CN111631689A - Doctor end management device based on remote inquiry traditional chinese medical science diagnosis pulse collector - Google Patents

Abstract

The application discloses doctor end management device, computer equipment and storage medium based on long-range inquiry traditional chinese medical science diagnosis pulse collector, doctor end management device based on long-range inquiry traditional chinese medical science diagnosis pulse collector acquires the unit through the remote communication request, and the unit is verified to the authority, and remote activation unit, multiple pulse signal acquisition unit, suggestion window display element, the setting of pulse signal transmission unit for internet traditional chinese medical science can realize. Wherein, this application has adopted special mode to realize the collection of pulse signal to adopt the design of tertiary terminal, make medical resource's utilization ratio more abundant.

Description

Doctor end management device based on remote inquiry traditional chinese medical science diagnosis pulse collector

Technical Field

The application relates to the field of computers, in particular to a doctor end management device, computer equipment and a storage medium based on a remote inquiry traditional Chinese medicine diagnosis pulse collector.

Background

The development of the internet has facilitated various industries. The internet medical treatment can establish a communication channel between a doctor and a patient, so that employment is more convenient. However, such internet medical treatment is generally limited to western medicine and is difficult to be realized in the field of traditional Chinese medicine. Therefore, the traditional technology lacks an internet traditional Chinese medicine scheme.

Disclosure of Invention

The application provides a doctor end management device based on long-range inquiry traditional chinese medical science diagnosis pulse collector is applied to first order doctor terminal, includes:

the remote communication request acquisition unit is used for receiving a remote communication request sent by a resident terminal; when the remote communication request is accompanied by a user corresponding to the resident terminal to perform contact interaction with a preset first manipulator, the first manipulator acquires an induction signal set; the first manipulator is the same as a real hand and is provided with five fingers and a palm; the first manipulator is provided with a plurality of sensor arrays, the first manipulator has a default authority state and an activation authority state, and the first manipulator is in the default authority state when not being remotely activated; the first manipulator in the default authority state is used for collecting signals so as to facilitate authority verification, and the first manipulator in the activated authority state is used for remote physiological data collection; the first manipulator is in signal connection with the resident terminal;

the authority verification unit is used for performing authority verification on the resident terminal according to the induction signal set to obtain an authority verification result and judging whether the authority verification result is authorized;

the remote activation unit is used for remotely activating the first manipulator if the permission verification result indicates that the first manipulator has permission, so that the first manipulator is in an activation permission state, and acquiring the permission for remotely controlling the first manipulator in the activation permission state; the relative positions of the fingers and the palm of the first manipulator in the activation permission state can be controlled through remote communication;

the first-level doctor terminal remotely controls the first manipulator to automatically switch various gestures when a user corresponding to the resident terminal places the first manipulator at an appointed position, so that a sensor on the first manipulator can acquire various pulse signals of the user corresponding to the resident terminal; each finger on the first manipulator is provided with a pressure sensor; the appointed position refers to a position where the first manipulator can acquire a pulse signal through a switching gesture;

the prompt window display unit is used for displaying a prompt window for judging whether signals need to be manually acquired or not on a screen of the first-level doctor terminal and judging whether the input of a traditional Chinese medicine doctor corresponding to the first-level doctor terminal aiming at the prompt window is acquired or not within preset time;

and the pulse signal transmitting unit is used for transmitting the various pulse signals to a preset second-level doctor terminal if the input of the traditional Chinese medical doctor corresponding to the first-level doctor terminal aiming at the prompt window is not acquired within the preset time.

Further, the right verifying unit includes:

the standard induction signal set calling subunit is used for calling a standard induction signal set in a preset database;

the comparison result acquisition subunit is configured to compare the sensing signal set acquired by the first manipulator with the standard sensing signal set to obtain a comparison result;

a comparison result judgment subunit, configured to judge whether the comparison results are the same;

and the permission verification result judging subunit is used for judging that the permission verification result is authorized if the comparison results are the same.

Further, the various pulse signal acquisition units comprise:

the first gesture switching subunit is used for remotely controlling the first manipulator to switch the gestures of a first quantity by the first-level doctor terminal, and acquiring signals by using a pressure sensor on a finger on the first manipulator while switching the gestures of the first quantity so as to obtain pulse signals of the first quantity;

a first pulse signal group generating subunit configured to form a first pulse signal group from the first number of pulse signals;

the first prediction result acquisition subunit is used for inputting the first pulse signal group into a preset pulse data sufficient prediction model so as to obtain a first prediction result output by the pulse data sufficient prediction model;

a first prediction result judgment subunit configured to judge whether the first prediction result is sufficient;

the second gesture switching subunit is used for remotely controlling the first manipulator to switch the gestures of a second quantity if the first prediction result is insufficient, and acquiring signals by using a pressure sensor on a finger on the first manipulator while switching the gestures of the second quantity so as to obtain pulse signals of the second quantity;

a second pulse signal group generating subunit, configured to configure the first number of pulse signals and the second number of pulse signals into a second pulse signal group;

the second prediction result acquisition subunit is used for inputting the second pulse signal group into a preset pulse data sufficient prediction model so as to obtain a second prediction result output by the pulse data sufficient prediction model;

a second prediction result judgment subunit configured to judge whether the second prediction result is sufficient;

and the pulse signal acquisition subunit is used for continuously carrying out the steps of gesture switching, pulse signal acquisition and pulse data full prediction if the second prediction result is insufficient until the prediction result output by the pulse data full prediction model is sufficient, so that the acquisition process of various pulse signals of the user corresponding to the resident terminal is completed.

