CN112402767B - Eye movement desensitization reprocessing intervention system and eye movement desensitization reprocessing intervention method - Google Patents

Abstract

The application discloses an eye movement desensitization reprocessing intervention system and a method thereof. An eye movement assembly in an eye movement desensitization rework intervention system is used to output preset audio information. The physiological index information acquisition instrument is used for acquiring the physiological index information of the user. The processor is used for acquiring the relaxation level of the user according to the physiological index information. The eye movement component is used for outputting an eye movement instruction and a first preset problem when the relaxation level meets a first preset condition, and acquiring eye movement information executed by a user according to the eye movement instruction and first feedback information of the first preset problem. The processor is used for judging whether the eye movement of the user meets the eye movement requirement or not according to the eye movement information, acquiring negative memory evaluation and positive memory evaluation according to the first feedback information when the eye movement requirement is met, determining desensitization completion when the negative memory evaluation meets a second preset condition, determining implantation completion when the positive memory evaluation meets a third preset condition, and generating an evaluation report aiming at treatment of the user.

Description

Eye movement desensitization reprocessing intervention system and eye movement desensitization reprocessing intervention method

Technical Field

The application relates to the technical field of medical instruments, in particular to an eye movement desensitization reprocessing intervention system and an eye movement desensitization reprocessing intervention method.

Background

"Eye Movement Desensitization and Reprocessing" (EMDR) has proven to be an effective psychotherapeutic approach to the management of post-traumatic stress disorder (PTSD). It is primarily intended to release frozen traumatic memory in the brain by recalling ocular movements during traumatic events and replace this with positive memory.

The basic theoretical assumption for EMDR is: people can encounter unfortunate events, but also have an inherent ability to dilute and balance the impact of the unfortunate event and learn to grow themselves from it. According to research, traumatic memory and negative information are often stored, stagnated in the perceptual area of the body in the right hemisphere of the brain, and the adaptation function of the brain itself and healthy nerve conduction are hindered, thus causing mental and perceptual, emotional discomfort. Under the condition, the eyeballs of the two eyes can regularly move, the speed of nerve conduction activity and cognitive processing in the brain can be accelerated, the blocked unfortunate memory can be shaken, and normal nerve activity is smooth.

The traditional Eye Movement Desensitization Reprocessing (EMDR) therapy is that a doctor guides the visions of visitors to move left and right by stretching out two or three fingers and simultaneously performs related questions, so that the patients recover memory and forget terrorism, and the mood is calm. Currently, eye movement desensitization reprocessing treatment instruments can also be used to assist in eye movement treatment. However, the current eye movement desensitization reprocessing therapeutic apparatus has the problem of low automation degree, so that the user experience is poor, and the workload of the consultant is large.

Disclosure of Invention

The embodiment of the application provides an eye movement desensitization reprocessing intervention system and an eye movement desensitization reprocessing intervention method, and aims to solve the problem that an existing eye movement desensitization reprocessing therapeutic apparatus is low in automation degree.

The eye movement desensitization reprocessing intervention system of the embodiment of the application comprises an eye movement assembly and a processor. The eye movement component is used for outputting preset audio information. The physiological index information acquisition instrument is used for acquiring the physiological index information of the user. The processor is used for acquiring the relaxation level of the user according to the physiological index information. The eye movement assembly is further used for outputting an eye movement instruction and a first preset problem when the relaxation level meets a first preset condition, and acquiring eye movement information executed by the user according to the eye movement instruction and first feedback information of the first preset problem. The processor is further used for judging whether the eye movement of the user meets the eye movement requirement or not according to the eye movement information, obtaining a negative memory evaluation and a positive memory evaluation according to the first feedback information when the eye movement meets the requirement, determining desensitization completion when the negative memory evaluation meets a second preset condition, determining implantation completion when the positive memory evaluation meets a third preset condition, and generating an evaluation report for treatment of the user.

In some embodiments, the eye movement assembly is further configured to output treatment instruction information.

In some embodiments, the eye movement assembly is further configured to: outputting a second preset problem; and acquiring second feedback information of the user to the second preset problem. The processor is further configured to determine initial symptom information of the user based on the second feedback information. The eye movement component is further used for outputting an eye movement action instruction corresponding to the initial symptom information and a first preset problem.

In some embodiments, the eye movement assembly is further configured to: adjusting a distance between the displayed eye movement action indication and the user's eye; and/or adjusting a rate of change of the displayed eye movement indication.

