CN114569864B - Virtual sand table model display and construction method and computer equipment - Google Patents

Abstract

The embodiment of the specification provides a virtual sand table model displaying and constructing method and computer equipment. The target event is determined in real time based on the behavior of the user, so that different virtual sand table models are built in real time based on the virtual elements of the target event, dynamic generation of the virtual sand table models is realized, diversification of the sand table models is improved, a doctor is assisted to better guide the user to perform subconscious intrinsic expression and mental release, the target elements causing mental fluctuation of the user can be determined more accurately, the accurate mental image of the user is obtained, and the working efficiency of the doctor is improved.

Description

Virtual sand table model display and construction method and computer equipment

Technical Field

The embodiment of the specification relates to the technical field of computer application, in particular to a method for displaying and constructing a virtual sand table model and computer equipment.

Background

With the increase of life rhythm and the increase of life pressure, the psychological health of the people faces a serious challenge, the number of mental disorder patients or mental disease patients is increasing, and the demand for psychological counseling is also increasing.

In conventional techniques, the patient may communicate with a psychological consultant to analyze the patient's mental activities in an on-line fashion, such as by voice or video telephony. The form that can adopt the off-line, for example the sand table recreation, the toy is freely selected to the patient in the sand table recreation to self-expression carries out in the speciality case that contains the fine sand, demonstrates its subconscious for the psychology consultant, promotes consciousness and subconscious exchange and integration.

However, the function of providing counseling to patients is not fully developed in the conventional art.

Disclosure of Invention

In view of this, embodiments of the present specification are directed to providing a method for displaying and constructing a virtual sand table model and a computer device, so as to improve the work efficiency of a doctor.

An embodiment of the present specification provides a method for displaying a virtual sand table model, where the method includes: in the process of displaying the first virtual sand table model, first physiological information data of a user are acquired; monitoring a sand table event occurring in the first virtual sand table model; wherein the sand table event comprises a number of virtual elements; determining a target event in the sand table event according to the first physiological information data; presenting a second virtual sand table model constructed based on at least one virtual element of the target event; wherein the second virtual sand table model is different from the first virtual sand table model.

An embodiment of the present specification provides a method for displaying a virtual sand table model, where the method includes: displaying the first virtual sand table model; a sand table event occurs in the display process of the first virtual sand table model; the sand table event comprises a plurality of virtual elements; displaying a second virtual sand table model; wherein the second virtual sand table model is different from the first virtual sand table model; the second virtual sand table model is constructed based on at least one virtual element of a target event occurring in the first virtual sand table model; wherein the target event is determined in the sandbox event according to the first physiological information data of the user during the presentation of the first virtual sandbox model.

An embodiment of the present specification provides a method for constructing a virtual sand table model, where the method includes: sending a first virtual sand table model; a sand table event occurs in the display process of the first virtual sand table model; the sand table event comprises a plurality of virtual elements; receiving a target event occurring in the first virtual sand table model; wherein the target event is determined in the sandbox event according to first physiological information data of a user during the presentation of the first virtual sandbox model; constructing a second virtual sand table model based on at least one virtual element of the target event; wherein the second virtual sand table model is different from the first virtual sand table model.

An embodiment of the present specification provides a method for displaying a virtual sand table model, where the method includes: in the process of displaying the first virtual sand table model, sending first physiological information data of a user to a server; the first physiological information data is used for indicating the server to determine a target event in the sand table events occurring in the first virtual sand table model; wherein the target event comprises a plurality of virtual elements; presenting a second virtual sand table model constructed based on at least one virtual element of the target event; wherein the second virtual sand table model is different from the first virtual sand table model.

An embodiment of the present specification provides a method for constructing a virtual sand table model, where the method includes: receiving first physiological information data of a user in the display process of a first virtual sand table model in the display process of the first virtual sand table model; monitoring a sand table event occurring in the first virtual sand table model; wherein the sand table event comprises a number of virtual elements; determining a target event in the sand table event according to the first physiological information data; constructing a second virtual sand table model based on at least one virtual element of the target event; wherein the second virtual sand table model is different from the first virtual sand table model.

An embodiment of the present specification provides a method for displaying a virtual sand table model, where the method includes: displaying a first virtual sand table model; a sand table event occurs in the display process of the first virtual sand table model; wherein, the sand table event comprises a plurality of virtual elements; displaying a second virtual sand table model; wherein the second virtual sand table model is different from the first virtual sand table model; the second virtual sand table model is constructed based on at least one virtual element of a target event occurring in the first virtual sand table model; wherein the target event is determined in the sand table event based on an event designation operation of a doctor.

An embodiment of the present specification provides a method for displaying a virtual sand table model, where the method includes: displaying the first virtual sand table model; a sand table event occurs in the display process of the first virtual sand table model; wherein, the sand table event comprises a plurality of virtual elements; in the display process of the first virtual sand table model, under the condition that the event designation operation of a doctor in the sand table event is monitored, correspondingly determining the designated sand table event as a target event; presenting a second virtual sand table model constructed based on at least one virtual element of the target event; wherein the second virtual sand table model is different from the first virtual sand table model.

An embodiment of the present specification provides a method for constructing a virtual sand table model, where the method includes: sending a first virtual sand table model; a sand table event occurs in the display process of the first virtual sand table model; wherein, the sand table event comprises a plurality of virtual elements; receiving a target event occurring in the first virtual sand table model; wherein the target event is determined in the sand table event based on a doctor's event specification operation; building a second virtual sand table model based on at least one virtual element of the target event; wherein the second virtual sand table model is different from the first virtual sand table model.

An embodiment of the present specification provides a display device of a virtual sand table model, the device including: the information data acquisition module is used for acquiring first physiological information data of a user in the process of displaying the first virtual sand table model; the sand table event monitoring module is used for monitoring a sand table event generated by the first virtual sand table model; wherein the sand table event comprises a number of virtual elements; the target event determining module is used for determining a target event in the sand table event according to the first physiological information data; the sand table model display module is used for displaying a second virtual sand table model constructed based on at least one virtual element of the target event; wherein the second virtual sand table model is different from the first virtual sand table model.

An embodiment of the present specification provides a display device of a virtual sand table model, the device including: the first sand table display module is used for displaying the first virtual sand table model; a sand table event occurs in the display process of the first virtual sand table model; wherein, the sand table event comprises a plurality of virtual elements; the second sand table display module is used for displaying a second virtual sand table model; wherein the second virtual sand table model is different from the first virtual sand table model; the second virtual sand table model is constructed based on at least one virtual element of a target event occurring in the first virtual sand table model; wherein the target event is determined in the sandbox event according to the first physiological information data of the user during the presentation of the first virtual sandbox model.

An embodiment of the present specification provides an apparatus for constructing a virtual sand table model, where the apparatus includes: the sand table model sending module is used for sending the first virtual sand table model; a sand table event occurs in the display process of the first virtual sand table model; wherein, the sand table event comprises a plurality of virtual elements; a target event receiving module, configured to receive a target event occurring in the first virtual sandbox model; wherein the target event is determined in the sandbox event according to first physiological information data of a user during the presentation of the first virtual sandbox model; a sand table model building module for building a second virtual sand table model based on at least one virtual element of the target event; wherein the second virtual sand table model is different from the first virtual sand table model.

An embodiment of the present specification provides a display apparatus for a virtual sand table model, the apparatus including: the physiological data sending module is used for sending first physiological information data of the user to the server in the process of displaying the first virtual sand table model; the first physiological information data is used for indicating the server to determine a target event in the sand table events occurring in the first virtual sand table model; wherein the target event comprises a number of virtual elements; the sand table model display module is used for displaying a second virtual sand table model constructed based on at least one virtual element of the target event; wherein the second virtual sand table model is different from the first virtual sand table model.

An embodiment of the present specification provides an apparatus for constructing a virtual sand table model, the apparatus including: the physiological data receiving module is used for receiving first physiological information data of a user in the display process of a first virtual sand table model in the display process of the first virtual sand table model; the sand table event monitoring module is used for monitoring a sand table event generated by the first virtual sand table model; wherein the sand table event comprises a number of virtual elements; the target event determining module is used for determining a target event in the sand table event according to the first physiological information data; a sand table model building module for building a second virtual sand table model based on at least one virtual element of the target event; wherein the second virtual sand table model is different from the first virtual sand table model.

An embodiment of the present specification provides a display device of a virtual sand table model, the device including: the first sand table display module is used for displaying the first virtual sand table model; a sand table event occurs in the display process of the first virtual sand table model; wherein, the sand table event comprises a plurality of virtual elements; the second sand table display module is used for displaying the second virtual sand table model; wherein the second virtual sand table model is different from the first virtual sand table model; the second virtual sand table model is constructed based on at least one virtual element of a target event occurring in the first virtual sand table model; wherein the target event is determined in the sand table event based on an event designation operation of a doctor.

An embodiment of the present specification provides a display device of a virtual sand table model, the device including: the first sand table display module is used for displaying the first virtual sand table model; a sand table event occurs in the display process of the first virtual sand table model; wherein, the sand table event comprises a plurality of virtual elements; the target event determining module is used for correspondingly determining the appointed sand table event as the target event under the condition that the event appointing operation of a doctor in the sand table event is monitored in the display process of the first virtual sand table model; the second sand table display module is used for displaying a second virtual sand table model constructed based on at least one virtual element of the target event; wherein the second virtual sand table model is different from the first virtual sand table model.

An embodiment of the present specification provides an apparatus for constructing a virtual sand table model, the apparatus including: the sand table model sending module is used for sending the first virtual sand table model; a sand table event occurs in the display process of the first virtual sand table model; wherein, the sand table event comprises a plurality of virtual elements; a target event receiving module, configured to receive a target event occurring in the first virtual sandbox model; wherein the target event is determined in the sand table event based on a doctor's event specification operation; a sand table model building module for building a second virtual sand table model based on at least one virtual element of the target event; wherein the second virtual sand table model is different from the first virtual sand table model.

The present specification provides a computing device, comprising a memory and a processor, wherein the memory stores a computer program, and the processor implements the method steps of the above embodiments when executing the computer program.

The present specification provides a computer readable storage medium, on which a computer program is stored, which when executed by a processor implements the method steps in the above embodiments.

The present specification embodiments provide a computer program product, which includes instructions that, when executed by a processor of a computer device, enable the computer device to perform the method steps in the above embodiments.

According to the implementation mode of the specification, the target event is determined in real time based on the behavior of the user, so that different virtual sand table models are built in real time based on virtual elements of the target event, dynamic generation of the virtual sand table models is achieved, diversification of the sand table models is improved, a doctor is assisted to better guide the user to perform subconscious internal expression and mental release, accurate psychological image of the user can be obtained rapidly, and the working efficiency of the doctor is improved.

Drawings

Fig. 1a is a schematic application environment diagram illustrating a method for constructing a virtual sand table model in a scenario example provided by an embodiment.

Fig. 1b is a timing diagram illustrating a method for displaying a virtual sand table model in a scene example according to an embodiment.

Fig. 1c is a timing diagram illustrating a method for displaying a virtual sand table model in a scene example according to an embodiment.

Fig. 1d is a timing diagram illustrating a method for displaying a virtual sand table model in a scene example according to an embodiment.

Fig. 2 is a schematic flow chart illustrating a method for displaying a virtual sand table model according to an embodiment of the present disclosure.

Fig. 3 is a schematic flow chart illustrating a method for displaying a virtual sand table model according to an embodiment of the present disclosure.

Fig. 4 is a schematic flow chart of a method for constructing a virtual sand table model according to an embodiment of the present disclosure.

Fig. 5 is a schematic flow chart illustrating a method for displaying a virtual sand table model according to an embodiment of the present disclosure.

Fig. 6 is a schematic flow chart of a method for constructing a virtual sand table model according to an embodiment of the present disclosure.

Fig. 7 is a schematic flow chart illustrating a method for displaying a virtual sand table model according to an embodiment of the present disclosure.

Fig. 8a is a schematic flow chart illustrating a method for displaying a virtual sand table model according to an embodiment of the present disclosure.

Fig. 8b is a schematic interface diagram illustrating a target event specification provided in an embodiment of the present disclosure.

Fig. 8c is a schematic interface diagram illustrating a target event specification provided in an embodiment of the present disclosure.

Fig. 8d is a schematic interface diagram illustrating a target element specification provided in an embodiment of the present specification.

Fig. 8e is a schematic interface diagram illustrating a target element specification provided in an embodiment of the present specification.

Fig. 9 is a schematic flowchart illustrating a method for constructing a virtual sand table model according to an embodiment of the present disclosure.

Fig. 10 is a functional module schematic diagram of a display device of a virtual sand table model according to an embodiment of the present disclosure.

Fig. 11 is a functional module schematic diagram of a display device of a virtual sand table model according to an embodiment of the present disclosure.

Fig. 12 is a functional module schematic diagram of a virtual sand table model building apparatus according to an embodiment of the present disclosure.

Fig. 13 is a functional module schematic diagram of a display device of a virtual sand table model according to an embodiment of the present disclosure.

Fig. 14 is a functional module schematic diagram of a virtual sand table model building apparatus according to an embodiment of the present disclosure.

Fig. 15 is a functional module schematic diagram of a display device of a virtual sand table model according to an embodiment of the present disclosure.