Further, doctor end management device based on long-range inquiry traditional chinese medical science diagnosis pulse collector includes: the system comprises a sample data acquisition unit, a verification unit and a data processing unit, wherein the sample data acquisition unit is used for acquiring pre-collected sample data and dividing the sample data into training data and verification data; each sample data is composed of a group of training pulse signal groups and corresponding labels which are manually marked or not;

the training unit is used for inputting the training data into a preset neural network model for training so as to obtain a temporary model;

a temporary model verification unit, configured to verify the temporary model by using the verification data, and determine whether a verification result is a pass;

and a temporary model marking unit for marking the temporary model as a sufficient pulse data prediction model if the verification result is passed.

Further, doctor end management device based on long-range inquiry traditional chinese medical science diagnosis pulse collector includes:

the second manipulator activation unit is used for activating a second manipulator in signal connection with the first-stage doctor terminal if the input of the traditional Chinese medical doctor corresponding to the first-stage doctor terminal aiming at the prompt window is acquired within the preset time; the second manipulator is provided with a plurality of temperature generators and a plurality of vibration generators, and the positions of the temperature generators and the vibration generators on the second manipulator respectively correspond to the positions of the sensor arrays on the first manipulator;

the first signal data set acquisition unit is used for acquiring a first signal data set acquired by a plurality of sensor arrays on the first manipulator in real time and responding the first signal data set to a second manipulator in a manner that the first manipulator corresponds to the second manipulator;

when the hands of the traditional Chinese medicine doctors corresponding to the first-stage doctor terminal are shot in real time to interact with the second mechanical arm, the preset multiple cameras are adopted to shoot the hands of the traditional Chinese medicine doctors corresponding to the first-stage doctor terminal in real time at multiple angles, so that multiple pictures are obtained in real time;

the real-time adjusting unit is used for adjusting the relative positions of each finger and the palm of the first manipulator in real time according to the plurality of pictures and acquiring a supplementary pulse signal acquired by a pressure sensor on the finger of the first manipulator in real time;

and the supplementary pulse signal sending unit is used for transmitting the supplementary pulse signals and the various pulse signals to a preset second-level doctor terminal.

The application provides computer equipment which comprises a memory and a processor, wherein the memory stores a computer program, the processor realizes a doctor-side management method based on a remote inquiry traditional Chinese medicine diagnosis pulse collector when executing the computer program, and the doctor-side management method based on the remote inquiry traditional Chinese medicine diagnosis pulse collector is executed by the doctor-side management device based on the remote inquiry traditional Chinese medicine diagnosis pulse collector; the doctor end management method based on the remote inquiry traditional Chinese medicine diagnosis pulse collector comprises the following steps:

receiving a remote communication request sent by a resident terminal; when the remote communication request is accompanied by a user corresponding to the resident terminal to perform contact interaction with a preset first manipulator, the first manipulator acquires an induction signal set; the first manipulator is the same as a real hand and is provided with five fingers and a palm; the first manipulator is provided with a plurality of sensor arrays, the first manipulator has a default authority state and an activation authority state, and the first manipulator is in the default authority state when not being remotely activated; the first manipulator in the default authority state is used for collecting signals so as to facilitate authority verification, and the first manipulator in the activated authority state is used for remote physiological data collection; the first manipulator is in signal connection with the resident terminal;

performing authority verification on the residential terminal according to the induction signal set to obtain an authority verification result, and judging whether the authority verification result is authorized;

if the permission verification result is that the first manipulator has permission, remotely activating the first manipulator to enable the first manipulator to be in an activation permission state, and acquiring the permission for remotely controlling the first manipulator in the activation permission state; the relative positions of the fingers and the palm of the first manipulator in the activation permission state can be controlled through remote communication;

when a user corresponding to the resident terminal places a first manipulator at an appointed position, the first-level doctor terminal remotely controls the first manipulator to automatically switch various gestures, so that a sensor on the first manipulator can acquire various pulse signals of the user corresponding to the resident terminal; each finger on the first manipulator is provided with a pressure sensor; the appointed position refers to a position where the first manipulator can acquire a pulse signal through a switching gesture;

displaying a prompt window for judging whether signals need to be manually acquired or not on a screen of the first-level doctor terminal, and judging whether the input of a traditional Chinese medicine doctor corresponding to the first-level doctor terminal aiming at the prompt window is acquired or not within a preset time;

and if the input of the traditional Chinese medical doctor corresponding to the first-level doctor terminal aiming at the prompt window is not obtained within the preset time, transmitting the various pulse signals to a preset second-level doctor terminal.

The application provides a computer-readable storage medium, wherein a computer program is stored on the computer-readable storage medium, and when the computer program is executed by a processor, the doctor-side management method based on the remote inquiry traditional Chinese medicine diagnosis pulse collector is realized, and is executed by the doctor-side management device based on the remote inquiry traditional Chinese medicine diagnosis pulse collector; the doctor end management method based on the remote inquiry traditional Chinese medicine diagnosis pulse collector comprises the following steps:

receiving a remote communication request sent by a resident terminal; when the remote communication request is accompanied by a user corresponding to the resident terminal to perform contact interaction with a preset first manipulator, the first manipulator acquires an induction signal set; the first manipulator is the same as a real hand and is provided with five fingers and a palm; the first manipulator is provided with a plurality of sensor arrays, the first manipulator has a default authority state and an activation authority state, and the first manipulator is in the default authority state when not being remotely activated; the first manipulator in the default authority state is used for collecting signals so as to facilitate authority verification, and the first manipulator in the activated authority state is used for remote physiological data collection; the first manipulator is in signal connection with the resident terminal;

