranged in the display unit; step 3: and (3) carrying out single/double screen display on the data of the display unit in the step (2), and realizing different combined schemes under the double screen display. The invention effectively overcomes the defect of backlog of the tested party caused by the fact that the condition that one health data measurement and control system can only be used for testing by one tested party in the prior art can not meet the requirements of the tested party.

Description

Multichannel intelligent health data measurement and control system and method

Technical Field

The invention relates to the technical field of health data measurement and control, in particular to a multichannel intelligent health data measurement and control system and method.

Background

The health data measurement and control system is just like a biostimulation feedback instrument, the biostimulation feedback instrument is named as MT biostimulation feedback system (MyoTrac), and is new-generation multifunctional diagnosis and detection equipment for the rehabilitation department and the neurology department of the detection party. The system organically combines the functions of surface myoelectricity analysis, neuromuscular electricity stimulation, myoelectricity triggering electricity stimulation, biofeedback, incontinence detection and the like, and provides a high-level omnibearing integration solution.

The existing health data measurement and control system can only be used for one tested party to detect, the situation can not meet the requirements of the tested party, backlog of the tested party is caused, the time for the tested party to detect is long, the time for the tested party can be utilized, for example, the information of the tested party can be recorded, and the screening, evaluation, detection conditions and the like of the tested party can be checked.

Disclosure of Invention

In order to solve the problems, the embodiment of the invention provides a multi-channel intelligent health data measurement and control system and a method thereof, which provide a double-screen multi-control panel device, so that a plurality of detected parties can be screened, evaluated and detected simultaneously, voice is not interfered in the process, the detected parties can be detected simultaneously, a detector can input information of the detected parties and control the data analysis system, and the defect that one health data measurement and control system in the prior art can only be used for detecting one detected party and cannot meet the requirements of the detected parties to cause backlog of the detected parties is effectively avoided.

In order to overcome the defects in the prior art, the invention provides a solution of a multichannel intelligent health data measurement and control system and method, which comprises the following specific steps:

a method of a multichannel intelligent health data measurement and control system comprises the following steps:

step 1: starting a multichannel intelligent health data measurement and control system, and initializing parameters;

step 2: entering a screening/training module and a data management module which are arranged in the display unit;

step 3: and (3) carrying out single/double screen display on the data of the display unit in the step (2), and realizing different combined schemes under the double screen display.

Further, the specific method of the step1 includes:

step 1-1: establishing communication between the industrial personal computer and the control board for health data measurement and control and between the handheld intelligent controller device and the channel switching module through the communication unit;

Step 1-2: an enumeration function is called to enumerate the number of displays supported by the current detection instrument and the size of a displayable area of each display, and window display areas are allocated;

step 1-3: the industrial personal computer for health data measurement and control acquires the names of system audio output equipment and displays the names on the screen display unit in a list form;

step 1-4: selecting a screen mode, if a single screen mode left screen user input unit is selected

Controlling left and right screen displays; if the dual-screen mode is selected, the left-screen user input unit controls the left-screen display, and the right-screen user input unit controls the right-screen display.

The single person mode in the single screen mode is used for controlling screening and training of a single person, and the multi-person mode in the single screen mode is used for controlling simultaneous screening or simultaneous training of a plurality of persons; the single person mode in the double-screen mode can be used for screening or training by a single person, and the other screen can be operated at will, and the multi-person mode in the double-screen mode can be used for realizing different combination schemes such as asynchronous screening or asynchronous training.