In some embodiments, the eye movement assembly is further configured to: outputting a physical examination indication; third feedback information of the user on the physical examination indication is obtained. The processor is further used for judging whether the body discomfort phenomenon exists in the user according to the third feedback information. The eye movement assembly is further configured to continue eye movement treatment of the user while the physical discomfort phenomenon is present in the user.

The method for the reprocessing intervention of the eye movement desensitization of the embodiment of the application comprises the following steps: outputting preset audio information and collecting physiological index information of a user; obtaining the relaxation level of the user according to the physiological index information; when the relaxation level meets a first preset condition, outputting an eye movement action instruction and a first preset problem; acquiring eye movement action information executed by the user according to the eye movement action instruction and first feedback information of the first preset problem; judging whether the eye movement of the user meets the eye movement requirement or not according to the eye movement information; when the eye movement action meets the requirement, acquiring a negative memory evaluation and a positive memory evaluation according to the first feedback information; when the negative memory evaluation meets a second preset condition, determining that desensitization is completed, and when the positive memory evaluation meets a third preset condition, determining that implantation is completed; and generating an assessment report for the user's treatment.

In some embodiments, the eye desensitization reprocessing intervention further comprises, prior to the acquiring physiological metric information of the user: and outputting treatment instruction information.

In some embodiments, the eye movement desensitization reprocessing intervention method further comprises, prior to outputting the eye movement indication and the first predetermined problem: outputting a second preset problem; acquiring second feedback information of the user on the second preset problem; determining initial symptom information of the user according to the second feedback information; and outputting an eye movement action instruction and a first preset problem corresponding to the initial symptom information.

In certain embodiments, the ocular desensitization reprocessing intervention method is for an ocular desensitization reprocessing intervention system that includes an ocular components. The eye movement desensitization reprocessing intervention method further comprises the following steps of, before outputting the eye movement action indication and the first preset problem: adjusting a distance between the eye movement indication displayed by the eye movement assembly and the user's eye; and/or adjusting a rate of change of the eye movement indication displayed by the eye movement assembly.

In certain embodiments, the ocular desensitization reprocessing intervention method further comprises outputting a physical examination indication after determining that implantation is complete; acquiring third feedback information of the user on the physical examination instruction; judging whether the user has a physical discomfort phenomenon according to the third feedback information; and continuing to perform eye movement treatment on the user when the physical discomfort phenomenon exists in the user.

In the eye movement desensitization reprocessing intervention system and the eye movement desensitization reprocessing intervention method, the eye movement assembly can automatically output music for relaxation to guide a user to perform relaxation training, so that the user performs eye movement treatment after relaxation, and the treatment effect of eye movement treatment is improved. The eye movement component can also output an eye movement indication and a first preset problem, capture eye movement information of a user and first feedback information of the user to the first preset problem, judge whether the eye movement information meets the operation requirement and evaluate the first feedback information through the processor, the processor can also directly output an evaluation report aiming at treatment of the user, manual operation of an advisor is not needed, workload of the advisor is reduced, and the automation degree and the intelligence degree of the eye movement desensitization reprocessing intervention system are greatly improved.

Additional aspects and advantages of embodiments of the present application will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the present application.

Drawings

The above and/or additional aspects and advantages of the present application will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

FIG. 1 is a block schematic diagram of an eye movement desensitization rework intervention system according to certain embodiments of the present application;

FIG. 2 is a schematic illustration of an eye movement indication displayed by the eye movement assembly in an eye movement desensitization rework intervention system of certain embodiments of the present application;

FIG. 3 is a schematic illustration of an eye movement indication displayed by the eye movement assembly in an eye movement desensitization rework intervention system of certain embodiments of the present application;

fig. 4 is a schematic flow diagram of a method of ocular desensitization reprocessing intervention according to certain embodiments of the present application.

Detailed Description

Reference will now be made in detail to embodiments of the present application, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar functions throughout. The embodiments described below by referring to the drawings are exemplary only for the purpose of explaining the embodiments of the present application, and are not to be construed as limiting the embodiments of the present application.