performing authority verification on the residential terminal according to the induction signal set to obtain an authority verification result, and judging whether the authority verification result is authorized;

if the permission verification result is that the first manipulator has permission, remotely activating the first manipulator to enable the first manipulator to be in an activation permission state, and acquiring the permission for remotely controlling the first manipulator in the activation permission state; the relative positions of the fingers and the palm of the first manipulator in the activation permission state can be controlled through remote communication;

when a user corresponding to the resident terminal places a first manipulator at an appointed position, the first-level doctor terminal remotely controls the first manipulator to automatically switch various gestures, so that a sensor on the first manipulator can acquire various pulse signals of the user corresponding to the resident terminal; each finger on the first manipulator is provided with a pressure sensor; the appointed position refers to a position where the first manipulator can acquire a pulse signal through a switching gesture;

displaying a prompt window for judging whether signals need to be manually acquired or not on a screen of the first-level doctor terminal, and judging whether the input of a traditional Chinese medicine doctor corresponding to the first-level doctor terminal aiming at the prompt window is acquired or not within a preset time;

and if the input of the traditional Chinese medical doctor corresponding to the first-level doctor terminal aiming at the prompt window is not obtained within the preset time, transmitting the various pulse signals to a preset second-level doctor terminal.

The doctor end management device based on remote inquiry traditional Chinese medicine diagnosis pulse collector, the computer equipment and the storage medium acquire the unit through the remote communication request, the authority verification unit, the remote activation unit, the multiple pulse signal acquisition units, the prompt window display unit and the pulse signal transmission unit, so that the traditional Chinese medicine on the internet can be realized. Wherein, this application has adopted special mode to realize the collection of pulse signal to adopt the design of tertiary terminal, make medical resource's utilization ratio more abundant.

Drawings

Fig. 1 is a schematic block diagram of a doctor end management device based on a remote interrogation traditional Chinese medicine diagnosis pulse collector according to an embodiment of the present application;

fig. 2 is a block diagram illustrating a structure of a computer device according to an embodiment of the present application.

The implementation, functional features and advantages of the objectives of the present application will be further explained with reference to the accompanying drawings.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the present application is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

Referring to fig. 1, an embodiment of the present application provides a doctor end management device based on a remote interrogation traditional chinese medical science diagnosis pulse collector, is applied to first-level doctor terminal, includes:

a remote communication request acquisition unit 10 for receiving a remote communication request sent from a residential terminal; when the remote communication request is accompanied by a user corresponding to the resident terminal to perform contact interaction with a preset first manipulator, the first manipulator acquires an induction signal set; the first manipulator is the same as a real hand and is provided with five fingers and a palm; the first manipulator is provided with a plurality of sensor arrays, the first manipulator has a default authority state and an activation authority state, and the first manipulator is in the default authority state when not being remotely activated; the first manipulator in the default authority state is used for collecting signals so as to facilitate authority verification, and the first manipulator in the activated authority state is used for remote physiological data collection; the first manipulator is in signal connection with the resident terminal;

the authority verification unit 20 is configured to perform authority verification on the residential terminal according to the sensing signal set to obtain an authority verification result, and determine whether the authority verification result is authorized;

the remote activation unit 30 is configured to remotely activate the first manipulator if the permission verification result indicates that the first manipulator has permission, so that the first manipulator is in an activation permission state, and acquire permission for remotely controlling the first manipulator in the activation permission state; the relative positions of the fingers and the palm of the first manipulator in the activation permission state can be controlled through remote communication;

the multiple pulse signal acquisition unit 40 is configured to remotely control the first manipulator to perform automatic switching of multiple gestures when a user corresponding to the resident terminal places the first manipulator at an assigned position, so that a sensor on the first manipulator can acquire multiple pulse signals of the user corresponding to the resident terminal; each finger on the first manipulator is provided with a pressure sensor; the appointed position refers to a position where the first manipulator can acquire a pulse signal through a switching gesture;

a prompt window display unit 50, configured to display a prompt window indicating whether manual signal acquisition is required or not on a screen of the first-level doctor terminal, and determine whether input of a traditional Chinese medicine doctor corresponding to the first-level doctor terminal for the prompt window is acquired within a preset time;

and a pulse signal transmitting unit 60, configured to transmit the multiple pulse signals to a preset second-level doctor terminal if the input of the chinese medical doctor corresponding to the first-level doctor terminal to the prompt window is not obtained within a preset time.

The application realizes Internet traditional Chinese medicine through special design. The application can realize Internet traditional Chinese medicine, but the traditional technology cannot realize the Internet traditional Chinese medicine, which is related to the essence of the traditional Chinese medicine. Traditional Chinese medicine generally makes a sense of beauty, wherein pulse feeling refers to pulse feeling, the pulse feeling modes are different according to different doctors, and the traditional technology is difficult to realize remote pulse feeling, so that the traditional technology cannot realize an internet traditional Chinese medicine scheme. The pulse signal acquisition is realized in a special mode. It should be noted that the pulse signals collected by the present application are not used for diagnosis and treatment of diseases, and only various pulse signals are transmitted to a preset second-level doctor terminal. Namely, the design of three ends and two ends is adopted in the application, and the medical pressure can be reduced, wherein the three ends refer to a resident terminal, a first-level doctor terminal and a second-level doctor terminal, the first-level doctor terminal is an execution main body of the application, but the first-level doctor terminal does not diagnose and treat diseases.