Further, the specific method of the step 2 includes:

Entering a screening/training module to execute screening training, wherein the screening training is divided into a single person mode and a multi-person mode;

In the single person mode, the method specifically comprises the following steps:

Step 2-1-1: selecting a required channel number, selecting whether all probes for acquiring health data are used, if so, connecting the selected channel Port of the detection equipment with a probe for acquiring health data in a multi-channel body by using a probe wire, wherein Port is the equipment channel number; if not, distributing the selected channel port of the detection device to the in-vivo multichannel probe and the body surface probe according to any proportion, and connecting the probe ports with a probe line;

step 2-1-2: selecting a screening/training module, and popping up a window of a tested party information list;

step 2-1-3: selecting one piece of information of a tested party, and popping up a window of a screening/training scheme, wherein an industrial personal computer for health data measurement and control sends opening and closing of a channel to a channel switch unit through a communication unit, and the channel switch unit receives an instruction and switches a corresponding channel;

At this time, a display unit on the handheld intelligent control device can lighten the selected channel number, and selects whether to change the currently selected channel number, if so, the user inputs the channel number to be used in the handheld intelligent control device, then step 2-1-4 is executed, and if not, step 2-1-4 is executed;

Step 2-1-4: if a training module of the screening/training module is selected, the current of each channel is sequentially input through an input unit of the handheld intelligent control device, the current intensity value is sent to a signal output/acquisition unit of the multi-control panel to output the signal value, the tested party carries out current addition and subtraction through the tolerance degree to the current intensity, current regulation is completed, and detection is started. If a screening module of the screening/training module is selected, direct screening is started;

Step 2-1-5: in the screening training process, the device can be interrupted at any time, and the channel opening which is not occupied by other people is changed through the handheld intelligent control device;

in the multi-person mode, the method specifically comprises the following steps:

Step 2-2-1: the body probe and the body surface probe of the first tested party are connected with two passage ports of the equipment through probe wires, and the body probe and the body surface probe of the second tested party are connected with the remaining two passage ports of the equipment through probe wires;

step 2-2-2: selecting a screening/training module, selecting whether screening training is performed simultaneously, if yes, executing the step 2-2-3, and if not, executing the step 2-2-5;

Step 2-2-3: selecting two tested party information, sending a closing instruction to a channel switch unit, closing a selected channel port, popping up whether the currently selected channel port is changed, inputting channel numbers required to be used by a tested party I and a tested party II in a handheld intelligent control device if the currently selected channel port is changed, executing the step 2-2-4, and directly executing the step 2-2-4 if the currently selected channel port is not changed;

step 2-2-4: if a training module of the screening/training module is selected, the current of each channel of the first tested party and the second tested party needs to be regulated, and after the regulation is finished, the detection is started; if a screening module of the screening/training module is selected, directly starting screening;

Step 2-2-5: selecting one tested party information, sending a closing instruction to a channel switch unit, closing a selected channel port, popping up whether the currently selected channel port is changed, inputting a channel number required to be used by the tested party in a handheld intelligent control device if the currently selected channel port is changed, executing the step 2-2-6, and directly executing the step 2-2-6 if the currently selected channel port is not changed;

Step 2-2-6: if a training module of the screening/training module is selected, the current of each channel of the tested party needs to be regulated, and after the regulation is finished, the tested party starts to detect. If a screening module of the screening/training module is selected, the tested party directly starts screening; if one tested party needs to be added in the screening training process, executing the steps 2-2-7;

Step 2-2-7: selecting whether to change the currently selected channel port, if so, inputting an unoccupied channel port number required to be used by a second party to be tested in the handheld intelligent control device, and executing the steps 2-2-8: if not, directly executing the step 2-2-8;

step 2-2-8: and if the first tested party is currently screening, the second tested party performs screening, and if the first tested party is currently training, the second tested party needs to adjust the current of each channel and perform training.

Further, the specific method of step 2 further includes:

Entering a data management module;

the specific process of entering the data management module comprises the following steps:

Step 2-3-1: selecting a data management module, popping up a data management window, selecting new/modified tested party information, popping up a new/modified tested party information window, triggering a save button, saving key information of a tested party into a database by adopting an AES symmetric encryption algorithm, and reading by adopting a DES symmetric decryption algorithm when reading, so that confidentiality of the tested party information is realized; meanwhile, the uuid of the tested party is used as a unique main key to prevent repeated creation of data, and the mobile phone number piTelehone of the tested party is used as an index to quickly search the wanted user information; and selecting a statistics module, popping up a statistics window, and checking statistics data of different time periods. The scheme selecting module selects a new/modifying/importing button, pops up a new/modifying/importing window, triggers a save button and saves the scheme in the database.