Referring to fig. 1, the present application discloses an ocular desensitization reprocessing intervention system. The eye movement desensitization reprocessing intervention system comprises an eye movement assembly, a physiological index information acquisition instrument and a processor. The eye movement assembly can be communicated with the processor, and the physiological index information acquisition instrument can also be communicated with the processor. The eye movement component can be used for outputting preset audio information. The physiological index information acquisition instrument can be used for acquiring the physiological index information of the user. The processor may be configured to obtain a level of relaxation of the user based on the physiological indicator information. The eye movement component can also be used for outputting an eye movement instruction and a first preset problem when the relaxation level meets a first preset condition, and acquiring eye movement information executed by the user according to the eye movement instruction and first feedback information of the first preset problem. The processor is further configured to determine whether the eye movement of the user meets the eye movement requirement according to the eye movement information, obtain the negative memory evaluation and the positive memory evaluation according to the first feedback information when the eye movement meets the requirement, determine that desensitization is complete when the negative memory evaluation meets a second preset condition, determine that implantation is complete when the positive memory evaluation meets a third preset condition, and generate an evaluation report for treatment of the user.

Wherein, the eye movement component can comprise a display device, an audio input device and an audio output device. In one example, the display device may be a virtual reality eye tracker with display and camera functions, the user wears the virtual reality eye tracker on the head, and the virtual reality eye tracker may present a frame in front of the eyes of the user and may capture an image of the eyes of the user. Of course, in other examples, the display device may also be a tablet computer, a notebook computer, a desktop computer, etc., and is not limited herein. In one example, the audio input device may be a microphone for capturing voice information of the user and the audio output device may be a headset for outputting voice information of the eye movement desensitization rework intervention system. The microphone may be a wired microphone or a wireless microphone, and the earphone may be a wired earphone or a wireless earphone, which is not limited herein.

The physiological index information collector can be used for collecting physiological index information of a user, for example, collecting physiological index information of the user, such as heart rate, pulse rate, brain wave, body temperature and the like.

Specifically, in a relaxation stage of a treatment process, an audio output device in the eye movement assembly plays audio capable of relaxing people, such as music, poetry and reciting, so as to guide a user to perform relaxation training, and in the process of guiding the user to perform relaxation training, the physiological index information acquisition instrument acquires heart rate, pulse rate and other physiological parameters (namely physiological index information) capable of reflecting individual cognition and emotion changes of the user. The physiological index information collector sends the collected physiological index information to the processor, and the processor processes the physiological index information to judge the relaxation level (namely the relaxation degree) of the user. For example, the physiological index information collector may send the collected physiological index information to the processor at intervals of a predetermined period (e.g., 30 seconds, 60 seconds, 90 seconds, etc.), and the processor may generate a physiological curve according to all the received physiological index information and observe the relaxation level of the user according to the physiological curve. When the user's relaxation level satisfies a first preset condition (for example, the relaxation level is level 5, the higher the number, the higher the degree of relaxation, and then, when the relaxation level is greater than or equal to level 4), the processor determines that the user has a relaxation skill capable of dealing with stress, and may eliminate interference caused by a certain stress using the relaxation skill. At this point, the implantation phase of the treatment process may be entered.

In an implantation phase of the treatment process, a display device in the eye movement assembly displays an eye movement action indication, and an audio output device outputs a first preset problem. The eye movement instruction is used for instructing the user to perform eye movement according to the instruction. The eye movement indication displayed by the display device may be a dynamic target point. The target point may be moved from one location to another, and the user's eye is moved to follow the movement of the target point, thereby performing eye movement desensitization treatment. As shown in fig. 2, as an example, the target point is O, the number of the target points O may be one, the target point moves from one position (for example, the left side of the display area) to another position (for example, the right side of the display area) (the dotted line represents the track traveled by the target point O, and the solid line represents the target point O currently displayed in the display area), and the user's eye also moves from left to right following the movement of the target point. As another example, as shown in fig. 3, the number of the target points O is plural, the plural target points O are simultaneously displayed in the display area and are arranged in sequence, the plural target points O are sequentially lighted up, and in the process of sequentially lighting up the plural target points O, the lighted-up target points O are captured by the eyes of the user at all times, so that the eyes move following the target points O.

In the process that the display device displays the eye movement indication, the display device can also continuously capture images of the eyes of the user, namely the eye movement information, the display device can send the captured eye movement information to the processor, the processor can process the eye movement information to judge whether the eye movement of the user meets the eye movement requirement or not, namely whether the movement track of the eyes of the user is approximately the same as the movement track of the eye movement indication or not, if yes, the processor judges that the eye movement of the user meets the eye movement requirement or not, if not, the processor judges that the eye movement of the user does not meet the requirement and can control the audio output device to output a voice prompt of ' the eye movement does not meet the requirement ' and please act again according to the indication, and/or the display device is controlled to display a text prompt of ' the eye movement does not meet the requirement ' and please act again according to the indication ', to assist the user in performing accurate eye movements.