The remote communication request acquisition unit is used for receiving a remote communication request sent by a resident terminal; when the remote communication request is accompanied by a user corresponding to the resident terminal to perform contact interaction with a preset first manipulator, the first manipulator acquires an induction signal set; the first manipulator is the same as a real hand and is provided with five fingers and a palm; the first manipulator is provided with a plurality of sensor arrays, the first manipulator has a default authority state and an activation authority state, and the first manipulator is in the default authority state when not being remotely activated; the first manipulator in the default authority state is used for collecting signals so as to facilitate authority verification, and the first manipulator in the activated authority state is used for remote physiological data collection; and the first manipulator is in signal connection with the resident terminal. It should be noted that the residential terminal of the present application is corresponding to the first manipulator signal, that is, a user corresponding to the residential terminal can interact with the first manipulator, and the interactions are different gestures such as shaking hands, clapping hands, crossing fingers, and the like. And the first manipulator has two modes, when the first manipulator is in a default authority state, the first manipulator is only used for authority verification, and when the first manipulator is in an activated authority state, the first manipulator is only used for remote physiological data acquisition.

The permission verification unit is used for performing permission verification on the resident terminal according to the sensing signal set to obtain a permission verification result and judging whether the permission verification result is a permission. The authority verification of the application is a special verification mode which is designed based on special structures of different human bodies. For example, some people have thumbs that can make an S-bend gesture, which some people cannot. Similar gestures are many, so that after the information of the gestures which can be performed by the user and cannot be performed by the user is fully acquired, the user can be determined according to different habits (reflected on hands, such as different pressure differences among different fingers, and the like) of different users, and then whether the user has the authority or not is determined according to a preset user-authority list.

Further, the right verifying unit includes:

the standard induction signal set calling subunit is used for calling a standard induction signal set in a preset database;

the comparison result acquisition subunit is configured to compare the sensing signal set acquired by the first manipulator with the standard sensing signal set to obtain a comparison result;

a comparison result judgment subunit, configured to judge whether the comparison results are the same;

and the permission verification result judging subunit is used for judging that the permission verification result is authorized if the comparison results are the same.

Therefore, a corresponding standard induction signal set is determined by comparing the induction signal sets, and whether the authority label is marked in advance according to the standard induction signal set can be known.

The remote activation unit is configured to remotely activate the first manipulator if the permission verification result indicates that the first manipulator has permission, so that the first manipulator is in an activation permission state, and acquire permission for remotely controlling the first manipulator in the activation permission state; wherein, the relative position between each finger and the palm of the first manipulator in the activation authority state can be controlled through remote communication. The purpose of remotely activating the first manipulator is that the first-level doctor terminal can control the first manipulator, so that pulse signals of residents are acquired by the aid of the first manipulator.

The multiple pulse signal acquisition units are used for remotely controlling the first manipulator to automatically switch multiple gestures when a user corresponding to the resident terminal places the first manipulator at an appointed position, so that a sensor on the first manipulator can acquire multiple pulse signals of the user corresponding to the resident terminal; each finger on the first manipulator is provided with a pressure sensor; the specified position refers to a position where the first manipulator can acquire a pulse signal through a switching gesture. At the moment, the first manipulator is remotely controlled to automatically switch among various gestures, and the automatic switching is automatically executed by a computer, so that various preset pulse signals are acquired.

Further, the various pulse signal acquisition units comprise:

the first gesture switching subunit is used for remotely controlling the first manipulator to switch the gestures of a first quantity by the first-level doctor terminal, and acquiring signals by using a pressure sensor on a finger on the first manipulator while switching the gestures of the first quantity so as to obtain pulse signals of the first quantity;

a first pulse signal group generating subunit configured to form a first pulse signal group from the first number of pulse signals;

the first prediction result acquisition subunit is used for inputting the first pulse signal group into a preset pulse data sufficient prediction model so as to obtain a first prediction result output by the pulse data sufficient prediction model;

a first prediction result judgment subunit configured to judge whether the first prediction result is sufficient;

the second gesture switching subunit is used for remotely controlling the first manipulator to switch the gestures of a second quantity if the first prediction result is insufficient, and acquiring signals by using a pressure sensor on a finger on the first manipulator while switching the gestures of the second quantity so as to obtain pulse signals of the second quantity;

a second pulse signal group generating subunit, configured to configure the first number of pulse signals and the second number of pulse signals into a second pulse signal group;

the second prediction result acquisition subunit is used for inputting the second pulse signal group into a preset pulse data sufficient prediction model so as to obtain a second prediction result output by the pulse data sufficient prediction model;

a second prediction result judgment subunit configured to judge whether the second prediction result is sufficient;

and the pulse signal acquisition subunit is used for continuously carrying out the steps of gesture switching, pulse signal acquisition and pulse data full prediction if the second prediction result is insufficient until the prediction result output by the pulse data full prediction model is sufficient, so that the acquisition process of various pulse signals of the user corresponding to the resident terminal is completed.

Thereby making it possible to automatically acquire a sufficient pulse signal. And only a few times of pulse signal acquisition is carried out in the pulse signal acquisition process. Wherein the first number is the largest of all numbers, i.e. the first number is larger than the second number and also larger than the possible third number.

Further, the apparatus further comprises:

the system comprises a sample data acquisition unit, a verification unit and a data processing unit, wherein the sample data acquisition unit is used for acquiring pre-collected sample data and dividing the sample data into training data and verification data; each sample data is composed of a group of training pulse signal groups and corresponding labels which are manually marked or not;

the training unit is used for inputting the training data into a preset neural network model for training so as to obtain a temporary model;

a temporary model verification unit, configured to verify the temporary model by using the verification data, and determine whether a verification result is a pass;

and a temporary model marking unit for marking the temporary model as a sufficient pulse data prediction model if the verification result is passed.