Further, the different combinations of schemes include:

Scheme 1: screening/training single person mode + screening/training single person mode;

scheme 2: screening/training a multi-person mode + screening/training a multi-person mode;

scheme 3: screening/training single person mode + screening/training multiple person mode;

scheme 4: screening/training a multi-person mode + screening/training a single person mode;

Scheme 5: screening/training single person mode + data management;

scheme 6: screening/training a multi-person mode + data management;

scheme 7: data management + screening/training single person mode;

Scheme 8: data management + screening/training multi-person mode, "+" left and right sides represent left and right interfaces, respectively.

Further, the method of the multichannel intelligent health data measurement and control system further comprises the following steps:

Step 4: during the detection process, voice prompts are provided, and in order to relax the body of the tested party, the relaxed background music is played;

step 5: in kegel training, default is set ，/>，/>For real-time values, a training will have N cycles, after each cycle, if/>，/>Or if/>，The ordinate value of the acquired real-time waveform is/>. The real-time graph is displayed in a percentage mode, so that the graph trend is displayed more clearly, and the phenomenon of too high or too low can not occur. Here,/>For myoelectric maximum, default maximum range [10,200],/>For myoelectric minima, a minimum range of [0,100],/>, is defaultedFor real-time myoelectricity acquisition values, if one cycle is 20s, compare every 20s, if/>The myoelectric maximum value range becomes [200], If/>The myoelectricity minimum value range becomes [0,/>]. According to/>，/>，/>Calculating the ordinate value/>, of the real-time waveform。

A multi-channel intelligent health data measurement and control system, comprising:

the industrial personal computer for health data measurement and control is used for controlling the left and right screen display units and the left and right audio output units and receiving information of the left and right screen user input units;

The industrial personal computer for health data measurement and control is communicated with the communication unit through a serial port, and receives the data processed by the parameter signal processing unit from the health data signals acquired by the multi-control board signal output/acquisition unit;

the industrial personal computer for health data measurement and control sends a stimulation instruction to be output through the communication unit and the parameter signal processing unit and through the multi-control board signal output/acquisition unit;

The industrial personal computer for health data measurement and control controls the channel opening and closing of the channel opening and closing unit through the communication unit;

The handheld intelligent control device comprises a user input unit and a display unit, wherein a user communicates with the equipment communication unit through wireless transmission by the input unit, and controls the channel opening and closing unit to open and close the channel opening, so that signal output and acquisition of the corresponding channel opening are realized;

The hand-held intelligent control device can also adjust the stimulation current through the input unit, send the stimulation current to the multi-control board signal output/acquisition unit through the communication unit, and receive feedback to display on the display unit of the hand-held intelligent control device.

The embodiment of the invention has the beneficial effects that:

the invention provides a double-screen and multi-control panel device, which can not only enable a plurality of detected parties to be screened, evaluated and detected simultaneously, but also enable the voice in the process not to be interfered, and can realize the detection of the detected parties, and simultaneously enable a detector to be used for the information input of the detected parties and the control method of a data analysis system, thereby effectively overcoming the defect that in the prior art, one health data measurement and control system can only be used for the detection of one detected party and cannot meet the requirements of the detected parties to cause the backlog of the detected parties.

Drawings

Fig. 1 is a schematic structural diagram of a multi-channel intelligent health data measurement and control system according to the present invention.

Fig. 2 is a flow chart of the step 1 of the present invention.

FIG. 3 is a single person mode flow chart in single screen mode/dual screen mode of the present invention.

FIG. 4 is a flow chart of the multi-person mode in the single screen mode of the present invention.

FIG. 5 is a flow chart of the multi-person mode in the dual-screen mode of the present invention.

Fig. 6 is a connection structure diagram of the probe of the present invention.

FIG. 7 is a flowchart of a specific flow of entering a data management module according to the present invention.