In the process of displaying the eye movement action indication by the display equipment, the physiological index information acquisition instrument can also acquire the physiological index information of the user in real time, such as heart rate, pulse rate, brain waves, body temperature and the like.

In the process that the display device displays the eye movement action indication, the audio output device can also output a first preset problem, and the audio input device collects first feedback information of a user aiming at the first preset problem and sends the first feedback information to the processor. The processor may obtain a negative memory rating of the user based on the first feedback information. The processor judges whether the negative memory evaluation meets a second preset condition, for example, whether the negative memory evaluation is 0 or not, and if the negative memory evaluation is 0, desensitization is finished; if the negative memory evaluation is not 0, the eye movement treatment is continued, the physiological index information and the first feedback information of the user are collected in real time, then the negative memory evaluation is obtained according to the first feedback information, and the rest is done until the negative memory evaluation is 0.

And after desensitization is finished, entering an implantation stage of a treatment process, wherein in the implantation stage, the processor acquires positive memory evaluation according to the first feedback information of the user and judges whether the positive memory evaluation meets a third preset condition, for example, judges that the positive memory evaluation reaches a maximum value. When the positive memory evaluation reaches the maximum value, the implantation is finished; if the positive memory evaluation does not reach the maximum value, the eye movement treatment is continued until the positive memory evaluation reaches the maximum value.

After implantation is finished, the implantation treatment system enters an end stage, the processor can store data such as the start time point, the end time point, the duration of each stage, eye movement information in the treatment process, physiological index information, negative memory evaluation, positive memory evaluation and the like in a background, and an evaluation report for treatment of a user is generated according to the data.

The eye movement desensitization reprocessing intervention system is provided with the eye movement assembly, the physiological index information acquisition instrument and the processor, the eye movement assembly can automatically output music for relaxing to guide a user to relax, the user can relax and then conduct eye movement treatment, and the eye movement treatment therapy effect can be improved. The eye movement component can also output an eye movement indication and a first preset problem, capture eye movement information of a user and first feedback information of the user to the first preset problem, judge whether the eye movement information meets the operation requirement and evaluate the first feedback information through the processor, the processor can also directly output an evaluation report aiming at treatment of the user, manual operation of an advisor is not needed, workload of the advisor is reduced, and the automation degree and the intelligence degree of the eye movement desensitization reprocessing intervention system are greatly improved.

Referring back to fig. 1, in some embodiments, the eye movement assembly is further configured to output treatment instruction information. Specifically, there is a preparation phase prior to the relaxation phase of the treatment process. In the preparation phase, the user wears the eye movement assembly, for example, wears the virtual reality eye movement instrument and the earphone, the virtual reality eye movement instrument displays the guide words of the eye movement treatment, and the earphone plays the guide words and voices at the same time so as to explain to the visitor what the eye movement treatment is, which steps are wrapped by the flow of the eye movement treatment, which items need to be noticed and the like. Therefore, the user can have a general understanding of the eye movement treatment, and the subsequent process is facilitated. Because the eye movement component can automatically output related introduction information without the introduction of a consultant to a user, the workload of the consultant can be reduced, and the automation degree and the intelligent degree of the eye movement desensitization reprocessing intervention system are improved.

Referring to fig. 1 again, in some embodiments, the eye movement component is further configured to output a second predetermined question and obtain second feedback information of the user about the second predetermined question. The processor is further configured to determine initial symptom information for the user based on the second feedback information. The eye movement component is also used for outputting an eye movement action instruction corresponding to the second feedback information and a first preset problem according to the second feedback information. In particular, between the desensitization phase and the relaxation phase, an evaluation phase may be added. In the evaluation phase, the display device of the eye movement assembly may display the second preset question, or the audio output device of the eye movement assembly plays the second preset question, and the audio input device of the eye movement assembly receives the voice information of the user to obtain second feedback information of the user on the second preset question. The eye movement component sends the second feedback information to the processor, and the processor analyzes the second feedback information to determine initial symptom information of the user, wherein the initial symptom information may include a severity of a symptom of the user, a value of subjective discomfort (e.g., 0-10 points in a score of subjective discomfort, 0 indicating no confusion, 10 indicating a most troubling degree, and the processor may determine a value from a scale of 0-10 points), a value of forward cognition (e.g., 0-7 points in a score of forward cognition, and a higher score indicates a higher degree of forward cognition, and the processor may determine a value from a scale of 0-7 points). Then, the processor may determine an eye movement instruction and a first preset problem corresponding to the initial symptom information according to the initial symptom information of the user, and control the eye movement assembly to output the eye movement instruction and the first preset problem corresponding to the initial symptom information. Therefore, aiming at users with different symptoms, the eye movement desensitization reprocessing intervention system can automatically adopt different eye movement treatment strategies to carry out targeted treatment on the users, so that the treatment effect and efficiency are improved, and the intelligence of the eye movement desensitization reprocessing intervention system is improved.