Fig. 16 is a functional module schematic diagram of a display device of a virtual sand table model according to an embodiment of the present disclosure.

Fig. 17 is a functional module schematic diagram of a virtual sand table model building apparatus according to an embodiment of the present disclosure.

Fig. 18 is a diagram illustrating an internal structure of a computer device according to an embodiment of the present disclosure.

Detailed Description

The technical solutions in the embodiments of the present disclosure will be clearly and completely described below with reference to the drawings in the embodiments of the present disclosure, and it is obvious that the described embodiments are only a part of the embodiments of the present disclosure, and not all of the embodiments. All other embodiments obtained by a person of ordinary skill in the art without any inventive work based on the embodiments in the present specification belong to the protection scope of the present specification.

In the embodiment of the present specification, the user may be a patient with a psychological disease or a counselor who needs psychological counseling using a psychological sand table. The doctor may be a psychological counselor who provides psychological counseling services. The user client is a client used by the user. The doctor client is a client used by a doctor. The virtual sand table model is a virtual scene formed corresponding to a sand table therapy. The sand table therapy is a psychotherapy which is performed by visitors freely selecting toys from a toy rack and performing self-expression in a special box filled with fine sand under the accompany of a consultant. The virtual sand table model may include a series of sand table events that are modeled and rendered based on virtual elements (corresponding to the toys on the toy rack). Virtual reality technology (VR), also known as virtual environment, smart environment or artificial environment, refers to a technology that uses a computer to generate a virtual world that can directly apply visual, auditory and tactile sensations to participants and allow them to interactively observe and operate. Machine learning is a multi-domain interdiscipline, and is a special study on how a computer simulates or realizes human learning behaviors to acquire new knowledge or skills and reorganize an existing knowledge structure to continuously improve the performance of the computer.

Referring to fig. 1a, a user a wears VR glasses, smart gloves, smart bands, and the like. VR glasses, intelligent gloves, intelligent bracelet can be connected with thing networking data processing module, and thing networking data processing module passes through any kind of thing networking communication protocol in Wi-Fi, Zigbee, Bluetooth etc. and acquires user's behavioral data and first biological information data in real time. The data processing module of the internet of things can be in communication connection with the user client. The user client and the doctor client are in communication connection with a server of the data processing center.

User a uses the online psychological counseling platform for the first time. The user A accesses the online psychological consultation platform through the user client to register, and establishes a user file according to personal information, a consultation scheme and other information. After the profile is established, the user a can make an appointment with a psychological counseling appointment interface provided by the on-line psychological counseling platform for a psychological counselor and time. The server sends the appointment information to the doctor client, and the doctor checks the appointment information through the doctor client and contacts with the user A to perform preliminary communication. The doctor can create an initial virtual sand table model (which can be recorded as a first virtual sand table model) according to the communication condition. The doctor client sends a creation request of the sand table model to the server. Illustratively, the doctor client can provide a sand table event selection page, receive the selection operation of the doctor on the sand table event through the sand table event selection page, and determine the sand table event selected by the doctor as the sand table event occurring in the first virtual sand table model. The doctor client may also provide a virtual element selection page for a sand table event. A plurality of virtual elements to be selected are shown in the virtual element selection page of any sand table event. And for any sand table event, receiving the selection operation of a doctor on a virtual element in a plurality of virtual elements to be selected, and taking the selected virtual element as the virtual element used when the sand table event occurs in response to the selection operation on the virtual element. And generating a creation request of the sand table model based on the selected sand table event and the virtual element selected by the corresponding sand table event.

And the server receives a creation request of the sand table model and constructs a first virtual sand table model according to the creation request of the sand table sending model. The server sends the first virtual sand table model to the user client and the doctor client. For example, the sand table events selected by the physician include thunderstorm events and rain events. Aiming at the thunder event, the virtual elements selected by the doctor comprise thunder, open field, a big tree and a rabbit. For a rain event, the virtual elements selected by the doctor include raindrops, houses in the field, umbrellas, rain shoes, and puppies outside the houses. The method comprises the steps that a user client side and a doctor client side receive and display a first virtual sand table model, in the process of displaying the first virtual sand table model, a lightning strike event can occur in the first virtual sand table model, and in the process of the lightning strike event, the user client side and the doctor client side display a three-dimensional scene interface formed by virtual elements, namely lightning, an open field, a big tree and a rabbit.

In the process of displaying the first virtual sand table model, the user a can observe a three-dimensional scene interface formed by virtual elements of a thunder event through VR glasses. At the moment, the doctor can gradually guide the user to operate the sand table game in modes of music, voice, interaction and the like, and the user A can interact with the three-dimensional scene interface. The behavior data (such as raising hands, making a fist, rubbing fingers, trembling, and clapping) and the physiological information data (such as blood pressure measurement data, heart rate data, blood oxygen data, pressure data, and body temperature data) of the user A are collected through the intelligent gloves and the intelligent hand ring. Further, user a may operate or interact with the first virtual sand table model, such as touching, moving, using virtual elements in the first virtual sand table model.

In the process of displaying the first virtual sand table model by the user client, the user A and the first virtual sand table model can be subjected to interactive operation, and the interactive operation causes the three-dimensional scene interface of the first virtual sand table model to change. It should be noted that, when the interactive operation of the user a causes the three-dimensional scene interface displayed by the user client to change, at this time, the three-dimensional scene interface displayed by the doctor client also changes, that is, the three-dimensional scene interface displayed by the user client is the same as the three-dimensional scene interface displayed by the doctor client.

During the process of presenting the first virtual sand table model by the doctor client, the doctor can also interact with the first virtual sand table model to guide the user A to complete the subconscious internal expression and mental release. The interactive operation causes the three-dimensional scene interface of the first virtual sand table model displayed by the doctor client side to change. It should be noted that, when the three-dimensional scene interface displayed by the doctor client changes due to the interactive operation of the doctor, at this time, the three-dimensional scene interface displayed by the user client also changes, that is, the three-dimensional scene interface displayed by the doctor client is the same as the three-dimensional scene interface displayed by the user client.

Referring to fig. 1b, in a specific scenario example, data collected by the smart glove and the smart bracelet may be sent to the user client of the user a through the internet of things data processing module. The method comprises the steps that a user client monitors sand table events of a first virtual sand table model, the user client determines target events in the sand table events of the first virtual sand table model according to data sent by an internet of things data processing module, the target events are sent to a server, the server builds a second virtual sand table model based on at least one virtual element of the target events, and the server sends the second virtual sand table model to the user client and a doctor client.

In this scenario example, in the process of displaying a thunder event in the first virtual sand table model, if the behavior data of the user a or the interaction data of the user a on the first virtual sand table model under the guidance of the doctor triggers the occurrence of a rain event (for example, it is monitored that the user a sends out a clapping behavior or it is monitored that the user a moves a rabbit under a big tree), the user client and the doctor client display a three-dimensional scenario interface formed by raindrops, a house in the field, an umbrella, a rain boot, and a dog outside the house. The user a can observe a three-dimensional scene interface composed of virtual elements of a rain event through VR glasses. The doctor can continue to guide the user to operate the sand table game through modes such as music, pronunciation and interaction, and in this process, it is 146 times/minute to gather user A's heart rate data through intelligent bracelet. The user client monitors a sand table event occurring in the first virtual sand table model, and receives a data packet sent by the data processing module of the internet of things, wherein the data packet comprises behavior data and physiological information data of the user A, and the physiological information data comprises heart rate data of 146 times/minute. And the user A receives and analyzes the data packet, monitors that the heart rate data of the user A exceeds 140 times/minute, and determines the raining event as a target event which can cause the psychological fluctuation of the user A in the raining event and the thunder event of the first virtual sand table model.

In the present scenario example, since the rain event includes five virtual elements (raindrops, house on the field, umbrella, rain shoes, dog outside the house), it is necessary to determine which virtual element or virtual elements cause the user a psychological fluctuation among the five virtual elements of the rain event. Therefore, the user client sends the target event to the server, and the server constructs a second virtual sand table model according to at least one virtual element in the five virtual elements of the rain event. For example, a puppy outside the house may be selected as a virtual element of the second virtual sand table model, and a new virtual element such as a lawn, a rubber ball, etc. may be selected again, and the second virtual sand table model may be constructed based on the puppy outside the house, the lawn, and the rubber ball. Or selecting raindrops and a house in the field as virtual elements of the second virtual sand table model, and reselecting the virtual elements of the wandering cat to construct the second virtual sand table model based on the raindrops, the house in the field and the wandering cat.

In this scenario example, a second virtual sand table model constructed by a puppy, a lawn, and a ball outside a house is taken as an example for explanation, and the server sends the second virtual sand table model to the user client and the doctor client. Specifically, in the process of displaying the second virtual sand table model, the user a can observe the three-dimensional scene interface corresponding to the second virtual sand table model through VR glasses, and a doctor can continue to guide the user to operate the sand table game through modes such as music, voice and interaction. In the process, behavior data and physiological information data are collected continuously through the intelligent gloves and the intelligent bracelet, and if the heart rate data of the user A are collected through the intelligent bracelet for 145 times/minute. It can be determined that the puppy outside the house may be the target factor for causing psychological fluctuation of user a. It will be appreciated that the puppy outside the house is recorded as a virtual element used to construct the second virtual sand table model and used by the first virtual sand table model.

In this scenario example, if data collected by the smart gloves and the smart bracelets indicate that there is no virtual element causing psychological fluctuation of the user a during the display of the second virtual sand table model, the puppy outside the house in the first virtual sand table model may be replaced, and the third virtual sand table model may be reconstructed by using at least one of other raindrops, the house in the field, the umbrella, and the rain shoes. It should be noted that the third virtual sand table model, the second virtual sand table model and the first virtual sand table model are different from each other.

Referring to fig. 1c, in another specific scenario example, data collected by an intelligent wearable device such as an intelligent glove or an intelligent bracelet may be sent to a user client of the user a through the internet of things data processing module. And the user client of the user A sends the acquired data to the server. The server monitors the sand table events of the first virtual sand table model, and determines target events in the sand table events of the first virtual sand table model according to the data collected by the intelligent wearable device. The server builds a second virtual sand table model based on at least one virtual element of the target event, and the server sends the second virtual sand table model to the user client and the doctor client.

In this scenario example, a user client and a doctor client present a first virtual sand table model. In the process that the user client displays the first virtual sand table model, the data collected by the intelligent wearable device are sent to the user client of the user A by the Internet of things data processing module, and the data collected by the intelligent wearable device comprise first physiological information data and behavior data of the user A. A sand table event occurs in the display process of the first virtual sand table model; wherein the sand table event comprises a plurality of virtual elements. And the server determines a target event in the sand table events of the first virtual sand table model according to the first physiological information data and the behavior data of the user A. The server builds a second virtual sand table model based on at least one virtual element of the target event; and the server sends the second virtual sand table model to the user client and the doctor client.

In this scenario example, the user client and the doctor client present a second virtual sand table model. In the process that the user client displays the second virtual sand table model, the data collected by the intelligent wearable device are sent to the user client of the user A by the Internet of things data processing module, and the data collected by the intelligent wearable device comprise second physiological information data of the user A. And the server judges whether the second physiological information data of the user A meets the preset condition. And if the preset conditions are met, determining at least one virtual element which is used for constructing the second virtual sand table model and is included by the target event as a target element capable of causing the psychological fluctuation of the user. If the condition is not met, the server reconstructs the third virtual sand table model by using at least one of other virtual elements included in the target event. The third virtual sand table model, the second virtual sand table model and the first virtual sand table model are different from each other. And the server sends the third virtual sand table model to the user client and the doctor client, and data acquisition is carried out by reutilizing the intelligent wearable equipment so as to determine target elements capable of causing user psychological fluctuation.

Referring to fig. 1d, in yet another specific scenario example, data collected by an intelligent wearable device such as an intelligent glove or an intelligent bracelet may be sent to a server through an internet of things data processing module. The user client and the doctor client display the first virtual sand table model. A sand table event occurs in the display process of the first virtual sand table model; wherein the sand table event comprises a plurality of virtual elements. In the process of displaying the first virtual sand table model by the doctor client, the doctor client monitors the operation sent by the doctor, and correspondingly determines the appointed sand table event as the target event under the condition that the event appointed operation of the doctor in the sand table event is monitored. The doctor client side sends the target event to the server, the server builds a second virtual sand table model based on at least one virtual element of the target event, and the server sends the second virtual sand table model to the user client side and the doctor client side.

In this scenario example, the user client and the doctor client present a second virtual sand table model. And in the process of displaying the second virtual sand table model at the user client, the data processing module of the internet of things sends the data acquired by the intelligent wearable device to the server. And in the process of displaying the second virtual sand table model by the doctor client, the doctor client continuously monitors the operation sent by the doctor, and under the condition of monitoring the element designation operation of the doctor in the target event, correspondingly determines the designated virtual element as a target element capable of causing the psychological fluctuation of the user. In the event that the element-specifying action of the doctor in the target event is not monitored, the server reconstructs the third virtual sand table model using at least one of the other virtual elements included in the target event. The third virtual sand table model, the second virtual sand table model and the first virtual sand table model are different from each other. And the server sends the third virtual sand table model to the user client and the doctor client, and data acquisition is carried out by reusing the intelligent wearable equipment so as to determine target elements capable of causing user psychological fluctuation.