Thereby obtaining a pulse data full predictive model. The pulse data sufficient prediction model is formed by training sample data, and each sample data is formed by a group of training pulse signal groups and corresponding labels which are manually marked to be sufficient or not, so that the pulse data sufficient prediction model can be competent for the task of predicting whether the pulse signals are sufficient or not.

The prompt window display unit is used for displaying a prompt window for manually acquiring signals on a screen of the first-level doctor terminal and judging whether the input of the prompt window is obtained by a traditional Chinese medicine doctor corresponding to the first-level doctor terminal within preset time. The design of the prompt window display unit is to give the doctor of traditional Chinese medicine the opportunity of manually collecting pulse signals. The pulse feeling of traditional Chinese medicine has high requirements on the experience of doctors, so that the pulse signals acquired automatically may not be accurate and sufficient. Therefore, the doctor can perform manual pulse-taking operation through the prompting window.

Further, the apparatus further comprises:

the second manipulator activation unit is used for activating a second manipulator in signal connection with the first-stage doctor terminal if the input of the traditional Chinese medical doctor corresponding to the first-stage doctor terminal aiming at the prompt window is acquired within the preset time; the second manipulator is provided with a plurality of temperature generators and a plurality of vibration generators, and the positions of the temperature generators and the vibration generators on the second manipulator respectively correspond to the positions of the sensor arrays on the first manipulator;

the first signal data set acquisition unit is used for acquiring a first signal data set acquired by a plurality of sensor arrays on the first manipulator in real time and responding the first signal data set to a second manipulator in a manner that the first manipulator corresponds to the second manipulator;

when the hands of the traditional Chinese medicine doctors corresponding to the first-stage doctor terminal are shot in real time to interact with the second mechanical arm, the preset multiple cameras are adopted to shoot the hands of the traditional Chinese medicine doctors corresponding to the first-stage doctor terminal in real time at multiple angles, so that multiple pictures are obtained in real time;

the real-time adjusting unit is used for adjusting the relative positions of each finger and the palm of the first manipulator in real time according to the plurality of pictures and acquiring a supplementary pulse signal acquired by a pressure sensor on the finger of the first manipulator in real time;

and the supplementary pulse signal sending unit is used for transmitting the supplementary pulse signals and the various pulse signals to a preset second-level doctor terminal.

Therefore, traditional Chinese medical doctors corresponding to the first-level doctor terminal can realize the interaction of hands of resident terminal users through the second mechanical arm and the first mechanical arm, and therefore the collection of supplementary pulse signals is realized.

The pulse signal transmitting unit is used for transmitting the various pulse signals to a preset second-level doctor terminal if the input of the traditional Chinese medical doctor corresponding to the first-level doctor terminal aiming at the prompt window is not acquired within the preset time. One of the great features of the present application is that the pulse feeling is separated out separately. The traditional Chinese medical doctors are difficult to cultivate, and relatively speaking, the traditional Chinese medical doctors who are capable of dredging and feeling the pulse are easy to cultivate. Therefore, the pressure of lack of medical resources can be effectively relieved through the separation arrangement of the first-level doctor terminal and the second-level doctor terminal.

The doctor end management device based on remote inquiry traditional Chinese medicine diagnosis pulse collector obtains the unit through the remote communication request, and the unit is verified to the authority, and remote activation unit, multiple pulse signal acquisition unit, suggestion window display element, the setting of pulse signal transmission unit for internet traditional chinese medicine can realize. This application has adopted special mode to realize the collection of pulse signal to adopt the design at tertiary terminal, make medical resource's utilization ratio more abundant.

Referring to fig. 2, an embodiment of the present invention further provides a computer device, where the computer device may be a server, and an internal structure of the computer device may be as shown in the figure. The computer device includes a processor, a memory, a network interface, and a database connected by a system bus. Wherein the computer designed processor is used to provide computational and control capabilities. The memory of the computer device comprises a nonvolatile storage medium and an internal memory. The non-volatile storage medium stores an operating system, a computer program, and a database. The memory provides an environment for the operation of the operating system and the computer program in the non-volatile storage medium. The database of the computer equipment is used for storing data used by a doctor-end management method based on the remote inquiry traditional Chinese medicine diagnosis pulse collector. The network interface of the computer device is used for communicating with an external terminal through a network connection. The computer program is executed by a processor to realize a doctor end management method based on a remote inquiry traditional Chinese medicine diagnosis pulse collector.

The processor executes the doctor-side management method based on the remote interrogation traditional Chinese medicine diagnosis pulse collector, wherein the steps of the method are in one-to-one correspondence with the steps executed by the doctor-side management device based on the remote interrogation traditional Chinese medicine diagnosis pulse collector of the embodiment, for example, the method comprises the following steps:

receiving a remote communication request sent by a resident terminal; when the remote communication request is accompanied by a user corresponding to the resident terminal to perform contact interaction with a preset first manipulator, the first manipulator acquires an induction signal set; the first manipulator is the same as a real hand and is provided with five fingers and a palm; the first manipulator is provided with a plurality of sensor arrays, the first manipulator has a default authority state and an activation authority state, and the first manipulator is in the default authority state when not being remotely activated; the first manipulator in the default authority state is used for collecting signals so as to facilitate authority verification, and the first manipulator in the activated authority state is used for remote physiological data collection; the first manipulator is in signal connection with the resident terminal;

performing authority verification on the residential terminal according to the induction signal set to obtain an authority verification result, and judging whether the authority verification result is authorized;