It should be noted that the initial symptom information may also be used for comparison before and after eye movement treatment, that is, when the processor generates an evaluation report, the initial symptom information in the evaluation stage and the symptom information after treatment may also be compared to generate an evaluation result of eye movement treatment.

In some embodiments, upon ending the assessment into the desensitization phase, the eye movement assembly may adjust a distance between the displayed eye movement indication and the user's eye, and/or adjust a rate of change of the displayed eye movement indication. That is, the eye movement assembly may adjust only the distance between the displayed eye movement indication and the user's eye, may adjust only the rate of change of the displayed eye movement indication, or may adjust both the distance between the displayed eye movement indication and the user's eye and the rate of change of the displayed eye movement indication. Therefore, the user can perform treatment at the most comfortable distance and speed, and the use experience of the user is improved.

In some embodiments, the eye movement assembly is further configured to output a physical examination indication and obtain third feedback information of the user on the physical examination indication. The processor is further used for judging whether the body discomfort phenomenon exists in the user according to the third feedback information. The eye movement assembly is also used for continuing eye movement treatment on the user when the user has physical discomfort phenomena.

In particular, between the implantation phase and the end phase, a body scan phase may be added. In the body scanning phase, the display device of the eye movement assembly may display a second predetermined question, the audio output device may play the second predetermined question, and the second predetermined question may be instruction information instructing the user to "check" each part of the body. The audio input device of the eye movement assembly can acquire voice information of a user to acquire third feedback information indicated by physical examination of the user, and sends the third feedback information to the processor, the processor judges whether the user has a physical discomfort phenomenon according to the third feedback information, if the user does not have the physical discomfort phenomenon, the processor enters an ending stage, and the processor outputs an evaluation report; if the user has the physical discomfort phenomenon, the eye movement component continues to perform eye movement treatment on the user until the discomfort of the user is relieved to a certain degree or disappears. Therefore, after the desensitization stage and the implantation stage are finished, the eye movement desensitization reprocessing intervention system can continuously help a user to relieve the uncomfortable feeling of the body, and the use experience of the user is improved.

Referring to fig. 4, the present application further provides a method of ocular desensitization reprocessing intervention. The method for the reprocessing intervention of the eye movement desensitization of the embodiment of the application comprises the following steps:

011: outputting preset audio information and collecting physiological index information of a user;

012: obtaining the relaxation level of the user according to the physiological index information;

013: when the relaxation level meets a first preset condition, outputting an eye movement action instruction and a first preset problem;

014: acquiring eye movement action information executed by a user according to the eye movement action instruction and first feedback information of a first preset problem;

015: judging whether the eye movement of the user meets the eye movement requirement or not according to the eye movement information;

016: when the eye movement meets the requirement, acquiring negative memory evaluation and positive memory evaluation according to the first feedback information;

017: when the negative memory evaluation meets a second preset condition, determining that desensitization is finished, and when the positive memory evaluation meets a third preset condition, determining that implantation is finished; and

018: an assessment report is generated for the user's treatment.

In some embodiments, before outputting the preset audio information and collecting the physiological index information of the user at step 011, the eye movement desensitization reprocessing intervention method further comprises: and outputting treatment instruction information.

In some embodiments, before outputting the eye movement desensitization reprocessing intervention instruction and the first predetermined problem in step 013, the method further comprises: outputting a second preset problem; acquiring second feedback information of the user on a second preset problem; determining initial symptom information of the user according to the second feedback information; and outputting the eye movement action indication and the first preset problem corresponding to the initial symptom information.