In the scene example, the data processing module of the internet of things sends data collected by the intelligent wearable device to the server. The data collected by the intelligent wearable device comprise behavior data and physiological information data of the user. On one hand, in the process of displaying the first virtual sand table model and the second virtual sand table model (namely the execution process of the sand table game), the internet of things data processing module sends the acquired data to the server in real time. On the other hand, in the execution process of the sand table game, the user A and the first virtual sand table model and the second virtual sand table model can perform interactive operation, interactive data of the user A are generated at the moment, and the user client sends the interactive data of the user A to the server. The doctor can perform interactive operation with the first virtual sand table model and the second virtual sand table model, interactive data of the doctor are generated at the moment, and the doctor client sends the interactive data of the doctor to the server. And a machine learning model for completing training is pre-deployed on the server. After the sand table game is carried out, the physiological information data and the interactive data collected by the intelligent wearable device in the game process are input into the machine learning model for prediction, and the mental state data of the user A is obtained. The server may send the mental state data of user a to the doctor client.

In this scenario example, during execution of the sand table game, the doctor may record the user behavior of user a. The doctor client monitors the operation behavior of a doctor, and acquires the record data aiming at the user behavior under the condition of monitoring the record operation aiming at the user behavior. And the doctor client side carries out comprehensive evaluation on the basis of the psychological state data of the user A and the recorded data aiming at the user behavior to obtain psychological evaluation result data of the user A.

In this scenario, the doctor client may send the psychological evaluation result data of the user a to the server, and the server may update the user profile data of the user a according to the psychological evaluation result data of the user a since the user profile has been previously constructed in the server.

In the above scenario example, whether the target event is determined by the user client according to the first physiological information data of the user a in the sand table event occurring in the first virtual sand table model, or the target event is determined by the server according to the first physiological information data of the user a in the sand table event occurring in the first virtual sand table model, or the sand table event specified by the doctor is determined as the target event based on the observation of the behavior of the user a by the doctor, the target event is determined in real time based on the behavior of the user a, so that different virtual sand table models are constructed in real time based on the virtual elements of the target event, dynamic generation of the virtual sand table model is realized, diversification of the sand table models is improved, the doctor is assisted to better guide the user to perform subconscious intrinsic expression and mental release, and the target element causing user psychological fluctuation can be determined more accurately, the accurate psychological image of the user is obtained, and the working efficiency of the doctor is improved.

It is understood that the embodiment of the specification provides a display system of a virtual sand table model, and the display system can comprise a hardware environment formed by a user client, a doctor client and a server. The user client and the doctor client can communicate with the server through the network. The user client and the doctor client can be electronic equipment with network access capability. Specifically, for example, the user client and the doctor client may be any one of a desktop computer, a tablet computer, a laptop computer, a smart phone, a digital assistant, a smart wearable device, a shopping guide terminal, a television, a smart speaker, a microphone, and the like. Wherein, wearable equipment of intelligence includes but not limited to intelligent bracelet, intelligent wrist-watch, intelligent glasses, intelligent helmet, intelligent necklace etc.. Alternatively, the user client and the doctor client may be software that can be run on the electronic device. The server may be an electronic device having a certain arithmetic processing capability. Which may have a network communication module, a processor, memory, etc. Of course, the server may also be software running in the electronic device. The server may be a distributed server, and may be a system having a plurality of processors, memories, network communication modules, and the like that cooperate with one another. Alternatively, the server may also be a server cluster formed by several servers. Or, with the development of scientific technology, the server can also be a new technical means capable of realizing the corresponding functions of the specification implementation mode. For example, it may be a new form of "server" implemented based on quantum computing.

Referring to fig. 2, an embodiment of the present disclosure provides a method for displaying a virtual sand table model. The display method of the virtual sand table model can be applied to a user client. The display method of the virtual sand table model comprises the following steps.

Step S210: and acquiring first physiological information data of the user in the process of displaying the first virtual sand table model.

The virtual sand table model can be a three-dimensional digital model or a virtual scene which can run in computer equipment and is formed by applying a virtual reality technology, an internet of things technology and the like to the offline sand table treatment process. The virtual sand table model has a series of sand table events therein. The sand table event may be an event observed or experienced by a user during the process of displaying the virtual sand table model, such as thunder, rain, landslide, turtle crawling, dolphin swimming, airplane takeoff, animal roar, and the like.

Under the condition that the doctor receives psychological consultation appointment of the user, the doctor can send a creation request of the first virtual sand table model to the server according to the communication condition. The server constructs a first virtual sand table model according to a creation request sent by the doctor client side, and sends the first virtual sand table model to the user client side. As can be seen, the first virtual sand table model may be a preliminary virtual sand table model created based on the communication of the doctor with the user. In addition, since the virtual sand table model displayed by the user client in this embodiment is generated in real time based on the physiological information data of the user, in the displaying process of any virtual sand table model, the physiological information data of the user can be acquired, and the first virtual sand table model may also be a virtual sand table model generated based on the previous physiological information data of the user.

The first physiological information data may be physiological information data of the user, such as at least one of blood pressure measurement data, heart rate data, blood oxygen data, pressure data, and body temperature data, acquired by the intelligent wearable device during the display process of the first virtual sand table model.

Specifically, in order to express the user psychological phenomenon more accurately, in the process that the user client displays the first virtual sand table model, the first physiological information data of the user are collected in real time through the intelligent wearable device, the collected first physiological information data are sent to the user client through the intelligent wearable device, and the user client receives the first physiological information data of the user. It can be understood that the user views a virtual scene interface in the first virtual sand table model through the VR device or feels that a sand table event in the first virtual sand table model corresponds to the first physiological information data collected by the smart wearable device in time.

Step S220: the first virtual sand table model is monitored for sand table events.

Wherein the sand table event comprises a plurality of virtual elements. The virtual element may be at least one of a natural environment-based element, a vehicle-based element, an animal-based element, and a plant-based element. The natural environment element can be at least one of natural environment elements such as grassland, river, sea, lake, snow mountain and the like. The vehicle-like element may be at least one of a plane, a car, a train, a highway, a rail, etc. traffic element. The animal element can be at least one of lion, shark, bird, frog, etc. The plant element can be at least one of shrub, rattan, grass, fern, and similar plants such as Chlorella and lichen.

Specifically, in order to accurately determine a sand table event which can cause user psychological fluctuation, in the process of displaying the first virtual sand table model by the user client, the user client monitors the sand table event which occurs in the first virtual sand table model. For example, if the sand table events of the first virtual sand table model are played in a preset time sequence, the occurring sand table events can be monitored by monitoring the playing events. For example, if the sand table event of the first virtual sand table model corresponds to a user interaction operation, the user interaction operation may be monitored to monitor the occurring sand table event. Illustratively, a user touching a puppy in the first virtual sand table model triggers a puppy running event on the lawn.

Step S230: and determining a target event in the sand table event according to the first physiological information data.

Specifically, in order to improve the treatment effect, the user needs to be guided to release the potential consciousness and emotion as much as possible, and the first physiological information data of the user can reflect the psychological activities of the user to a certain extent, so that the first physiological information data of the user collected through the intelligent wearable device is sent to the user client side while the sand table event occurs in the first virtual sand table model. The first physiological information data of the user can be changed, and the reason for the change can be that the sand table events of the first virtual sand table model feel or experience the user in vision, touch, hearing. Monitoring a sand table event generated by the first virtual sand table model, wherein the sand table event generated by the first virtual sand table model has a corresponding relation with first physiological information data of a user, so that a target event can be determined in the sand table event according to the first physiological information data.

Illustratively, the first physiological information data is mutated, and a sand table event which occurs in the first virtual sand table model when the first physiological information data is mutated is determined, wherein the sand table event can be determined as a target event. For example, when an event that an automobile enters a tunnel occurs, the acquired first physiological information data show that the blood pressure of a user before entering the tunnel is 120mmHg, the blood pressure suddenly increases to 140mmHg after entering the tunnel, and the event that the automobile enters the tunnel is determined to be a target event according to the sudden increase of the blood pressure data.

Illustratively, a value corresponding to the first physiological information data reaches a preset threshold, and a sand table event occurring in the first virtual sand table model when the preset threshold is reached is determined, and the sand table event may be determined as a target event. For example, 100 beats/minute of a preset heart rate threshold. When a tiger event is seen, the acquired first physiological information data show that the heart rate of a user is 140 times/minute after the tiger is seen, the 140 times/minute is larger than a preset heart rate threshold value, and the tiger event is determined to be seen as a target event.

Step S240: and showing a second virtual sand table model constructed based on at least one virtual element of the target event.

Wherein the second virtual sand table model is different from the first virtual sand table model. In particular, since several virtual elements are included in the target event, after the target event is determined, in order to more deeply show elements which may affect the psychology of the user to a doctor and continuously guide the user to continuously release potential consciousness and emotion in the new second virtual sand table model, the first virtual sand table model and the second virtual sand table model cannot be isolated from each other, and an association relationship needs to be established between the two models. Therefore, after the user client determines the target event, the target event is sent to the server, and the server constructs a second virtual sand table model based on at least one virtual element of the target event. And the server sends the second virtual sand table model to the user client, and the user client displays the second virtual sand table model. The first virtual sand table model and the second virtual sand table are provided with at least one virtual element through a target event to establish an incidence relation, so that the first virtual sand table model and the second virtual sand table are no longer mutually isolated scenes, and doctors can be assisted to more efficiently guide users to release potential consciousness and emotion.

Illustratively, one virtual element is randomly selected from a plurality of virtual elements included in the target event, and the server may find similar virtual elements in the virtual element library based on the selected virtual element. Modeling and rendering can be performed by utilizing the selected virtual element and the searched similar virtual element, so that a second virtual sand table model is obtained. And modeling and rendering the searched similar virtual elements directly to obtain a second virtual sand table model.

Illustratively, at least two virtual elements are randomly selected from the plurality of virtual elements included in the target event, and the server may directly perform modeling and rendering by using the selected at least two virtual elements, so as to obtain a second virtual sand table model.

Illustratively, one virtual element is randomly selected from a plurality of virtual elements included in the target event, and the server may obtain a matched virtual element based on the matching of the selected virtual element in the virtual element library. Modeling and rendering to a second virtual sand table model using the selected virtual element and the matched virtual element.

According to the method for displaying the virtual sand table model, the first physiological information data of the user is acquired in the process of displaying the first virtual sand table model, and the sand table event generated by the first virtual sand table model is monitored; and determining a target event in the sand table events which occur in the first virtual sand table model according to the first physiological information data, thereby displaying a second virtual sand table model which is constructed based on at least one virtual element of the target event and is different from the first virtual sand table model. The method has the advantages that the dynamic generation of the virtual sand table model is realized, the diversification of the sand table model is improved, and a doctor is assisted to better guide the user to perform subconscious internal expression and mental release, so that target elements causing the psychological fluctuation of the user can be more accurately determined, the accurate psychological image of the user is obtained, and the working efficiency of the doctor is improved.

In some embodiments, before determining the target event in the sand table event according to the first physiological information data, the method for presenting the virtual sand table model may further include: and acquiring behavior data of the user in the process of displaying the first virtual sand table model. Correspondingly, the target event is determined in the sand table event according to the first physiological information data, and the method comprises the following steps: and determining a target event in the sand table event according to the behavior data and the first physiological information data.

The behavior data of the user may be stress response data of a sand table event that occurs to the virtual sand table model when the user watches or experiences the virtual sand table model. The behavioral data may be, for example, at least one of raising a hand, making a fist, rubbing a finger, tremor, clapping, expression changes, pupil changes, and the like. Because the user wears intelligent wearing equipment, for example VR equipment, intelligent gloves and intelligent bracelet, can monitor action data such as the new hand of user, quiver through intelligent bracelet. The intelligent gloves can monitor the behavior data of the user such as fist making, finger rubbing, clapping and the like. The behavior data such as expression change and pupil change of the user can be monitored through the VR equipment.

Specifically, in order to accurately acquire reaction data of a user to a sand table event occurring in the first virtual sand table model, the user wears the intelligent wearable device, and behavior data and first physiological information data of the user are acquired in real time through the intelligent wearable device. The behavior data and the first physiological information data collected by different intelligent wearable devices correspond to each other in time, and the collected behavior data and the collected first physiological information data correspond to the sand table events in the first virtual sand table model viewed or sensed by the user in time. Further, since the behavioral data and the first physiological information data of the user may reflect the psychological activities of the user to some extent, the target event is determined in the sand table events occurring in the first virtual sand table model in consideration of the behavioral data and the first physiological information data in combination.

Illustratively, preset conditions are set in advance for the first physiological information data and the behavior data of the user. If the two conditions meet the preset condition, the sand table event corresponding to the time can be determined as the target event. For example, if the preset condition is that the first physiological information data suddenly increases and the user makes a fist, a sand table event that can cause the first physiological information data and the behavior data of the user to meet the preset condition may be determined as the target event. For example, when an event that an automobile enters a tunnel occurs, the blood pressure of a user before entering the tunnel is 120mmHg, the blood pressure suddenly increases to 140mmHg after entering the tunnel, and the situation that the user makes a fist with both hands is monitored through the intelligent gloves, so that the event that the automobile enters the tunnel is determined to be a target event according to the sudden increase of the blood pressure data and the fist with both hands of the user.