Fig. 8 is a schematic diagram of the various combinations of aspects of the present invention.

Detailed Description

Embodiments of the present invention will be further described with reference to the drawings and examples.

As shown in fig. 1-8, the method of the multichannel intelligent health data measurement and control system comprises the following steps:

step 1: starting a multichannel intelligent health data measurement and control system, and initializing parameters;

step 2: entering a screening/training module and a data management module which are arranged in the display unit;

step 3: the multichannel intelligent health data measurement and control system supports double-screen display, so that different combined schemes can be realized.

As shown in fig. 2, the specific method of step 1 includes:

Step 1-1: establishing communication between the industrial personal computer and the control board for health data measurement and control and between the handheld intelligent controller device and the channel switching module through the communication unit; in some embodiments, the industrial personal computer may be a pelvic floor industrial personal computer;

Specifically, if 4 channels are used as a unit to define a serial communication class EMGComm, for example, 8 channels, there are two serial communication classes EMGComm1 and EMGComm, and each serial communication class controls signal acquisition and electrical stimulation output of the 4 channels.

Step 1-2: invoking an enumeration function with a function name EnumDisplayMonitors () to enumerate the number of displays supported by a detection instrument such as a basin bottom instrument and the size of a displayable area of each display, and distributing a window display area;

Specifically, if the number of displays is 2, the acquired resolution of the main screen is taken as the left screen display unit area size, and the second screen resolution is taken as the right screen display unit area size.

Step 1-3: the industrial personal computer for health data measurement and control acquires the names of system audio output equipment and displays the names on the screen display unit in a list form;

Specifically, to realize that the left-screen user input unit controls the left audio output unit, the right-screen user input unit controls the right audio output unit, and the user configures by selecting the audio device name.

Step 1-4: selecting a screen mode, and if the single screen mode is selected, controlling the left screen and the right screen to be displayed by a left screen user input unit, wherein the flow charts are shown in fig. 3 and 4; if the dual-screen mode is selected, the left-screen user input unit controls the left-screen display, the right-screen user input unit controls the right-screen display, the two-screen modes are not interfered with each other, and the flow chart is shown in fig. 5. The single-person mode in the single-screen mode is to control screening and training of a single person; the multi-person mode is to control multiple persons to screen or train simultaneously. The single person mode in the double-screen mode is that the other screen can be randomly operated while the single person is screening or training, namely, when one screen is operating in the flow chart 3, the other screen is operating in the flow chart 8; the multi-person mode in the dual screen mode can implement different combination schemes such as asynchronous screening or asynchronous training as shown in fig. 8.

The specific method of the step 2 comprises the following steps:

Because the system supports multi-channel and multi-person use, the screening/training module is entered to perform screening, and the screening can be divided into a single person mode and a multi-person mode;

as shown in fig. 3, in the single person mode, the method specifically includes the following steps:

Step 2-1-1: selecting a required channel number, selecting whether all probes for acquiring health data such as in-vivo probes are used, if so, connecting the selected channel Port of the detection device with a probe for acquiring health data in a multi-channel body by using a probe line, wherein the connection mode is shown in fig. 6, and the Port is the device channel number; if not, distributing the selected channel ports of the detection device to the in-vivo multichannel probe (1) and the body surface probe(s) according to any proportion, and connecting the probe lines;

As shown in fig. 6, the multi-control board signal output/acquisition unit is provided with device channels, such as PortA, portB, and PortH, i.e. one probe may be connected to one device channel or may be connected to multiple device channels.