Referring to fig. 1, in some embodiments, the method of ocular desensitization reprocessing intervention is used in an ocular desensitization reprocessing intervention system described above, the ocular desensitization reprocessing intervention system including an ocular component. The eye movement desensitization reprocessing intervention method further comprises the following steps before outputting an eye movement action instruction and a first preset problem: adjusting a distance between an eye movement indication displayed by the eye movement assembly and an eye of the user; and/or adjusting a rate of change of an eye movement indication displayed by the eye movement assembly.

In certain embodiments, the ocular desensitization reprocessing intervention method further comprises, after determining that implantation is complete: outputting a physical examination indication; acquiring third feedback information of the user on physical examination instructions; judging whether the user has a physical discomfort phenomenon according to the third feedback information; and when the body discomfort phenomenon exists in the user, continuing to perform eye movement treatment on the user.

The specific implementation procedure of the eye movement desensitization reprocessing intervention method of any of the above embodiments is the same as that of the eye movement desensitization reprocessing intervention system described above, and is not described herein again.

According to the eye movement desensitization reprocessing intervention method, the user is guided to conduct relaxation training through relaxing music, so that the user conducts eye movement treatment after relaxing, and the eye movement treatment effect can be improved. In addition, by outputting the eye movement action instruction and the first preset problem, the eye movement action information of the user and the first feedback information of the user to the first preset problem are captured, whether the eye movement action information meets the operation requirement or not is judged, the first feedback information is evaluated, the evaluation report aiming at the treatment of the user is directly output, the manual operation of a consultant is not needed, the workload of the consultant is reduced, and the use experience of the user is also improved.

In the description of the present specification, reference to the description of "one embodiment", "some embodiments", "illustrative embodiments", "examples", "specific examples" or "some examples" or the like means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present application. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, various embodiments or examples and features of different embodiments or examples described in this specification can be combined and combined by one skilled in the art without contradiction.

Any process or method descriptions in flow charts or otherwise described herein may be understood as representing modules, segments, or portions of code which include one or more executable instructions for implementing specific logical functions or steps in the process, and alternate implementations are included within the scope of the preferred embodiment of the present application in which functions may be executed out of order from that shown or discussed, including substantially concurrently or in reverse order, depending on the functionality involved, as would be understood by those reasonably skilled in the art of the present application.

Although embodiments of the present application have been shown and described above, it is understood that the above embodiments are exemplary and should not be construed as limiting the present application and that variations, modifications, substitutions and alterations in the above embodiments may be made by those of ordinary skill in the art within the scope of the present application.

Claims (4)

1. An ocular desensitization reprocessing intervention system, comprising:

the eye movement component is used for outputting preset audio information;

the physiological index information acquisition instrument is used for acquiring physiological index information of a user; and

the processor is used for acquiring the relaxation level of the user according to the physiological index information;

the eye movement assembly is further configured to:

when the relaxation level meets a first preset condition, outputting an eye movement action instruction and a first preset problem; and

acquiring eye movement action information executed by the user according to the eye movement action instruction and first feedback information of the first preset problem;

the processor is further configured to:

judging whether the eye movement of the user meets the eye movement requirement or not according to the eye movement information;

when the eye movement action meets the requirement, acquiring a negative memory evaluation and a positive memory evaluation according to the first feedback information;

when the negative memory evaluation meets a second preset condition, determining that desensitization is completed, and when the positive memory evaluation meets a third preset condition, determining that implantation is completed; and

generating an assessment report for the user's treatment;

the eye movement assembly is further configured to:

outputting a second preset problem; and

acquiring second feedback information of the user on the second preset problem;

the processor is further configured to determine initial symptom information of the user according to the second feedback information;

the eye movement component is further used for outputting an eye movement action instruction corresponding to the initial symptom information and a first preset problem.

2. The eye movement desensitization reprocessing intervention system of claim 1, wherein the eye movement assembly is further configured to output treatment instruction information.

3. The eye movement desensitization rework intervention system of claim 1, wherein the eye movement assembly is further configured to:

adjusting a distance between the displayed eye movement action indication and the user's eye; and/or

Adjusting a rate of change of the displayed eye movement indication.

4. The eye movement desensitization reprocessing intervention system of claim 1, wherein the eye movement assembly is further configured to:

outputting a physical examination indication;

acquiring third feedback information of the user on the physical examination instruction;

the processor is further used for judging whether the body discomfort phenomenon exists in the user according to the third feedback information;

the eye movement assembly is further configured to continue eye movement treatment of the user while the physical discomfort phenomenon is present in the user.

Images