In the embodiment, the behavior data of the user is acquired in the process of displaying the first virtual sand table model, the target event is determined in the sand table event according to the behavior data and the first physiological information data, the sand table event which can cause the psychological activity of the user is found more accurately, accurate reference data are provided for a doctor to guide the user, the user is utilized to release emotion, and therefore the doctor can make accurate judgment on the user, and the treatment effect is improved.

In some embodiments, before monitoring the occurrence of the sand table event of the first virtual sand table model, the method for displaying the virtual sand table model may further include: in the process of displaying the first virtual sand table model, a sand table event corresponding to the interactive data occurs in the first virtual sand table model.

Wherein the interactive data is generated by the user and/or doctor operating on the first virtual sand table model. The user may manipulate or interact with the first virtual sand table model, such as touching, moving, using virtual elements in the first virtual sand table model. The doctor may also manipulate or interact with the first virtual sand table model, such as moving, using virtual elements in the first virtual sand table model.

Specifically, in the process of displaying the first virtual sand table model by the user client, the user may send out an interactive operation to the first virtual sand table model, and the interactive operation causes a three-dimensional scene interface of the first virtual sand table model to change. When the three-dimensional scene interface displayed by the user client side is changed due to the interactive operation of the user, the three-dimensional scene interface displayed by the doctor client side is changed along with the change. Further, a corresponding relation between the interactive data and the sand table event may be preset, the user client monitors an interactive operation occurring on the first virtual sand table model, determines the corresponding interactive data in response to the interactive operation when the interactive operation is detected, matches the interactive data in the corresponding relation between the interactive data and the sand table event according to the interactive data, and triggers the sand table event corresponding to the interactive data if the corresponding sand table event is matched, so as to obtain the sand table event corresponding to the interactive data in the first virtual sand table model.

Similarly, in the process of displaying the first virtual sand table model by the doctor client, the doctor can perform interactive operation on the first virtual sand table model, the three-dimensional scene interface displayed by the user client is changed due to the interactive operation of the doctor, and the three-dimensional scene interface displayed by the user client is changed along with the change.

In this embodiment, in the process of displaying the first virtual sand table model, a sand table event corresponding to the interaction data occurs in the first virtual sand table model, so that not only is the real-time interaction between the virtual sand table model and the doctor or the user realized, but also the virtual sand table model can dynamically change in real time according to the interaction operation of the doctor or the user, and the flexibility of the virtual scene of the virtual sand table model is improved.

In some embodiments, the method for displaying the virtual sand table model may further include: in the process of displaying the second virtual sand table model, second physiological information data of the user are obtained; and under the condition that the second physiological information data meets the preset condition, determining at least one virtual element used for constructing the second virtual sand table model as a target element capable of causing the psychological fluctuation of the user.

The preset conditions can be set in combination with actual conditions and are used for judging whether the user generates reference of psychological fluctuation. For example, the preset condition may be a single condition, such as a sudden change of a certain physiological information data, or a condition that a certain physiological information data exceeds a certain threshold. The preset condition may be a complex condition, such as requiring that the a items of physiological information data are mutated, while the B items of physiological information data exceed a certain threshold. The target element can be understood as a virtual element in the target event, which can cause the psychological fluctuation of the user.

Specifically, in order to express the psychological phenomenon of the user in the second virtual sand table model more accurately, in the process that the user client displays the second virtual sand table model, the second physiological information data of the user are collected in real time through the intelligent wearable device, the collected second physiological information data are sent to the user client through the intelligent wearable device, and the user client receives the second physiological information data of the user. It can be understood that the user views a virtual scene interface in the second virtual sand table model through the smart wearable device or feels that a sand table event in the second virtual sand table model corresponds to the second physiological information data acquired by the smart wearable device in time.

And the user client monitors whether the second physiological information data meets a preset condition, and if so, the target event is determined to cause the psychological fluctuation of the user in the process of displaying the first virtual sand table model. In the process of displaying the second virtual sand table model, the user psychological fluctuation is caused again, and the second virtual sand table model is constructed based on at least one virtual element of the target event, which can indicate that the at least one virtual element of the target event used for constructing the second virtual sand table model causes the user psychological fluctuation to a certain extent. Therefore, at least one virtual element used for constructing the second virtual sand table model is determined as a target element capable of causing mental fluctuation of the user.

Furthermore, in the process of displaying the second virtual sand table model, behavior data of the user can be acquired, so that whether the acquired behavior data and the second physiological information data meet the preset conditions or not is considered. At this time, the preset condition may be a composite condition, and the preset condition is set for the behavior data and the second physiological information data together. And if the behavior data and the second physiological information data meet preset conditions, determining at least one virtual element used for constructing the second virtual sand table model as a target element capable of causing the psychological fluctuation of the user.

In the embodiment, in the process of displaying the second virtual sand table model, the second physiological information data of the user is continuously acquired, and under the condition that the second physiological information data meets the preset conditions, the target element is determined by at least one virtual element of the target event used for constructing the second virtual sand table model, so that the refined confirmation of the reason causing the psychological fluctuation of the user is realized, a doctor can be efficiently assisted to pertinently guide the user to release emotion, the work blindness of the doctor is reduced, and the work efficiency of the doctor is improved.

In some embodiments, in the case that the second physiological information data does not satisfy the preset condition, a third virtual sand table model constructed based on other virtual elements except at least one virtual element in the target event is presented.

The third virtual sand table model, the second virtual sand table model and the first virtual sand table model are different from each other. Specifically, in the process of displaying the second virtual sand table model, the user client acquires second physiological information data of the user. And monitoring whether the second physiological information data meet preset conditions or not by the user client, and if not, determining that the target event can cause user psychological fluctuation in the process of displaying the first virtual sand table model. In the process of displaying the second virtual sand table model, the user psychological fluctuation is not caused again, and the second virtual sand table model is constructed based on at least one virtual element of the target event, which may indicate that the at least one virtual element of the target event used for constructing the second virtual sand table model cannot cause the user psychological fluctuation to some extent. Therefore, the server needs to construct a third virtual sand table model by using other virtual elements except at least one virtual element in the target event. And the server sends the third virtual sand table model to the user client. And the user client receives and displays the third virtual sand table model.

In this embodiment, when the target element that can cause the psychological fluctuation of the user is not found by the second virtual sand table model, the third virtual sand table model is regenerated by using other virtual elements in the target event. The first virtual sand table model and the third virtual sand table have an incidence relation established through other virtual elements of the target event, so that the first virtual sand table model and the third virtual sand table are no longer scenes isolated from each other, and doctors can be assisted to guide users to release potential consciousness and emotion more efficiently.

Referring to fig. 3, an embodiment of the present disclosure provides a method for displaying a virtual sand table model. The display method of the virtual sand table model can be applied to a doctor client. The display method of the virtual sand table model comprises the following steps.

Step S310: displaying a first virtual sand table model; and a sand table event occurs in the display process of the first virtual sand table model.

Step S320: displaying a second virtual sand table model; wherein the second virtual sand table model is different from the first virtual sand table model.

Wherein the sand table event comprises a plurality of virtual elements. The second virtual sand table model is constructed based on at least one virtual element of the target event occurring in the first virtual sand table model; the target event is determined in the sand table event according to the first physiological information data of the user in the display process of the first virtual sand table model.

Specifically, in a case where the doctor receives a psychological consultation reservation of the user, the doctor may send a creation request of the first virtual sand table model to the server according to a communication situation. The server constructs a first virtual sand table model according to a creation request sent by the doctor client, and sends the first virtual sand table model to the doctor client and the user client. As can be seen, the first virtual sand table model may be a preliminary virtual sand table model created based on the communication of the doctor with the user. In addition, since the virtual sand table model displayed by the user client in this embodiment is generated in real time based on the physiological information data of the user, in the displaying process of any virtual sand table model, the physiological information data of the user can be acquired, and the first virtual sand table model may also be a virtual sand table model generated based on the previous physiological information data of the user.

The doctor client and the user client receive the first virtual sand table model. In the process of displaying the first virtual sand table model by the user client, the user client acquires first physiological information data of the user and monitors sand table events occurring in the first virtual sand table model. Due to the fact that the user views the virtual scene interface in the first virtual sand table model or feels that the sand table events in the first virtual sand table model correspond to the first physiological information data collected by the intelligent wearable device in time, the user client can determine the target events in the sand table events sent by the first virtual sand table model according to the first physiological information data.

After the target event is determined, in order to more deeply show elements which may affect the psychology of the user to the doctor and continuously guide the user to continuously release the potential consciousness and emotion in the new second virtual sand table model, the first virtual sand table model and the second virtual sand table model cannot be isolated from each other, and an association relationship needs to be established between the two. Therefore, after the user client determines the target event, the target event is sent to the server, and the server constructs a second virtual sand table model based on at least one virtual element of the target event. And the server sends the second virtual sand table model to the doctor client, and the doctor client receives and displays the second virtual sand table model.

According to the method for displaying the virtual sand table model, the first virtual sand table model and the second virtual sand table model are displayed, and the first virtual sand table model and the second virtual sand table have the incidence relation established through at least one virtual element of a target event, so that the first virtual sand table model and the second virtual sand table are not scenes isolated from each other any more, a doctor can be assisted to guide a user to release potential consciousness and emotion more efficiently, and the working efficiency of the doctor is improved.

In some embodiments, before presenting the second virtual sand table model, the presenting method of the virtual sand table model may further include: in the process of displaying the first virtual sand table model, a sand table event corresponding to the interactive data occurs in the first virtual sand table model; wherein the interactive data is generated by the user and/or the doctor operating on the first virtual sand table model.

In this embodiment, the first virtual sand table model is displayed through the doctor client, and the user client also displays the first virtual sand table model while the doctor client displays the first virtual sand table model. And the user sends out interactive operation to the first virtual sand table model, the scene interface of the first virtual sand table model displayed by the user client sends changes, and the scene interface of the first virtual sand table model displayed by the doctor client also changes along with the changes. The doctor sends out interactive operation to the first virtual sand table model, the scene interface of the first virtual sand table model displayed by the doctor client side sends changes, and the scene interface of the first virtual sand table model displayed by the user client side also changes along with the changes. The real-time interaction between the virtual sand table model and a doctor or a user is realized, the virtual sand table model can dynamically change in real time according to the interaction operation of the doctor or the user, and the flexibility of a virtual scene of the virtual sand table model is improved.

In some embodiments, the method for displaying the virtual sand table model may further include: and displaying the mental state data of the user.

The psychological state data is obtained by predicting the first physiological information data and the interaction data through a machine learning model. Specifically, first physiological information data and interaction data of a user are collected through the intelligent wearable device, and the user client receives the first physiological information data and the interaction data of the user. And the user client sends the first physiological information data and the interaction data of the user to the server. The server is pre-deployed with a machine learning model, first physiological information data and interactive data of a user are input into the machine learning model, and the first physiological information data and the interactive data are predicted through the machine learning model to obtain psychological state data of the user. The server sends the mental state data of the user to the doctor client. And the doctor client displays and receives the mental state data of the user.

In some embodiments, the user client may send the first physiological information data and the interaction data of the user to the doctor client, the doctor client deploys the machine learning model in advance, and then predicts the first physiological information data and the interaction data by using the machine learning model deployed on the doctor client, so as to obtain and display the mental state data of the user.

In the embodiment, the psychological state data of the user is displayed on the doctor client, so that the psychological state of the user is visually displayed to the doctor, the doctor is assisted in knowing the psychological state of the user, and the doctor can be guided to release the potential consciousness in a targeted manner.

In some embodiments, the method for displaying the virtual sand table model may further include: under the condition that the recording operation aiming at the user behavior is monitored, acquiring the recording data aiming at the user behavior; and performing comprehensive evaluation according to the recorded data and the psychological state data to obtain psychological evaluation result data of the user.

Specifically, the doctor client displays a first virtual sand table model and a second virtual sand table model. In the process of displaying the first virtual sand table model and the second virtual sand table model, the user may send out some user behaviors to perform interactive operation with the first virtual sand table model and the second virtual sand table model, and the user may also send out some user behaviors in response to stress of a sand table event. The doctor can observe the user behavior of the user and send out recording operation aiming at the user behavior at the doctor client. And under the condition that the doctor client monitors the recording operation aiming at the user behavior, the doctor client responds to the recording operation aiming at the user behavior and acquires the recording data aiming at the user behavior. Because the doctor client side already obtains the psychological state data predicted by the machine learning model, the recorded data recorded by the doctor and the psychological state data predicted by the machine learning model are subjected to fusion processing, so that the user is comprehensively evaluated, and the psychological evaluation result data of the user is obtained. For example, the recording data and the psychological state data may be normalized, and the sum of the two may be used as the psychological evaluation result data of the user. For example, different weighting ratios may be set for the recorded data and the mental state data, respectively, and the mental evaluation result data of the user may be determined according to the recorded data, the mental state data, and the respective weighting ratios.

In the embodiment, the accuracy and comprehensiveness of the evaluation on the user psychological state can be improved by combining the psychological state data predicted by the machine learning model, so that a doctor can know the user psychological state accurately, and the treatment effect is improved.