Step 2-1-2: selecting a screening/training module, and popping up a window of a tested party information list;

Step 2-1-3: the method comprises the steps that a piece of information of a tested party is selected, a screening training scheme window is popped up, at the moment, an industrial personal computer for health data measurement and control sends opening and closing of a channel to a channel switch unit through a communication unit, the channel switch unit receives an instruction, and a corresponding channel is opened and closed;

At this time, a display unit on the handheld intelligent control device can lighten the selected channel number, and selects whether to change the currently selected channel number, if so, the user inputs the channel number to be used in the handheld intelligent control device, then step 2-1-4 is executed, and if not, step 2-1-4 is executed;

Step 2-1-4: if a training module of the screening/training module is selected, the current of each channel is sequentially input through an input unit of the handheld intelligent control device, the current intensity value is sent to a signal output/acquisition unit of the multi-control panel to output the signal value, the tested party carries out current addition and subtraction through the tolerance degree to the current intensity, current regulation is completed, and detection is started. If a screening module of the screening/training module is selected, direct screening is started;

Step 2-1-5: during the screening/training process, the device can be interrupted at any time, and the channel opening which is not occupied by other people is changed through the handheld intelligent control device;

as shown in fig. 4 and fig. 7, in the multi-person mode, two person are taken as examples, and the method specifically includes the following steps:

Step 2-2-1: the body probe and the body surface probe of the first tested party are connected with two passage ports of the equipment through probe wires, and the body probe and the body surface probe of the second tested party are connected with the remaining two passage ports of the equipment through probe wires;

Step 2-2-2: selecting a screening/training module, namely selecting whether screening/training is performed simultaneously, if yes, executing the step 2-2-3, and if not, executing the step 2-2-5;

Step 2-2-3: selecting two tested party information, sending a closing instruction to a channel switch unit, closing a selected channel port, popping up whether the currently selected channel port is changed, inputting channel numbers required to be used by a tested party I and a tested party II in a handheld intelligent control device if the currently selected channel port is changed, executing the step 2-2-4, and directly executing the step 2-2-4 if the currently selected channel port is not changed;

step 2-2-4: if a training module of the screening/training module is selected, the current of each channel of the first tested party and the second tested party needs to be regulated, and after the regulation is finished, the detection is started; if a screening module of the screening/training module is selected, directly starting screening;

Step 2-2-5: selecting one tested party information, sending a closing instruction to a channel switch unit, closing a selected channel port, popping up whether the currently selected channel port is changed, inputting a channel number required to be used by the tested party in a handheld intelligent control device if the currently selected channel port is changed, executing the step 2-2-6, and directly executing the step 2-2-6 if the currently selected channel port is not changed;

Step 2-2-6: if a training module of the screening/training module is selected, the current of each channel of the tested party needs to be regulated, and after the regulation is finished, the tested party starts to detect. If a screening module of the screening/training module is selected, the tested party directly starts screening; if one tested party needs to be added in the screening training process, executing the steps 2-2-7;

Step 2-2-7: selecting whether to change the currently selected channel port, if so, inputting an unoccupied channel port number required to be used by a second party to be tested in the handheld intelligent control device, and executing the steps 2-2-8: if not, directly executing the step 2-2-8;

step 2-2-8: and if the first tested party is currently screening, the second tested party performs screening, and if the first tested party is currently detecting, the second tested party needs to adjust the current of each channel and perform detecting.

The specific method of the step 2 further comprises the following steps:

Entering a data management module;

As shown in fig. 7, the specific flow of entering the data management module includes:

Step 2-3-1: selecting a data management module, popping up a data management window, selecting new/modified tested party information, popping up a new/modified tested party information window, triggering a save button, saving key information of the tested party, such as name, birth year and month, mobile phone number and the like, into a database by adopting an AES symmetric encryption algorithm, and reading by adopting a DES symmetric decryption algorithm during reading to realize confidentiality of the tested party information; meanwhile, the uuid of the tested party is used as a unique main key to prevent repeated creation of data, and the mobile phone number piTelehone of the tested party is used as an index to quickly search the wanted user information; and selecting a statistics module, popping up a statistics window, and checking statistics data of different time periods. The scheme selecting module selects a new/modifying/importing button, pops up a new/modifying/importing window, triggers a save button and saves the scheme in the database.