if the permission verification result is that the first manipulator has permission, remotely activating the first manipulator to enable the first manipulator to be in an activation permission state, and acquiring the permission for remotely controlling the first manipulator in the activation permission state; the relative positions of the fingers and the palm of the first manipulator in the activation permission state can be controlled through remote communication;

when a user corresponding to the resident terminal places a first manipulator at an appointed position, the first-level doctor terminal remotely controls the first manipulator to automatically switch various gestures, so that a sensor on the first manipulator can acquire various pulse signals of the user corresponding to the resident terminal; each finger on the first manipulator is provided with a pressure sensor; the appointed position refers to a position where the first manipulator can acquire a pulse signal through a switching gesture;

displaying a prompt window for judging whether signals need to be manually acquired or not on a screen of the first-level doctor terminal, and judging whether the input of a traditional Chinese medicine doctor corresponding to the first-level doctor terminal aiming at the prompt window is acquired or not within a preset time;

and if the input of the traditional Chinese medical doctor corresponding to the first-level doctor terminal aiming at the prompt window is not obtained within the preset time, transmitting the various pulse signals to a preset second-level doctor terminal.

It will be understood by those skilled in the art that the structures shown in the drawings are only block diagrams of some of the structures associated with the embodiments of the present application and do not constitute a limitation on the computer apparatus to which the embodiments of the present application may be applied.

An embodiment of the present application further provides a computer-readable storage medium, on which a computer program is stored, and when the computer program is executed by a processor, the method for doctor-side management based on a remote interrogation pulse collector is implemented, where the method includes steps corresponding to the steps executed by the doctor-side management apparatus based on a remote interrogation pulse collector of the foregoing embodiment, for example, the method includes:

receiving a remote communication request sent by a resident terminal; when the remote communication request is accompanied by a user corresponding to the resident terminal to perform contact interaction with a preset first manipulator, the first manipulator acquires an induction signal set; the first manipulator is the same as a real hand and is provided with five fingers and a palm; the first manipulator is provided with a plurality of sensor arrays, the first manipulator has a default authority state and an activation authority state, and the first manipulator is in the default authority state when not being remotely activated; the first manipulator in the default authority state is used for collecting signals so as to facilitate authority verification, and the first manipulator in the activated authority state is used for remote physiological data collection; the first manipulator is in signal connection with the resident terminal;

performing authority verification on the residential terminal according to the induction signal set to obtain an authority verification result, and judging whether the authority verification result is authorized;

if the permission verification result is that the first manipulator has permission, remotely activating the first manipulator to enable the first manipulator to be in an activation permission state, and acquiring the permission for remotely controlling the first manipulator in the activation permission state; the relative positions of the fingers and the palm of the first manipulator in the activation permission state can be controlled through remote communication;

when a user corresponding to the resident terminal places a first manipulator at an appointed position, the first-level doctor terminal remotely controls the first manipulator to automatically switch various gestures, so that a sensor on the first manipulator can acquire various pulse signals of the user corresponding to the resident terminal; each finger on the first manipulator is provided with a pressure sensor; the appointed position refers to a position where the first manipulator can acquire a pulse signal through a switching gesture;

displaying a prompt window for judging whether signals need to be manually acquired or not on a screen of the first-level doctor terminal, and judging whether the input of a traditional Chinese medicine doctor corresponding to the first-level doctor terminal aiming at the prompt window is acquired or not within a preset time;

and if the input of the traditional Chinese medical doctor corresponding to the first-level doctor terminal aiming at the prompt window is not obtained within the preset time, transmitting the various pulse signals to a preset second-level doctor terminal.

It will be understood by those skilled in the art that all or part of the processes of the methods of the embodiments described above can be implemented by hardware instructions of a computer program, which can be stored in a non-volatile computer-readable storage medium, and when executed, can include the processes of the embodiments of the methods described above. Any reference to memory, storage, database, or other medium provided herein and used in the examples may include non-volatile and/or volatile memory. Non-volatile memory can include read-only memory (ROM), Programmable ROM (PROM), Electrically Programmable ROM (EPROM), Electrically Erasable Programmable ROM (EEPROM), or flash memory. Volatile memory can include Random Access Memory (RAM) or external cache memory. By way of illustration and not limitation, RAM is available in a variety of forms such as Static RAM (SRAM), Dynamic RAM (DRAM), Synchronous DRAM (SDRAM), double-rate SDRAM (SSRSDRAM), Enhanced SDRAM (ESDRAM), synchronous link (Synchlink) DRAM (SLDRAM), Rambus Direct RAM (RDRAM), direct bus dynamic RAM (DRDRAM), and bus dynamic RAM (RDRAM).

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, apparatus, article, or method that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, apparatus, article, or method. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other like elements in a process, apparatus, article, or method that includes the element.

The above description is only a preferred embodiment of the present application, and not intended to limit the scope of the present application, and all modifications of equivalent structures and equivalent processes, which are made by the contents of the specification and the drawings of the present application, or which are directly or indirectly applied to other related technical fields, are also included in the scope of the present application.