In some embodiments, the method for displaying the virtual sand table model may further include: and sending the psychological evaluation result data to the server so that the server updates the user profile data of the user according to the psychological evaluation result data.

Wherein, if the user uses the online psychological consultation platform for the first time. The user accesses the online psychological consultation platform through the user client to register and establish a user profile, so that the server has the user profile. If the user does not use the online psychological consultation platform for the first time, the user file is already established when the online psychological consultation platform is used for the first time, namely the user file also already exists in the server.

Specifically, after the doctor client performs comprehensive evaluation according to the recorded data and the psychological state data to obtain psychological evaluation result data of the user, the doctor client may send the psychological evaluation result data to the server. And the server receives the psychological assessment result data. Because the server has the user file, the user file is used for storing user file data, and the user file data needs to be updated according to psychological assessment result data generated by the user in each consultation, so that a doctor can accurately know the previous psychological state of the user when the subsequent user consults again. Therefore, the server updates the user profile data of the user according to the psychological assessment result data sent by the doctor client.

In the embodiment, the user file data of the user is updated according to the psychological evaluation result data, so that the user file is updated in time, and the accuracy of the user file is ensured.

In some embodiments, the method for displaying the virtual sand table model may further include: receiving a target element capable of causing user psychological fluctuation; and the target element is determined according to at least one virtual element used for constructing the second virtual sand table model under the condition that the second physiological information data of the user meets a preset condition in the display process of the second virtual sand table model.

In this embodiment, in order to more accurately express the psychological phenomenon of the user in the second virtual sand table model, the second physiological information data of the user is acquired in the process of displaying the second virtual sand table model by the user client. And under the condition that the second physiological information data of the user meets the preset conditions, the user client determines at least one virtual element of a target event used for constructing the second virtual sand table model as a target element capable of causing the psychological fluctuation of the user. After the user client determines a target element capable of causing the psychological fluctuation of the user, the user client sends the target element to the server, the server sends the target element to the doctor client, and the doctor client receives and displays the target element.

In the embodiment, the target element is sent to the doctor client through the server, the target element can clearly inform the doctor of the reason causing the psychological fluctuation of the user, the doctor is assisted in finely confirming the reason causing the psychological fluctuation of the user, the doctor can be efficiently assisted in pertinently guiding the user to release emotion, the work blindness of the doctor is reduced, and the work efficiency of the doctor is improved.

In some embodiments, the method for displaying the virtual sand table model may further include: displaying a third virtual sand table model under the condition that second physiological information data of the user does not meet preset conditions in the display process of the second virtual sand table model; wherein the third virtual sand table model is constructed based on other virtual elements except the at least one virtual element in the target event; the third virtual sand table model, the second virtual sand table model and the first virtual sand table model are different from each other.

Specifically, whether the second physiological information data of the user meets a preset condition is judged, and if not, the target event is determined to cause the psychological fluctuation of the user in the process of displaying the first virtual sand table model. In the process of displaying the second virtual sand table model, the user psychological fluctuation is not caused again, and the second virtual sand table model is constructed based on at least one virtual element of the target event, which may indicate that the at least one virtual element of the target event used for constructing the second virtual sand table model cannot cause the user psychological fluctuation to some extent. Therefore, the server needs to construct a third virtual sand table model by using other virtual elements except at least one virtual element in the target event. And the server sends the third virtual sand table model to the doctor client. And the doctor user client receives and displays the third virtual sand table model.

In this embodiment, when the target element that can cause the psychological fluctuation of the user is not found by the second virtual sand table model, the third virtual sand table model is regenerated by using other virtual elements in the target event. The first virtual sand table model and the third virtual sand table have an incidence relation established through other virtual elements of the target event, so that the first virtual sand table model and the third virtual sand table are no longer scenes isolated from each other, and doctors can be assisted to guide users to release potential consciousness and emotion more efficiently.

Referring to fig. 4, an embodiment of the present disclosure provides a method for constructing a virtual sand table model. The method for constructing the virtual sand table model can be applied to a server. The method for constructing the virtual sand table model can comprise the following steps.

Step S410: and sending the first virtual sand table model.

A sand table event occurs in the display process of the first virtual sand table model; wherein the sand table event comprises a plurality of virtual elements. Specifically, in some embodiments, in a case where the doctor receives a psychological consultation reservation of the user, the doctor may send a creation request of the first virtual sand table model to the server according to a communication situation. The server constructs a first virtual sand table model according to a creating request sent by the doctor client. The server sends the first virtual sand table model to the user client and the doctor client. In some embodiments, the virtual sand table model displayed by the user client is generated in real time based on the physiological information data of the user, the physiological information data of the user can be acquired in the display process of any virtual sand table model, and the user client sends the physiological information data of the user to the server. The server generates a first virtual sand table model based on the physiological information data of the user, and sends the first virtual sand table model to the user client and the doctor client.

Step S420: a target event occurring in a first virtual sand table model is received.

And determining the target event in the sand table event according to the first physiological information data of the user in the display process of the first virtual sand table model. Specifically, a user client displays a first virtual sand table model, and in the process of displaying the first virtual sand table model, the user client acquires first physiological information data of a user, monitors sand table events generated by the first virtual sand table model, and determines a target event in the sand table events according to the first physiological information data. And the user client sends the target event determined in the first virtual sand table model to the server. The server receives the target event determined in the first virtual sandbox model.

Step S430: a second virtual sand table model is constructed based on the at least one virtual element of the target event.

Wherein the second virtual sand table model is different from the first virtual sand table model. Specifically, after the user client determines the target event, the target event is sent to the server, and the server constructs a second virtual sand table model based on at least one virtual element of the target event. And the server sends the second virtual sand table model to the user client, and the user client displays the second virtual sand table model. The first virtual sand table model and the second virtual sand table have an incidence relation established through at least one virtual element of a target event, so that the first virtual sand table model and the second virtual sand table are no longer scenes isolated from each other, and doctors can be assisted to guide users to release potential consciousness and emotion more efficiently.

According to the method for constructing the virtual sand table model, the target event occurring in the first virtual sand table model is received, and the second virtual sand table model is constructed based on at least one virtual element of the target event, so that the dynamic generation of the virtual sand table model is realized, and the diversification of the sand table model is improved. Further, the first virtual sand table model and the second virtual sand table have an association relationship established through at least one virtual element of a target event, so that the first virtual sand table model and the second virtual sand table are no longer scenes isolated from each other, and doctors can be assisted to guide the users to release potential consciousness and emotion more efficiently.

In some embodiments, the method for constructing the virtual sand table model may further include the following steps: receiving first physiological information data and interactive data; the interactive data is generated by the operation of a user and/or a doctor on the first virtual sand table model; and predicting the first physiological information data and the interaction data through a machine learning model to obtain the psychological state data of the user.

Wherein, intelligence wearing equipment is connected with thing networking data processing module. The Internet of things data processing module acquires first physiological information data of a user in real time through any one Internet of things communication protocol of Wi-Fi, Zigbee, Bluetooth and the like. And the data processing module of the Internet of things is in communication connection with the server.

Specifically, in some embodiments, the first physiological information data of the user is collected in real time through the intelligent wearable device, the intelligent wearable device is connected with the internet of things data processing module, and the internet of things data processing module sends the first physiological information data collected by the intelligent wearable device to the server. In some embodiments, first physiological information data of a user are collected in real time through the intelligent wearable device, the intelligent wearable device is connected with the internet of things data processing module, and the internet of things data processing module sends the first physiological information data collected by the intelligent wearable device to the user client. The first physiological information data of the user client side are sent to the server, and the server receives the first physiological information data of the user.

And the user client monitors the interactive operation on the first virtual sand table model, and determines the interactive data of the corresponding user in response to the interactive operation when the user client detects the interactive operation. The user client sends the interactive data of the user to the server, and the server receives the interactive data of the user. And the doctor client monitors the interactive operation on the first virtual sand table model, and determines the interactive data of the corresponding doctor in response to the interactive operation under the condition that the doctor client detects the interactive operation. The doctor client sends the interactive data of the doctor to the server, and the server receives the interactive data of the doctor.

The server is pre-deployed with a machine learning model, the first physiological information data and the interaction data are input into the machine learning model, and the machine learning model extracts the machine features of the first physiological information data and the interaction data to obtain physiological feature data and interaction feature data. And predicting according to the physiological characteristic data and the interactive characteristic data to obtain the psychological state data of the user.

In the embodiment, the machine learning model predicts the first physiological information data and the interaction data to obtain the mental state data of the user, so that the accuracy and comprehensiveness of evaluation on the mental state of the user are improved, and a doctor can be assisted to know the mental state of the user, so that the doctor can be guided to release potential consciousness in a targeted manner.

In some embodiments, the method for constructing the virtual sand table model may further include the following steps: target elements that can cause user psychological fluctuations are received. And the target element is determined according to at least one virtual element used for constructing the second virtual sand table model under the condition that the second physiological information data of the user meets a preset condition in the display process of the second virtual sand table model.

In this embodiment, in order to more accurately express the psychological phenomenon of the user in the second virtual sand table model, the second physiological information data of the user is acquired in the process of displaying the second virtual sand table model by the user client. And under the condition that the second physiological information data of the user meets the preset conditions, the user client determines at least one virtual element of a target event used for constructing the second virtual sand table model as a target element capable of causing psychological fluctuation of the user. After the user client determines the target elements capable of causing the user psychological fluctuation, the user client sends the target elements to the server, and the server receives the target elements sent by the user client.

In the embodiment, the target elements are sent to the server through the user client, so that a doctor can clearly determine the reason causing the psychological fluctuation of the user, the doctor is assisted in finely confirming the reason causing the psychological fluctuation of the user, the work blindness of the doctor is reduced, and the doctor can be efficiently assisted in guiding the user to release the emotion in a targeted manner.

In some embodiments, the method for constructing the virtual sand table model may further include the following steps: and under the condition that second physiological information data of the user does not meet preset conditions in the display process of the second virtual sand table model, constructing a third virtual sand table model based on other virtual elements except at least one virtual element in the target event. The third virtual sand table model, the second virtual sand table model and the first virtual sand table model are different from each other.

In this embodiment, it is determined whether the second physiological information data of the user meets a preset condition, and if not, the target event is determined to cause psychological fluctuation of the user in the process of displaying the first virtual sand table model. In the process of displaying the second virtual sand table model, the user psychological fluctuation is not caused again, and the second virtual sand table model is constructed based on at least one virtual element of the target event, which may indicate that the at least one virtual element of the target event used for constructing the second virtual sand table model cannot cause the user psychological fluctuation to some extent. Therefore, the server needs to construct a third virtual sand table model by using other virtual elements except at least one virtual element in the target event. The first virtual sand table model and the third virtual sand table have an incidence relation established through other virtual elements of the target event, so that the first virtual sand table model and the third virtual sand table are no longer scenes isolated from each other, and doctors can be assisted to guide users to release potential consciousness and emotion more efficiently.

Referring to fig. 5, an embodiment of the present disclosure provides a method for displaying a virtual sand table model. The display method of the virtual sand table model can be applied to a user client. The display method of the virtual sand table model can comprise the following steps.

Step S510: and in the process of displaying the first virtual sand table model, sending first physiological information data of the user to the server.

The first physiological information data is used for instructing the server to determine a target event in the sand table events occurring in the first virtual sand table model. Wherein the target event comprises a plurality of virtual elements. Specifically, in the process that a user client displays a first virtual sand table model, first physiological information data of a user are collected in real time through intelligent wearable equipment, the collected first physiological information data are sent to the user client through the intelligent wearable equipment, and the user client receives the first physiological information data of the user. The user client sends the first physiological information data of the user to the server. The server receives the first physiological information data. The server monitors the sand table events occurring in the first virtual sand table model, and the first physiological information data of the user can also change along with the change of the sand table events occurring in the first virtual sand table model. The sand table events generated by the first virtual sand table model correspond to the first physiological information data of the user, so that the target events can be determined in the sand table events according to the first physiological information data.

Step S520: and showing a second virtual sand table model constructed based on at least one virtual element of the target event.

Wherein the second virtual sand table model is different from the first virtual sand table model. Specifically, the server builds a second virtual sand table model based on at least one virtual element of the target event. And the server sends the second virtual sand table model to the user client, and the user client displays the second virtual sand table model.

In the method for displaying the virtual sand table model, the first physiological information data of the user is sent to the server in the process of displaying the first virtual sand table model, so that the server determines the target event, the second virtual sand table model which is constructed based on at least one virtual element of the target event and is different from the first virtual sand table model is realized, the dynamic generation of the virtual sand table model is realized, the first virtual sand table model and the second virtual sand table model have the incidence relation established through at least one virtual element of the target event, so that the first virtual sand table model and the second virtual sand table are not in a mutually isolated scene any more, and a doctor can be assisted to guide the user to release potential consciousness and emotion more efficiently.

In some embodiments, the method for displaying the virtual sand table model may further include the following steps: in the process of displaying the first virtual sand table model, sending behavior data of a user to a server; wherein the target event is determined in the sand table event by the server according to the behavior data and the first physiological information data.