As shown in fig. 8, the different combinations include:

Scheme 1: screening/training single person mode + screening/training single person mode;

scheme 2: screening/training a multi-person mode + screening/training a multi-person mode;

scheme 3: screening/training single person mode + screening/training multiple person mode;

scheme 4: screening/training a multi-person mode + screening/training a single person mode;

Scheme 5: screening/training single person mode + data management;

scheme 6: screening/training a multi-person mode + data management;

scheme 7: data management + screening/training single person mode;

Scheme 8: data management + screening/training multi-person mode, "+" left and right sides represent left and right interfaces, respectively.

The method of the multichannel intelligent health data measurement and control system further comprises the following steps:

Step 4: during the detection process, voice prompts are provided, and in order to relax the body of the tested party, the relaxed background music is played;

Specifically, an audio play class based on DirectShow framework can be called, two different objects PlayerBackMusic and PlayerMusic are created, an audio output device corresponding to the current left display screen which is set up in an initialization mode is loaded, playerBackMusic is used for controlling play, pause, continue and termination of background music, and PlayerMusic is used for controlling prompt voice play and termination in a detection process.

Step 5: in kegel training, default is set，/>，/>For real-time values, a training will have N cycles, after each cycle, if/>，/>Or if/>，The ordinate value of the acquired real-time waveform is/>. The real-time graph is displayed in a percentage mode, so that the graph trend is displayed more clearly, and the phenomenon of too high or too low can not occur. Here,/>For myoelectric maximum, default maximum range [10,200],/>For myoelectric minima, a minimum range of [0,100],/>, is defaultedFor real-time myoelectricity acquisition values, if one cycle is 20s, compare every 20s, if/>The myoelectric maximum value range becomes [200], If/>The myoelectricity minimum value range becomes [0,/>]. According to/>，/>，/>Calculating the ordinate value/>, of the real-time waveform。

Kegel training refers to Kegel training, and the user regularly contracts or relaxes pelvic floor muscles according to voice prompts.

As shown in fig. 1, a multi-channel intelligent health data measurement and control system includes:

the industrial personal computer for health data measurement and control is used for controlling the left and right screen display units and the left and right audio output units and receiving information of the left and right screen user input units;

The industrial personal computer for health data measurement and control is communicated with the communication unit through a serial port, and receives data, such as health data signals, acquired by the multi-control board signal output/acquisition unit and processed by the parameter signal processing unit;

the industrial personal computer for health data measurement and control sends a stimulation instruction to be output through the communication unit and the parameter signal processing unit and through the multi-control board signal output/acquisition unit;

The industrial personal computer for health data measurement and control controls the channel opening and closing of the channel opening and closing unit through the communication unit;

The handheld intelligent control device comprises a user input unit and a display unit, wherein a user communicates with the equipment communication unit through wireless transmission through the input unit, and controls the channel opening and closing unit to open and close the channel opening, so that signal output and acquisition of the corresponding channel opening are realized;

The hand-held intelligent control device can also adjust the stimulation current through the input unit, send the stimulation current to the multi-control board signal output/acquisition unit through the communication unit, and receive feedback to display on the display unit of the hand-held intelligent control device.

While the embodiments of the present invention have been described above with reference to the processes illustrated by the embodiments, it will be understood by those skilled in the art that the present disclosure is not limited to the embodiments described above, and that each of the modifications, changes, and substitutions can be made without departing from the scope of the embodiments of the present invention.

Claims (6)

1. The method of the multichannel intelligent health data measurement and control system is characterized by comprising the following steps of:

step 1: starting a multichannel intelligent health data measurement and control system, and initializing parameters;

step 2: entering a screening/training module and a data management module which are arranged in the display unit;

step 3: carrying out single/double screen display on the data of the display unit in the step 2, wherein different combined schemes are realized under the double screen display;

the specific method of the step 2 comprises the following steps:

Entering a screening/training module to execute screening training, wherein the screening training is divided into a single person mode and a multi-person mode;

In the single person mode, the method specifically comprises the following steps:

Step 2-1-1: selecting a required channel number, selecting whether all probes for acquiring health data are used, if so, connecting the selected channel Port of the detection equipment with a probe for acquiring health data in a multi-channel body by using a probe wire, wherein Port is the equipment channel number; if not, distributing the selected channel port of the detection device to the in-vivo multichannel probe and the body surface probe according to any proportion, and connecting the probe ports with a probe line;

step 2-1-2: selecting a screening/training module, and popping up a window of a tested party information list;

Step 2-1-3: the method comprises the steps that a piece of information of a tested party is selected, a screening training scheme window is popped up, at the moment, an industrial personal computer for health data measurement and control sends opening and closing of a channel to a channel switch unit through a communication unit, the channel switch unit receives an instruction, and a corresponding channel is opened and closed;

At this time, a display unit on the handheld intelligent control device can lighten the selected channel number, and selects whether to change the currently selected channel number, if so, the user inputs the channel number to be used in the handheld intelligent control device, then step 2-1-4 is executed, and if not, step 2-1-4 is executed;

Step 2-1-4: if a training module of the screening/training module is selected, the current of each channel is sequentially input through an input unit of the handheld intelligent control device, the current intensity value is sent to a signal output/acquisition unit of the multi-control panel to output a signal value, the tested party completes current addition and subtraction and current adjustment through the tolerance degree to the current intensity, and the detection is started; if a screening module of the screening/training module is selected, direct screening is started;

Step 2-1-5: in the screening training process, the device can be interrupted at any time, and the channel opening which is not occupied by other people is changed through the handheld intelligent control device;

in the multi-person mode, the method specifically comprises the following steps:

Step 2-2-1: the body probe and the body surface probe of the first tested party are connected with two passage ports of the equipment through probe wires, and the body probe and the body surface probe of the second tested party are connected with the remaining two passage ports of the equipment through probe wires;

step 2-2-2: selecting a screening/training module, selecting whether screening training is performed simultaneously, if yes, executing the step 2-2-3, and if not, executing the step 2-2-5;

Step 2-2-3: selecting two tested party information, sending a closing instruction to a channel switch unit, closing a selected channel port, popping up whether the currently selected channel port is changed, inputting channel numbers required to be used by a tested party I and a tested party II in a handheld intelligent control device if the currently selected channel port is changed, executing the step 2-2-4, and directly executing the step 2-2-4 if the currently selected channel port is not changed;

step 2-2-4: if a training module of the screening/training module is selected, the current of each channel of the first tested party and the second tested party needs to be regulated, and after the regulation is finished, the detection is started; if a screening module of the screening/training module is selected, directly starting screening;

Step 2-2-5: selecting one tested party information, sending a closing instruction to a channel switch unit, closing a selected channel port, popping up whether the currently selected channel port is changed, inputting a channel number required to be used by the tested party in a handheld intelligent control device if the currently selected channel port is changed, executing the step 2-2-6, and directly executing the step 2-2-6 if the currently selected channel port is not changed;

Step 2-2-6: if a training module of the screening/training module is selected, the current of each channel of the tested party needs to be regulated, and after the regulation is finished, the tested party starts to detect; if a screening module of the screening/training module is selected, the tested party directly starts screening; if one tested party needs to be added in the screening training process, executing the steps 2-2-7;

Step 2-2-7: selecting whether to change the currently selected channel port, if so, inputting an unoccupied channel port number required to be used by a second party to be tested in the handheld intelligent control device, and executing the steps 2-2-8: if not, directly executing the step 2-2-8;

step 2-2-8: and if the first tested party is currently screening, the second tested party performs screening, and if the first tested party is currently training, the second tested party needs to adjust the current of each channel and perform training.