Claims (7)

1. The utility model provides a doctor end management device based on long-range inquiry traditional chinese medical science diagnosis pulse collector which characterized in that is applied to first order doctor terminal, includes:

the remote communication request acquisition unit is used for receiving a remote communication request sent by a resident terminal; when the remote communication request is accompanied by a user corresponding to the resident terminal to perform contact interaction with a preset first manipulator, the first manipulator acquires an induction signal set; the first manipulator is the same as a real hand and is provided with five fingers and a palm; the first manipulator is provided with a plurality of sensor arrays, the first manipulator has a default authority state and an activation authority state, and the first manipulator is in the default authority state when not being remotely activated; the first manipulator in the default authority state is used for collecting signals so as to facilitate authority verification, and the first manipulator in the activated authority state is used for remote physiological data collection; the first manipulator is in signal connection with the resident terminal;

the authority verification unit is used for performing authority verification on the resident terminal according to the induction signal set to obtain an authority verification result and judging whether the authority verification result is authorized;

the remote activation unit is used for remotely activating the first manipulator if the permission verification result indicates that the first manipulator has permission, so that the first manipulator is in an activation permission state, and acquiring the permission for remotely controlling the first manipulator in the activation permission state; the relative positions of the fingers and the palm of the first manipulator in the activation permission state can be controlled through remote communication;

the first-level doctor terminal remotely controls the first manipulator to automatically switch various gestures when a user corresponding to the resident terminal places the first manipulator at an appointed position, so that a sensor on the first manipulator can acquire various pulse signals of the user corresponding to the resident terminal; each finger on the first manipulator is provided with a pressure sensor; the appointed position refers to a position where the first manipulator can acquire a pulse signal through a switching gesture;

the prompt window display unit is used for displaying a prompt window for judging whether signals need to be manually acquired or not on a screen of the first-level doctor terminal and judging whether the input of a traditional Chinese medicine doctor corresponding to the first-level doctor terminal aiming at the prompt window is acquired or not within preset time;

and the pulse signal transmitting unit is used for transmitting the various pulse signals to a preset second-level doctor terminal if the input of the traditional Chinese medical doctor corresponding to the first-level doctor terminal aiming at the prompt window is not acquired within the preset time.

2. The doctor end management device based on the remote interrogation traditional Chinese medicine diagnosis pulse collector of claim 1, wherein the permission verification unit comprises:

the standard induction signal set calling subunit is used for calling a standard induction signal set in a preset database;

the comparison result acquisition subunit is configured to compare the sensing signal set acquired by the first manipulator with the standard sensing signal set to obtain a comparison result;

a comparison result judgment subunit, configured to judge whether the comparison results are the same;

and the permission verification result judging subunit is used for judging that the permission verification result is authorized if the comparison results are the same.

3. The doctor end management device based on the remote interrogation traditional Chinese medicine diagnosis pulse collector of claim 1, wherein the multiple pulse signal collecting units comprise:

the first gesture switching subunit is used for remotely controlling the first manipulator to switch the gestures of a first quantity by the first-level doctor terminal, and acquiring signals by using a pressure sensor on a finger on the first manipulator while switching the gestures of the first quantity so as to obtain pulse signals of the first quantity;

a first pulse signal group generating subunit configured to form a first pulse signal group from the first number of pulse signals;

the first prediction result acquisition subunit is used for inputting the first pulse signal group into a preset pulse data sufficient prediction model so as to obtain a first prediction result output by the pulse data sufficient prediction model;

a first prediction result judgment subunit configured to judge whether the first prediction result is sufficient;

the second gesture switching subunit is used for remotely controlling the first manipulator to switch the gestures of a second quantity if the first prediction result is insufficient, and acquiring signals by using a pressure sensor on a finger on the first manipulator while switching the gestures of the second quantity so as to obtain pulse signals of the second quantity;

a second pulse signal group generating subunit, configured to configure the first number of pulse signals and the second number of pulse signals into a second pulse signal group;

the second prediction result acquisition subunit is used for inputting the second pulse signal group into a preset pulse data sufficient prediction model so as to obtain a second prediction result output by the pulse data sufficient prediction model;

a second prediction result judgment subunit configured to judge whether the second prediction result is sufficient;

and the pulse signal acquisition subunit is used for continuously carrying out the steps of gesture switching, pulse signal acquisition and pulse data full prediction if the second prediction result is insufficient until the prediction result output by the pulse data full prediction model is sufficient, so that the acquisition process of various pulse signals of the user corresponding to the resident terminal is completed.

4. The doctor end management device based on the remote interrogation traditional Chinese medicine diagnosis pulse collector of claim 3, wherein the doctor end management device based on the remote interrogation traditional Chinese medicine diagnosis pulse collector comprises: the system comprises a sample data acquisition unit, a verification unit and a data processing unit, wherein the sample data acquisition unit is used for acquiring pre-collected sample data and dividing the sample data into training data and verification data; each sample data is composed of a group of training pulse signal groups and corresponding labels which are manually marked or not;

the training unit is used for inputting the training data into a preset neural network model for training so as to obtain a temporary model;

a temporary model verification unit, configured to verify the temporary model by using the verification data, and determine whether a verification result is a pass;

and a temporary model marking unit for marking the temporary model as a sufficient pulse data prediction model if the verification result is passed.

5. The doctor end management device based on the remote interrogation traditional Chinese medicine diagnosis pulse collector of claim 1, wherein the doctor end management device based on the remote interrogation traditional Chinese medicine diagnosis pulse collector comprises:

the second manipulator activation unit is used for activating a second manipulator in signal connection with the first-stage doctor terminal if the input of the traditional Chinese medical doctor corresponding to the first-stage doctor terminal aiming at the prompt window is acquired within the preset time; the second manipulator is provided with a plurality of temperature generators and a plurality of vibration generators, and the positions of the temperature generators and the vibration generators on the second manipulator respectively correspond to the positions of the sensor arrays on the first manipulator;

the first signal data set acquisition unit is used for acquiring a first signal data set acquired by a plurality of sensor arrays on the first manipulator in real time and responding the first signal data set to a second manipulator in a manner that the first manipulator corresponds to the second manipulator;

when the hands of the traditional Chinese medicine doctors corresponding to the first-stage doctor terminal are shot in real time to interact with the second mechanical arm, the preset multiple cameras are adopted to shoot the hands of the traditional Chinese medicine doctors corresponding to the first-stage doctor terminal in real time at multiple angles, so that multiple pictures are obtained in real time;

the real-time adjusting unit is used for adjusting the relative positions of each finger and the palm of the first manipulator in real time according to the plurality of pictures and acquiring a supplementary pulse signal acquired by a pressure sensor on the finger of the first manipulator in real time;

and the supplementary pulse signal sending unit is used for transmitting the supplementary pulse signals and the various pulse signals to a preset second-level doctor terminal.