In the embodiment, in the process of displaying the first virtual sand table model, the user client sends the behavior data of the user to the server, so that the server determines the target event in the sand table events generated by the first virtual sand table model according to the behavior data and the first physiological information data, the sand table event which can cause the psychological activities of the user can be found more accurately, accurate reference data are provided for a doctor to guide the user, the emotion is released by the user, and the doctor can make accurate judgment on the user and improve the treatment effect.

In some embodiments, the method for displaying the virtual sand table model may further include the following steps: in the process of displaying the first virtual sand table model, a sand table event corresponding to the interactive data occurs in the first virtual sand table model; wherein the interactive data is generated by the user and/or the doctor operating on the first virtual sand table model.

In the embodiment, in the process of displaying the first virtual sand table model by the user client, a sand table event corresponding to the interactive data occurs in the first virtual sand table model, so that not only is the real-time interaction between the virtual sand table model and a doctor or a user realized, but also the virtual sand table model can be dynamically changed in real time according to the interactive operation of the doctor or the user, and the flexibility of a virtual scene of the virtual sand table model is improved.

In some embodiments, the method for displaying the virtual sand table model may further include the following steps: in the process of displaying the second virtual sand table model, sending second physiological information data of the user to the server; and the second physiological information data is used for instructing the server to determine at least one virtual element used for constructing the second virtual sand table model as a target element capable of causing the psychological fluctuation of the user under the condition that the second physiological information data meets a preset condition.

In this embodiment, in the process of displaying the second virtual sand table model, the user client continuously obtains the second physiological information data of the user, and the user client sends the second physiological information data of the user to the server. The server judges whether the second physiological information data meets a preset condition. Under the condition that the second physiological information data meet the preset conditions, the server determines at least one virtual element of a target event used for constructing the second virtual sand table model to be a target element, so that the reason causing the psychological fluctuation of the user is finely confirmed, a doctor can be efficiently assisted to pertinently guide the user to release emotion, the work blindness of the doctor is reduced, and the work efficiency of the doctor is improved.

In some embodiments, the method for displaying the virtual sand table model may further include the following steps: under the condition that the second physiological information data do not meet the preset conditions, displaying a third virtual sand table model constructed on the basis of other virtual elements except at least one virtual element in the target event; the third virtual sand table model, the second virtual sand table model and the first virtual sand table model are different from each other.

In this embodiment, in the process of displaying the second virtual sand table model, the user client continuously obtains the second physiological information data of the user, and the user client sends the second physiological information data of the user to the server. The server judges whether the second physiological information data meets a preset condition or not. If not, the target event is determined to cause psychological fluctuation of the user in the process of displaying the first virtual sand table model. In the process of displaying the second virtual sand table model, the user psychological fluctuation is not caused again, and the second virtual sand table model is constructed on the basis of the at least one virtual element of the target event, which can indicate that the at least one virtual element of the target event used for constructing the second virtual sand table model cannot cause the user psychological fluctuation to some extent. Therefore, the server needs to construct a third virtual sand table model by using other virtual elements except at least one virtual element in the target event. And the server sends the third virtual sand table model to the user client. And the user client receives and displays the third virtual sand table model. The method and the device have the advantages that the dynamic virtual sand table models are generated in real time based on the physiological information data of the users, and each dynamic virtual sand table model is based on the virtual elements of the target events, so that doctors can find out causes of diseases conveniently, and the working efficiency of the doctors is improved.

Referring to fig. 6, an embodiment of the present disclosure provides a method for constructing a virtual sand table model. The method for constructing the virtual sand table model can be applied to a server. The method for constructing the virtual sand table model can comprise the following steps.

Step S610: and receiving first physiological information data of the user in the display process of the first virtual sand table model.

Step S620: monitoring a sand table event which occurs in the first virtual sand table model; wherein the sand table event comprises a plurality of virtual elements.

Step S630: and determining a target event in the sand table event according to the first physiological information data.

Step S640: constructing a second virtual sand table model based on at least one virtual element of the target event; wherein the second virtual sand table model is different from the first virtual sand table model.

In some embodiments, the method for constructing the virtual sand table model may further include the following steps: receiving second physiological information data of the user in the display process of the second virtual sand table model; and under the condition that the second physiological information data meets the preset condition, determining at least one virtual element used for constructing the second virtual sand table model as a target element capable of causing the psychological fluctuation of the user.

In some embodiments, the method for constructing the virtual sand table model may further include the following steps: under the condition that the second physiological information data does not meet the preset condition, constructing a third virtual sand table model based on other virtual elements except at least one virtual element in the target event; the third virtual sand table model, the second virtual sand table model and the first virtual sand table model are different from each other.

For specific limitations on the method for constructing the virtual sand table model applied to the server, reference may be made to the above limitations on the method for displaying the virtual sand table model, which are not described herein again.

Referring to fig. 7, an embodiment of the present disclosure provides a method for displaying a virtual sand table model. The display method of the virtual sand table model can be applied to a user client. The display method of the virtual sand table model can comprise the following steps.

Step S710: displaying a first virtual sand table model; a sand table event occurs in the display process of the first virtual sand table model; wherein the sand table event comprises a plurality of virtual elements.

Specifically, the server constructs a first virtual sand table model and sends the first virtual sand table model to the doctor client and the user client. The doctor client receives and displays the first virtual sand table model, and the user client receives and displays the first virtual sand table model. Therefore, when the doctor client displays the first virtual sand table model, the user client also displays the first virtual sand table model. And the user sends out interactive operation to the first virtual sand table model, the scene interface of the first virtual sand table model displayed by the user client sends changes, and the scene interface of the first virtual sand table model displayed by the doctor client also changes along with the changes. The doctor sends out interactive operation to the first virtual sand table model, the scene interface of the first virtual sand table model displayed by the doctor client side sends changes, and the scene interface of the first virtual sand table model displayed by the user client side also changes along with the changes.

Step S720: displaying a second virtual sand table model; wherein the second virtual sand table model is different from the first virtual sand table model.

Wherein the second virtual sand table model is constructed based on at least one virtual element of the target event occurring in the first virtual sand table model. Wherein the target event is determined in the sand table event based on the event designation operation of the doctor. Specifically, in the process of displaying the first virtual sand table model by the user client, the doctor client is also displaying the first virtual sand table model, and a sand table event occurs in the first virtual sand table model, the doctor client can obtain and display the mental state data of the user, and the doctor can send an event designation operation to the sand table event occurring in the first virtual sand table model by taking the mental state data of the user as a reference. In response to the event designation operation, the designated sand table event is accordingly determined to be the target event. After specifying the target event, the physician client sends the target event to the server, which builds a second virtual sand table model based on at least one virtual element of the target event. The server sends the second virtual sand table model to the doctor client and the user client. And the doctor client receives and displays the second virtual sand table model, and the user client receives and displays the second virtual sand table model.

The following exemplarily illustrates how a target event is determined in a sand table event based on an event specification operation of a doctor. For example, the doctor client may be provided with an event specification control, the doctor client monitors the event specification control, in the case that the event specification control is triggered, the doctor client monitors an event specification operation of the doctor in the sand table event, and in response to the event specification operation, the doctor client determines the specified sand table event as the target event accordingly. For example, the operation interface of the doctor client has an event designation button. In the process that the doctor client displays the first virtual sand table model, when a puppy barking sand table event is sent, the psychological state data of the user displayed by the doctor client shows that the psychological state of the user changes, at the moment, the doctor can click an event designated button, the doctor client monitors that the event designated button is triggered, and the puppy barking sand table event which happens when the event designated button is triggered is determined as a target event.

Illustratively, the doctor client monitors a preset event designation operation, where the preset event designation operation may be two consecutive clicks on the screen, and when the doctor client monitors that two consecutive clicks occur on the screen, it is determined that the event designation operation is monitored. In response to two consecutive click operations, the doctor client accordingly determines the designated sand table event as the target event. The specified sand table event may be a sand table event that is occurring in the first virtual sand table model when the doctor issues the event specification operation.

According to the virtual sand table model display, in the process of displaying the first virtual sand table model, the sand table event occurring in the first virtual sand table model appointed by the doctor is determined as the target event, the second virtual sand table model is constructed based on at least one virtual element of the target event occurring in the first virtual sand table model, the flexibility of virtual sand table model operation is improved, the interactivity between the virtual sand table model and the doctor is increased, the doctor can conveniently control the virtual sand table model, the doctor is used for guiding the user to release emotion, and the treatment effect is improved.

In some embodiments, the method for displaying the virtual sand table model may further include the following steps: and in the process of displaying the second virtual sand table model, sending second physiological information data of the user to the server. The second physiological information data is used for instructing the server to determine at least one virtual element used for constructing the second virtual sand table model as a target element capable of causing psychological fluctuation of the user under the condition that the second physiological information data meets a preset condition.

In this embodiment, in the process of displaying the second virtual sand table model, the user client continuously obtains the second physiological information data of the user, and the user client sends the second physiological information data of the user to the server. The server judges whether the second physiological information data meets a preset condition. Under the condition that the second physiological information data meet the preset conditions, the server determines at least one virtual element of a target event used for constructing the second virtual sand table model to be a target element, so that the reason causing the psychological fluctuation of the user is finely confirmed, a doctor can be efficiently assisted to pertinently guide the user to release emotion, the work blindness of the doctor is reduced, and the work efficiency of the doctor is improved.

In some embodiments, the method for displaying the virtual sand table model may further include the following steps: under the condition that the second physiological information data do not meet the preset conditions, displaying a third virtual sand table model constructed on the basis of other virtual elements except at least one virtual element in the target event; the third virtual sand table model, the second virtual sand table model and the first virtual sand table model are different from each other.

In this embodiment, in the process of displaying the second virtual sand table model, the user client continuously obtains the second physiological information data of the user, and the user client sends the second physiological information data of the user to the server. The server judges whether the second physiological information data meets a preset condition. If not, the target event is determined to cause the psychological fluctuation of the user in the process of showing the first virtual sand table model. In the process of displaying the second virtual sand table model, the user psychological fluctuation is not caused again, and the second virtual sand table model is constructed based on at least one virtual element of the target event, which may indicate that the at least one virtual element of the target event used for constructing the second virtual sand table model cannot cause the user psychological fluctuation to some extent. Therefore, the server needs to construct a third virtual sand table model by using other virtual elements except at least one virtual element in the target event. And the server sends the third virtual sand table model to the user client. And the user client receives and displays the third virtual sand table model. The method and the device have the advantages that the dynamic virtual sand table models are generated in real time based on the physiological information data of the users, and each dynamic virtual sand table model is based on the virtual elements of the target events, so that doctors can find out causes of diseases conveniently, and the working efficiency of the doctors is improved.

Referring to fig. 8a, an embodiment of the present disclosure provides a method for displaying a virtual sand table model. The display method of the virtual sand table model can be applied to a doctor client. The display method of the virtual sand table model can comprise the following steps.

Step S810: displaying a first virtual sand table model; a sand table event occurs in the display process of the first virtual sand table model; wherein the sand table event comprises a plurality of virtual elements.

Specifically, the server constructs a first virtual sand table model and sends the first virtual sand table model to the doctor client and the user client. The doctor client receives and displays the first virtual sand table model, and the user client receives and displays the first virtual sand table model. Therefore, when the doctor client displays the first virtual sand table model, the user client also displays the first virtual sand table model. And the user sends out interactive operation to the first virtual sand table model, the scene interface of the first virtual sand table model displayed by the user client sends changes, and the scene interface of the first virtual sand table model displayed by the doctor client also changes along with the changes. The doctor sends out interactive operation to the first virtual sand table model, the scene interface of the first virtual sand table model displayed by the doctor client side sends changes, and the scene interface of the first virtual sand table model displayed by the user client side also changes along with the changes.

Step S820: in the display process of the first virtual sand table model, under the condition that the event designation operation of a doctor in the sand table event is monitored, the designated sand table event is determined as a target event correspondingly.

Specifically, in the process of displaying the first virtual sand table model by the user client, the doctor client is also displaying the first virtual sand table model, and a sand table event occurs in the first virtual sand table model, the doctor client can obtain and display the mental state data of the user, and the doctor can send an event designation operation to the sand table event occurring in the first virtual sand table model by taking the mental state data of the user as a reference. In response to the event designation operation, the designated sand table event is accordingly determined to be the target event.

For example, referring to fig. 8b, the doctor client may be provided with an event specification control, the doctor client monitors the event specification control, in the case that the event specification control is monitored to be triggered, the doctor client monitors an event specification operation of the doctor in the sand table event, and in response to the event specification operation, the doctor client determines the specified sand table event as the target event accordingly. For example, the operation interface of the doctor client has an event designation button. In the process that the doctor client displays the first virtual sand table model, when a puppy barking sand table event is sent, the psychological state data of the user displayed by the doctor client shows that the psychological state of the user changes, at the moment, the doctor can click an event designated button, the doctor client monitors that the event designated button is triggered, and the puppy barking sand table event which happens when the event designated button is triggered is determined as a target event.

For example, referring to fig. 8c, the doctor client monitors a preset event specification operation, where the preset event specification operation may be two consecutive clicks on the screen, and when the doctor client monitors that two consecutive clicks occur on the screen, it is determined that the event specification operation is monitored. In response to two consecutive click operations, the doctor client accordingly determines the designated sand table event as the target event. The specified sand table event may be a sand table event that is occurring in the first virtual sand table model when the doctor issues the event specification operation.