2. The method of a multi-channel intelligent health data measurement and control system of claim 1,

The method is characterized in that the specific method in the step 1 comprises the following steps:

step 1-1: establishing communication between the industrial personal computer and the control board for health data measurement and control and between the handheld intelligent controller device and the channel switching module through the communication unit;

Step 1-2: an enumeration function is called to enumerate the number of displays supported by the current detection instrument and the size of a displayable area of each display, and window display areas are allocated;

step 1-3: the industrial personal computer for health data measurement and control acquires the names of system audio output equipment and displays the names on the screen display unit in a list form;

Step 1-4: selecting a screen mode, and if the single screen mode is selected, controlling left and right screen display by a left screen user input unit; if the double-screen mode is selected, the left-screen user input unit controls left-screen display, and the right-screen user input unit controls right-screen display;

The single person mode in the single screen mode is used for controlling screening and training of a single person, and the multi-person mode in the single screen mode is used for controlling simultaneous screening or simultaneous training of a plurality of persons; the single person mode in the double-screen mode is different combination schemes that the single person is used for screening or training, the other screen is also operated randomly, and the multi-person mode in the double-screen mode is used for realizing asynchronous screening or asynchronous training.

3. The method of a multi-channel intelligent health data measurement and control system of claim 1,

The method is characterized by further comprising the following steps of:

Entering a data management module;

the specific process of entering the data management module comprises the following steps:

Step 2-3-1: selecting a data management module, popping up a data management window, selecting new/modified tested party information, popping up a new/modified tested party information window, triggering a save button, saving key information of a tested party into a database by adopting an AES symmetric encryption algorithm, and reading by adopting a DES symmetric decryption algorithm when reading, so that confidentiality of the tested party information is realized; meanwhile, the uuid of the tested party is used as a unique main key to prevent repeated creation of data, and the mobile phone number piTelehone of the tested party is used as an index to quickly search the wanted user information; selecting a statistics module, popping up a statistics window, and checking statistics data of different time periods; the scheme selecting module selects a new/modifying/importing button, pops up a new/modifying/importing window, triggers a save button and saves the scheme in the database.

4. The method of a multi-channel intelligent health data measurement and control system of claim 1,

The method is characterized in that the schemes of the different combinations comprise:

Scheme 1: screening/training single person mode + screening/training single person mode;

scheme 2: screening/training a multi-person mode + screening/training a multi-person mode;

scheme 3: screening/training single person mode + screening/training multiple person mode;

scheme 4: screening/training a multi-person mode + screening/training a single person mode;

Scheme 5: screening/training single person mode + data management;

scheme 6: screening/training a multi-person mode + data management;

scheme 7: data management + screening/training single person mode;

Scheme 8: data management + screening/training multi-person mode, "+" left and right sides represent left and right interfaces, respectively.

5. The method of a multi-channel intelligent health data measurement and control system of claim 1, further comprising the steps of:

Step 4: during the detection process, voice prompts are provided, and in order to relax the body of the tested party, the relaxed background music is played;

step 5: in kegel training, default is set ，/>，/>For real-time values, a training will have N cycles, after each cycle, if/>，/>Or if/>，/>The ordinate value of the acquired real-time waveform is/>。

6. A multi-channel intelligent health data measurement and control system for implementing the method of the multi-channel intelligent health data measurement and control system according to any one of claims 1-5, comprising:

the industrial personal computer for health data measurement and control is used for controlling the left and right screen display units and the left and right audio output units and receiving information of the left and right screen user input units;

The industrial personal computer for health data measurement and control is communicated with the communication unit through a serial port, and receives health data signals acquired by the multi-control board signal output/acquisition unit after being processed by the parameter signal processing unit;

the industrial personal computer for health data measurement and control sends a stimulation instruction to be output through the communication unit and the parameter signal processing unit and through the multi-control board signal output/acquisition unit;

The industrial personal computer for health data measurement and control controls the channel opening and closing of the channel opening and closing unit through the communication unit;

The handheld intelligent control device comprises a user input unit and a display unit, wherein a user communicates with the equipment communication unit through wireless transmission by the input unit, and controls the channel opening and closing unit to open and close the channel opening, so that signal output and acquisition of the corresponding channel opening are realized;

The hand-held intelligent control device also adjusts the stimulation current through the input unit, sends the stimulation current to the multi-control board signal output/acquisition unit through the communication unit, and receives feedback to display on the display unit of the hand-held intelligent control device.