6. A computer device, comprising a memory and a processor, wherein the memory stores a computer program, and the processor implements a doctor-side management method based on a remote interrogation traditional Chinese medicine diagnosis pulse collector when executing the computer program, and the doctor-side management method based on the remote interrogation traditional Chinese medicine diagnosis pulse collector is executed by the doctor-side management device based on the remote interrogation traditional Chinese medicine diagnosis pulse collector in claim 1; the doctor end management method based on the remote inquiry traditional Chinese medicine diagnosis pulse collector comprises the following steps:

receiving a remote communication request sent by a resident terminal; when the remote communication request is accompanied by a user corresponding to the resident terminal to perform contact interaction with a preset first manipulator, the first manipulator acquires an induction signal set; the first manipulator is the same as a real hand and is provided with five fingers and a palm; the first manipulator is provided with a plurality of sensor arrays, the first manipulator has a default authority state and an activation authority state, and the first manipulator is in the default authority state when not being remotely activated; the first manipulator in the default authority state is used for collecting signals so as to facilitate authority verification, and the first manipulator in the activated authority state is used for remote physiological data collection; the first manipulator is in signal connection with the resident terminal;

performing authority verification on the residential terminal according to the induction signal set to obtain an authority verification result, and judging whether the authority verification result is authorized;

if the permission verification result is that the first manipulator has permission, remotely activating the first manipulator to enable the first manipulator to be in an activation permission state, and acquiring the permission for remotely controlling the first manipulator in the activation permission state; the relative positions of the fingers and the palm of the first manipulator in the activation permission state can be controlled through remote communication;

when a user corresponding to the resident terminal places a first manipulator at an appointed position, a first-level doctor terminal remotely controls the first manipulator to automatically switch various gestures, so that a sensor on the first manipulator can acquire various pulse signals of the user corresponding to the resident terminal; each finger on the first manipulator is provided with a pressure sensor; the appointed position refers to a position where the first manipulator can acquire a pulse signal through a switching gesture;

displaying a prompt window for judging whether signals need to be manually acquired or not on a screen of the first-level doctor terminal, and judging whether the input of a traditional Chinese medicine doctor corresponding to the first-level doctor terminal aiming at the prompt window is acquired or not within a preset time;

and if the input of the traditional Chinese medical doctor corresponding to the first-level doctor terminal aiming at the prompt window is not obtained within the preset time, transmitting the various pulse signals to a preset second-level doctor terminal.

7. A computer-readable storage medium, on which a computer program is stored, wherein the computer program, when executed by a processor, implements a doctor-side management method based on a remote interrogation traditional Chinese medicine diagnosis pulse collector, the doctor-side management method based on the remote interrogation traditional Chinese medicine diagnosis pulse collector being executed by a doctor-side management apparatus based on the remote interrogation traditional Chinese medicine diagnosis pulse collector recited in claim 1; the doctor end management method based on the remote inquiry traditional Chinese medicine diagnosis pulse collector comprises the following steps:

receiving a remote communication request sent by a resident terminal; when the remote communication request is accompanied by a user corresponding to the resident terminal to perform contact interaction with a preset first manipulator, the first manipulator acquires an induction signal set; the first manipulator is the same as a real hand and is provided with five fingers and a palm; the first manipulator is provided with a plurality of sensor arrays, the first manipulator has a default authority state and an activation authority state, and the first manipulator is in the default authority state when not being remotely activated; the first manipulator in the default authority state is used for collecting signals so as to facilitate authority verification, and the first manipulator in the activated authority state is used for remote physiological data collection; the first manipulator is in signal connection with the resident terminal;

performing authority verification on the residential terminal according to the induction signal set to obtain an authority verification result, and judging whether the authority verification result is authorized;

if the permission verification result is that the first manipulator has permission, remotely activating the first manipulator to enable the first manipulator to be in an activation permission state, and acquiring the permission for remotely controlling the first manipulator in the activation permission state; the relative positions of the fingers and the palm of the first manipulator in the activation permission state can be controlled through remote communication;

when a user corresponding to the resident terminal places a first manipulator at an appointed position, a first-level doctor terminal remotely controls the first manipulator to automatically switch various gestures, so that a sensor on the first manipulator can acquire various pulse signals of the user corresponding to the resident terminal; each finger on the first manipulator is provided with a pressure sensor; the appointed position refers to a position where the first manipulator can acquire a pulse signal through a switching gesture;

displaying a prompt window for judging whether signals need to be manually acquired or not on a screen of the first-level doctor terminal, and judging whether the input of a traditional Chinese medicine doctor corresponding to the first-level doctor terminal aiming at the prompt window is acquired or not within a preset time;

and if the input of the traditional Chinese medical doctor corresponding to the first-level doctor terminal aiming at the prompt window is not obtained within the preset time, transmitting the various pulse signals to a preset second-level doctor terminal.

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