Step S830: showing a second virtual sand table model constructed based on at least one virtual element of the target event; wherein the second virtual sand table model is different from the first virtual sand table model.

Specifically, after the target event is specified, the doctor client sends the target event to the server, and the server builds the second virtual sand table model based on at least one virtual element of the target event. The server sends the second virtual sand table model to the doctor client and the user client. And the doctor client receives and displays the second virtual sand table model, and the user client receives and displays the second virtual sand table model.

According to the virtual sand table model display, in the process of displaying the first virtual sand table model, the sand table event occurring in the first virtual sand table model appointed by the doctor is determined as the target event, the second virtual sand table model is constructed based on at least one virtual element of the target event occurring in the first virtual sand table model, the flexibility of virtual sand table model operation is improved, the interactivity between the virtual sand table model and the doctor is increased, the doctor can conveniently control the virtual sand table model, the doctor is used for guiding the user to release emotion, and the treatment effect is improved.

In some embodiments, the method for displaying the virtual sand table model may further include the following steps: in the display process of the second virtual sand table model, under the condition that the element designation operation of a doctor in a target event is monitored, the designated virtual element is determined as a target element capable of causing the psychological fluctuation of a user correspondingly.

Specifically, the server builds a second virtual sand table model based on at least one virtual element of the target event. The server sends the second virtual sand table model to the doctor client. And the doctor client receives and displays the second virtual sand table model. And in the process of displaying the second virtual sand table model by the doctor client, monitoring whether element specified operation occurs or not by the doctor client. In the case that the element specifying operation of the doctor in the target event is monitored, in response to the element specifying operation, the doctor client correspondingly determines the specified virtual element as a target element capable of causing the psychological fluctuation of the user. In some embodiments, the doctor client may obtain and display the mental state data of the user, and the doctor may issue an element specification operation on the virtual element in the second virtual sand table model by taking the mental state data of the user as a reference.

Illustratively, the doctor client monitors a preset event designation operation, and the preset event designation operation can be a long-press operation on a virtual element in a target event, and in response to the long-press operation on any element, the any element is determined as a target element capable of causing mental fluctuation of a user.

For example, referring to fig. 8d, when a trojan running sand table event occurs in the second virtual sand table model, based on at least one of the experience of the doctor, the mental state data of the user, and the behavior data of the user, the doctor may designate the trojan virtual element as a target element capable of causing mental fluctuation of the user.

For another example, please refer to fig. 8e, when the doctor clicks on the pony virtual element, in response to the click operation on the pony virtual element, the doctor client may pop up a prompt window in the display interface of the second virtual sand table model, where the prompt window has a confirmation control and a cancellation control. And if the doctor clicks the determination control, determining the pony virtual element as a target element capable of causing the psychological fluctuation of the user.

Above-mentioned virtual sand table model's show through the in-process at the virtual sand table model of show second, confirms as the target element in the virtual element that the doctor appointed, promotes the flexibility of virtual sand table model operation, increases the interactivity between virtual sand table model and the doctor, and the doctor of being convenient for releases the mood to virtual sand table model's control, utilizes the doctor to guide the user, promotes treatment.

In some embodiments, the method for displaying the virtual sand table model may further include the following steps: receiving a target element capable of causing user psychological fluctuation; and the target element is determined according to at least one virtual element used for constructing the second virtual sand table model under the condition that the second physiological information data of the user meets a preset condition in the display process of the second virtual sand table model.

In this embodiment, in order to more accurately express the psychological phenomenon of the user in the second virtual sand table model, the server acquires the second physiological information data of the user in the process of displaying the second virtual sand table model by the user client. And under the condition that the server judges that the second physiological information data of the user meets the preset conditions, the server determines at least one virtual element used for constructing the second virtual sand table model as a target element capable of causing the psychological fluctuation of the user. After the user client determines a target element capable of causing the psychological fluctuation of the user, the server sends the target element to the doctor client, and the doctor client receives and displays the target element.

In the embodiment, the target element is sent to the doctor client through the server, the target element can clearly inform the doctor of the reason causing the psychological fluctuation of the user, the doctor is assisted in finely confirming the reason causing the psychological fluctuation of the user, the doctor can be efficiently assisted in pertinently guiding the user to release emotion, the work blindness of the doctor is reduced, and the work efficiency of the doctor is improved.

In some embodiments, the method for displaying the virtual sand table model may further include the following steps: displaying a third virtual sand table model under the condition that second physiological information data of the user does not meet preset conditions in the display process of the second virtual sand table model; wherein the third virtual sand table model is constructed based on other virtual elements except the at least one virtual element in the target event; the third virtual sand table model, the second virtual sand table model and the first virtual sand table model are different from each other.

Specifically, the server judges that the second physiological information data of the user meets a preset condition, and if the second physiological information data of the user does not meet the preset condition, the target event is determined to cause psychological fluctuation of the user in the process of displaying the first virtual sand table model. In the process of displaying the second virtual sand table model, the user psychological fluctuation is not caused again, and the second virtual sand table model is constructed based on at least one virtual element of the target event, which may indicate that the at least one virtual element of the target event used for constructing the second virtual sand table model cannot cause the user psychological fluctuation to some extent. Therefore, the server needs to build a third virtual sand table model by using other virtual elements except at least one virtual element in the target event. And the server sends the third virtual sand table model to the doctor client. And the doctor user client receives and displays the third virtual sand table model.

In this embodiment, when the target element that can cause the psychological fluctuation of the user is not found by the second virtual sand table model, the third virtual sand table model is regenerated by using other virtual elements in the target event. The first virtual sand table model and the third virtual sand table have an incidence relation established through other virtual elements of the target event, so that the first virtual sand table model and the third virtual sand table are no longer scenes isolated from each other, and doctors can be assisted to guide users to release potential consciousness and emotion more efficiently.

Referring to fig. 9, an embodiment of the present disclosure provides a method for constructing a virtual sand table model. The method for constructing the virtual sand table model can be applied to a server. The method for constructing the virtual sand table model can comprise the following steps.

Step S910: sending a first virtual sand table model; a sand table event occurs in the display process of the first virtual sand table model; wherein the sand table event comprises a plurality of virtual elements.

Step S920: receiving a target event occurring in a first virtual sand table model; wherein the target event is determined in the sand table event based on the event designation operation of the doctor.

Step S930: constructing a second virtual sand table model based on at least one virtual element of the target event; wherein the second virtual sand table model is different from the first virtual sand table model.

In some embodiments, the method for constructing the virtual sand table model may further include the following steps: receiving second physiological information data of the user in the display process of the second virtual sand table model; and under the condition that the second physiological information data meets the preset condition, determining at least one virtual element used for constructing the second virtual sand table model as a target element capable of causing the psychological fluctuation of the user.

In some embodiments, the method for constructing the virtual sand table model may further include the following steps: under the condition that the second physiological information data does not meet the preset condition, constructing a third virtual sand table model based on other virtual elements except at least one virtual element in the target event; the third virtual sand table model, the second virtual sand table model and the first virtual sand table model are different from each other.

For specific limitations on the method for constructing the virtual sand table model applied to the server, reference may be made to the above limitations on the method for displaying the virtual sand table model, which are not described herein again.

It should be understood that, although the steps in the above-described flowcharts are shown in order as indicated by the arrows, the steps are not necessarily performed in order as indicated by the arrows. The steps are not performed in the exact order shown and described, and may be performed in other orders, unless explicitly stated otherwise. Moreover, at least a part of the steps in the above-mentioned flowcharts may include a plurality of steps or a plurality of stages, which are not necessarily performed at the same time, but may be performed at different times, and the order of performing the steps or the stages is not necessarily performed in sequence, but may be performed alternately or alternately with other steps or at least a part of the steps or the stages in other steps.

Referring to fig. 10, an embodiment of the present disclosure provides a device for displaying a virtual sand table model, where the device includes an information data obtaining module, a sand table event monitoring module, a target event determining module, and a sand table model displaying module.

The information data acquisition module is used for acquiring first physiological information data of a user in the process of displaying the first virtual sand table model;

the sand table event monitoring module is used for monitoring a sand table event generated by the first virtual sand table model; wherein the sand table event comprises a number of virtual elements;

the target event determining module is used for determining a target event in the sand table event according to the first physiological information data;

the sand table model display module is used for displaying a second virtual sand table model constructed based on at least one virtual element of the target event; wherein the second virtual sand table model is different from the first virtual sand table model.

Referring to fig. 11, an embodiment of the present specification provides a display apparatus for a virtual sand table model, where the apparatus includes a first sand table display module and a second sand table display module.

The first sand table display module is used for displaying the first virtual sand table model; a sand table event occurs in the display process of the first virtual sand table model; wherein, the sand table event comprises a plurality of virtual elements;

the second sand table display module is used for displaying a second virtual sand table model; wherein the second virtual sand table model is different from the first virtual sand table model; the second virtual sand table model is constructed based on at least one virtual element of a target event occurring in the first virtual sand table model; wherein the target event is determined in the sandbox event according to the first physiological information data of the user during the presentation of the first virtual sandbox model.

Referring to fig. 12, an embodiment of the present specification provides an apparatus for building a virtual sand table model, where the apparatus includes a sand table model sending module, a target event receiving module, and a sand table model building module.

The sand table model sending module is used for sending the first virtual sand table model; a sand table event occurs in the display process of the first virtual sand table model; wherein, the sand table event comprises a plurality of virtual elements;

a target event receiving module, configured to receive a target event occurring in the first virtual sandbox model; wherein the target event is determined in the sandbox event according to first physiological information data of a user during the presentation of the first virtual sandbox model;

a sand table model building module for building a second virtual sand table model based on at least one virtual element of the target event; wherein the second virtual sand table model is different from the first virtual sand table model.

Referring to fig. 13, an embodiment of the present disclosure provides a virtual sand table model display device, which includes a physiological data sending module and a sand table model display module.

The physiological data sending module is used for sending first physiological information data of the user to the server in the process of displaying the first virtual sand table model; wherein the first physiological information data is used for instructing the server to determine a target event in the sand table events occurring in the first virtual sand table model; wherein the target event comprises a number of virtual elements;

the sand table model display module is used for displaying a second virtual sand table model constructed based on at least one virtual element of the target event; wherein the second virtual sand table model is different from the first virtual sand table model.

Referring to fig. 14, an embodiment of the present specification provides a device for constructing a virtual sand table model, where the device includes a physiological data receiving module, a sand table event monitoring module, a target event determining module, and a sand table model constructing module.

The physiological data receiving module is used for receiving first physiological information data of a user in the display process of a first virtual sand table model in the display process of the first virtual sand table model;

the sand table event monitoring module is used for monitoring a sand table event generated by the first virtual sand table model; wherein the sand table event comprises a number of virtual elements;

the target event determining module is used for determining a target event in the sand table event according to the first physiological information data;

a sand table model building module for building a second virtual sand table model based on at least one virtual element of the target event; wherein the second virtual sand table model is different from the first virtual sand table model.

Referring to fig. 15, an embodiment of the present specification provides a display apparatus of a virtual sand table model, where the apparatus includes a first sand table display module and a second sand table display module.

The first sand table display module is used for displaying the first virtual sand table model; a sand table event occurs in the display process of the first virtual sand table model; wherein, the sand table event comprises a plurality of virtual elements;

the second sand table display module is used for displaying the second virtual sand table model; wherein the second virtual sand table model is different from the first virtual sand table model; the second virtual sand table model is constructed based on at least one virtual element of a target event occurring in the first virtual sand table model; wherein the target event is determined in the sand table event based on an event designation operation of a doctor.

Referring to fig. 16, an embodiment of the present specification provides a virtual sand table model display apparatus, which includes a first sand table display module, a target event determination module, and a second sand table display module.

The first sand table display module is used for displaying the first virtual sand table model; a sand table event occurs in the display process of the first virtual sand table model; the sand table event comprises a plurality of virtual elements;

the target event determining module is used for correspondingly determining the appointed sand table event as the target event under the condition that the event appointing operation of a doctor in the sand table event is monitored in the display process of the first virtual sand table model;

the second sand table display module is used for displaying a second virtual sand table model constructed based on at least one virtual element of the target event; wherein the second virtual sand table model is different from the first virtual sand table model.

Referring to fig. 17, an embodiment of the present specification provides an apparatus for constructing a virtual sand table model, where the apparatus includes a sand table model sending module, a target event receiving module, and a sand table model constructing module.

The sand table model sending module is used for sending the first virtual sand table model; a sand table event occurs in the display process of the first virtual sand table model; wherein, the sand table event comprises a plurality of virtual elements;

a target event receiving module, configured to receive a target event occurring in the first virtual sand table model; wherein the target event is determined in the sand table event based on a doctor's event specification operation;

a sand table model building module for building a second virtual sand table model based on at least one virtual element of the target event; wherein the second virtual sand table model is different from the first virtual sand table model.

For specific definition of the display device of the virtual sand table model, reference may be made to the above definition of the display method of the virtual sand table model, and details are not described here. The modules in the display device of the virtual sand table model can be wholly or partially realized by software, hardware and a combination thereof. The modules can be embedded in a hardware form or independent from a processor in the computer device, and can also be stored in a memory in the computer device in a software form, so that the processor can call and execute operations corresponding to the modules.

For specific limitations of the virtual sand table model constructing device, reference may be made to the above limitations on the virtual sand table model constructing method, which are not described herein again. The modules in the building device of the virtual sand table model can be wholly or partially realized by software, hardware and a combination thereof. The modules can be embedded in a hardware form or independent from a processor in the computer device, and can also be stored in a memory in the computer device in a software form, so that the processor can call and execute operations corresponding to the modules.

In some embodiments, a computer device is provided, which may be a terminal, and its internal structure diagram may be as shown in fig. 18. The computer device comprises a processor, a memory, a communication interface, a display screen and an input device which are connected through a system bus. Wherein the processor of the computer device is configured to provide computing 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 and a computer program. The internal memory provides an environment for the operation of an operating system and computer programs in the non-volatile storage medium. The communication interface of the computer device is used for carrying out wired or wireless communication with an external terminal, and the wireless communication can be realized through WIFI, an operator network, NFC (near field communication) or other technologies. Which computer program is executed by a processor to carry out the above-mentioned method. The display screen of the computer equipment can be a liquid crystal display screen or an electronic ink display screen, and the input device of the computer equipment can be a touch layer covered on the display screen, a key, a track ball or a touch pad arranged on the shell of the computer equipment, an external keyboard, a touch pad or a mouse and the like.

Those skilled in the art will appreciate that the architecture shown in fig. 18 is merely a block diagram of some of the structures associated with the disclosed aspects and is not intended to limit the computing device to which the disclosed aspects apply, and that a computing device may in particular include more or less components than those shown, or combine certain components, or have a different arrangement of components.

In some embodiments, a computer device is provided, comprising a memory in which a computer program is stored and a processor which, when executing the computer program, carries out the method steps of the above embodiments.

In some embodiments, a computer-readable storage medium is provided, on which a computer program is stored, which when executed by a processor implements the method steps in the above-described embodiments.

In some embodiments, a computer program product is also provided, which comprises instructions that are executable by a processor of a computer device to implement the method steps in the above-described embodiments.

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 may be implemented by hardware instructions of a computer program, which may be stored in a non-volatile computer-readable storage medium, and when executed, the computer program may include the processes of the embodiments of the methods described above. Any reference to memory, storage, database, or other medium used in the various embodiments provided herein can include at least one of non-volatile and volatile memory. Non-volatile Memory may include Read-Only Memory (ROM), magnetic tape, floppy disk, flash Memory, optical storage, or the like. Volatile Memory can include Random Access Memory (RAM) or external cache Memory. By way of illustration and not limitation, RAM can take many forms, such as Static Random Access Memory (SRAM) or Dynamic Random Access Memory (DRAM), among others.

The features of the above embodiments may be arbitrarily combined, and for the sake of brevity, all possible combinations of the features in the above embodiments are not described, but should be construed as being within the scope of the present specification as long as there is no contradiction between the combinations of the features.

The above description is only for the purpose of illustrating the preferred embodiments of the present disclosure and is not to be construed as limiting the present disclosure, and any modifications, equivalents and the like that are within the spirit and principle of the present disclosure are intended to be included within the scope of the present disclosure.

Claims (32)

1. A method for displaying a virtual sand table model, which is characterized by comprising the following steps:

in the process of displaying the first virtual sand table model, first physiological information data of a user are acquired;

monitoring a sand table event occurring in the first virtual sand table model; wherein the sand table event comprises a number of virtual elements;

determining a target event in the sand table event according to the first physiological information data;

presenting a second virtual sand table model constructed based on at least one virtual element of the target event; wherein the second virtual sand table model is different from the first virtual sand table model.

2. The method according to claim 1, wherein before said determining a target event in said sand table event from said first physiological information data, said method further comprises:

acquiring behavior data of a user in the process of displaying the first virtual sand table model;

correspondingly, the determining a target event in the sand table event according to the first physiological information data includes:

and determining a target event in the sand table event according to the behavior data and the first physiological information data.

3. The method of claim 1, wherein prior to said monitoring for a sand table event occurring with said first virtual sand table model, said method further comprises:

in the process of displaying the first virtual sand table model, a sand table event corresponding to interactive data occurs in the first virtual sand table model; wherein the interaction data is generated by the user and/or doctor operating on the first virtual sand table model.

4. The method of claim 1, further comprising:

acquiring second physiological information data of the user in the process of displaying the second virtual sand table model;

and under the condition that the second physiological information data meets a preset condition, determining the at least one virtual element used for constructing the second virtual sand table model as a target element capable of causing the psychological fluctuation of the user.

5. The method of claim 4, further comprising:

under the condition that the second physiological information data does not meet preset conditions, displaying a third virtual sand table model constructed based on other virtual elements except the at least one virtual element in the target event; wherein the third virtual sand table model, the second virtual sand table model and the first virtual sand table model are different from each other.

6. A method for displaying a virtual sand table model is characterized by comprising the following steps:

displaying a first virtual sand table model; a sand table event occurs in the display process of the first virtual sand table model; wherein, the sand table event comprises a plurality of virtual elements;

displaying a second virtual sand table model; wherein the second virtual sand table model is different from the first virtual sand table model; the second virtual sand table model is constructed based on at least one virtual element of a target event occurring in the first virtual sand table model; wherein the target event is determined in the sandbox event according to the first physiological information data of the user during the presentation of the first virtual sandbox model.

7. The method of claim 6, wherein prior to said exposing the second virtual sandbox model, the method further comprises:

in the process of displaying the first virtual sand table model, a sand table event corresponding to interactive data occurs in the first virtual sand table model; wherein the interaction data is generated by the user and/or doctor operating on the first virtual sand table model.

8. The method of claim 7, further comprising:

displaying the mental state data of the user; the mental state data is obtained by predicting the first physiological information data and the interaction data through a machine learning model.

9. The method of claim 8, further comprising:

under the condition that recording operation aiming at user behaviors is monitored, recording data aiming at the user behaviors are obtained;

and performing comprehensive evaluation according to the recorded data and the psychological state data to obtain psychological evaluation result data of the user.

10. The method of claim 9, further comprising:

and sending the psychological assessment result data to a server so that the server updates the user profile data of the user according to the psychological assessment result data.

11. The method of claim 6, further comprising:

receiving a target element capable of causing psychological fluctuation of the user; the target element is determined according to the at least one virtual element used for constructing the second virtual sand table model under the condition that second physiological information data of the user meet preset conditions in the display process of the second virtual sand table model.

12. The method of claim 6, further comprising:

displaying a third virtual sand table model under the condition that second physiological information data of the user does not meet preset conditions in the display process of the second virtual sand table model; wherein the third virtual sand table model is constructed based on other virtual elements except the at least one virtual element in the target event; wherein the third virtual sand table model, the second virtual sand table model and the first virtual sand table model are different from each other.

13. A method for constructing a virtual sand table model, the method comprising:

sending a first virtual sand table model; a sand table event occurs in the display process of the first virtual sand table model; wherein, the sand table event comprises a plurality of virtual elements;

receiving a target event occurring in the first virtual sand table model; wherein the target event is determined in the sandbox event according to first physiological information data of a user during the presentation of the first virtual sandbox model;

constructing a second virtual sand table model based on at least one virtual element of the target event; wherein the second virtual sand table model is different from the first virtual sand table model.

14. The method of claim 13, further comprising:

receiving the first physiological information data and the interaction data; wherein the interaction data is generated by the user and/or doctor operating on the first virtual sand table model;

predicting the first physiological information data and the interaction data through a machine learning model to obtain the mental state data of the user.

15. The method of claim 13, further comprising:

receiving a target element capable of causing the user psychological fluctuation; the target element is determined according to the at least one virtual element used for constructing the second virtual sand table model under the condition that second physiological information data of the user meet preset conditions in the display process of the second virtual sand table model.

16. The method of claim 13, further comprising:

under the condition that second physiological information data of the user do not meet preset conditions in the display process of the second virtual sand table model, constructing a third virtual sand table model based on other virtual elements except the at least one virtual element in the target event; wherein the third virtual sand table model, the second virtual sand table model and the first virtual sand table model are different from each other.

17. A method for displaying a virtual sand table model is characterized by comprising the following steps:

in the process of displaying the first virtual sand table model, sending first physiological information data of a user to a server; the first physiological information data is used for indicating the server to determine a target event in the sand table events occurring in the first virtual sand table model; wherein the target event comprises a number of virtual elements;

presenting a second virtual sand table model constructed based on at least one virtual element of the target event; wherein the second virtual sand table model is different from the first virtual sand table model.

18. The method of claim 17, further comprising:

in the process of displaying the first virtual sand table model, sending behavior data of a user to the server; wherein the target event is determined by the server in the sand table event according to the behavior data and the first physiological information data.

19. The method of claim 17, further comprising:

in the process of displaying the first virtual sand table model, a sand table event corresponding to interactive data occurs in the first virtual sand table model; wherein the interaction data is generated by the user and/or doctor operating on the first virtual sand table model.

20. The method of claim 17, further comprising:

in the process of displaying the second virtual sand table model, sending second physiological information data of the user to the server; the second physiological information data is used for instructing the server to determine the at least one virtual element used for constructing the second virtual sand table model as a target element capable of causing the psychological fluctuation of the user under the condition that the second physiological information data meets a preset condition.

21. The method of claim 20, further comprising:

under the condition that the second physiological information data does not meet preset conditions, displaying a third virtual sand table model constructed based on other virtual elements except the at least one virtual element in the target event; wherein the third virtual sand table model, the second virtual sand table model and the first virtual sand table model are different from each other.

22. A method for constructing a virtual sand table model, the method comprising:

receiving first physiological information data of a user in the display process of a first virtual sand table model in the display process of the first virtual sand table model;

monitoring a sand table event occurring in the first virtual sand table model; wherein the sand table event comprises a number of virtual elements;

determining a target event in the sand table event according to the first physiological information data;

constructing a second virtual sand table model based on at least one virtual element of the target event; wherein the second virtual sand table model is different from the first virtual sand table model.

23. The method of claim 22, further comprising:

receiving second physiological information data of the user in the display process of the second virtual sand table model;

and under the condition that the second physiological information data meets a preset condition, determining the at least one virtual element used for constructing the second virtual sand table model as a target element capable of causing the psychological fluctuation of the user.

24. The method of claim 23, further comprising:

under the condition that the second physiological information data do not meet preset conditions, constructing a third virtual sand table model based on other virtual elements except the at least one virtual element in the target event; wherein the third virtual sand table model, the second virtual sand table model and the first virtual sand table model are different from each other.

25. A method for displaying a virtual sand table model is characterized by comprising the following steps:

displaying a first virtual sand table model; a sand table event occurs in the display process of the first virtual sand table model; wherein, the sand table event comprises a plurality of virtual elements;

displaying a second virtual sand table model; wherein the second virtual sand table model is different from the first virtual sand table model; the second virtual sand table model is constructed based on at least one virtual element of a target event occurring in the first virtual sand table model; wherein the target event is determined in the sand table event based on an event designation operation of a doctor.

26. The method of claim 25, further comprising:

and in the process of displaying the second virtual sand table model, sending second physiological information data of the user to a server, wherein the second physiological information data is used for indicating the server to determine the at least one virtual element used for constructing the second virtual sand table model as a target element capable of causing the psychological fluctuation of the user under the condition that the second physiological information data meets preset conditions.

27. The method of claim 26, further comprising:

under the condition that the second physiological information data does not meet preset conditions, displaying a third virtual sand table model constructed based on other virtual elements except the at least one virtual element in the target event; wherein the third virtual sand table model, the second virtual sand table model and the first virtual sand table model are different from each other.

28. A method for displaying a virtual sand table model is characterized by comprising the following steps:

displaying a first virtual sand table model; a sand table event occurs in the display process of the first virtual sand table model; the sand table event comprises a plurality of virtual elements;

in the display process of the first virtual sand table model, under the condition that the event designation operation of a doctor in the sand table events is monitored, correspondingly determining the designated sand table events as target events;

presenting a second virtual sand table model constructed based on at least one virtual element of the target event; wherein the second virtual sand table model is different from the first virtual sand table model.

29. The method of claim 28, further comprising:

in the display process of the second virtual sand table model, under the condition that the element designation operation of a doctor in the target event is monitored, the designated virtual element is determined as a target element capable of causing the psychological fluctuation of a user correspondingly.

30. The method of claim 28, further comprising:

receiving a target element capable of causing user psychological fluctuation; the target element is determined according to the at least one virtual element used for constructing the second virtual sand table model under the condition that second physiological information data of the user meet preset conditions in the display process of the second virtual sand table model.

31. A method for constructing a virtual sand table model, the method comprising:

sending a first virtual sand table model; a sand table event occurs in the display process of the first virtual sand table model; wherein, the sand table event comprises a plurality of virtual elements;

receiving a target event occurring in the first virtual sand table model; wherein the target event is determined in the sand table event based on a doctor's event specification operation;

constructing a second virtual sand table model based on at least one virtual element of the target event; wherein the second virtual sand table model is different from the first virtual sand table model.

32. A computer device, comprising:

a processor;

a memory for storing the processor-executable instructions;

wherein the processor is configured to execute the instructions to implement the method of any one of claims 1 to 31.

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