WO2023209830A1 - Adjustment system, adjustment method, and program - Google Patents

Abstract

The present invention provides suitable cognitive therapy or behavioral therapy to a patient.　An adjustment system for providing cognitive therapy or behavioral therapy to a patient acquires the state of a disease from which the patient is suffering, generates digital media for distributing content in accordance with the acquired state of the disease, collects a log relating to the physiological responses, perception, or behavior of the patient in a real space or in the generated digital media, analyzes the collected log, detects a disturbance in a physiological response pattern, a perception pattern, or a behavioral pattern of the patient, and uses the detection result as a basis to perform adjustment of the generated digital media for correcting the disturbance in the physiological response pattern, the perception pattern, or the behavioral pattern of the patient.

Description

Adjustment system, adjustment method and program

The present invention relates to a technique effective for cognitive therapy or behavioral therapy performed on patients.

In recent years, techniques related to cognitive therapy or behavioral therapy have attracted attention.
For example, in Patent Document 1, when the situation and evaluation scores are sent to a database, they are classified by keyword, and the evaluation points for each classification are analyzed by recording, calculating, comparing, etc., and counseling is automatically performed based on the results. Technology has been provided that automatically performs cognitive behavioral therapy using algorithms to improve cognitive distortions and behavior.
In addition, Patent Document 2 discloses a sleep management system that implements a session based on cognitive behavioral therapy including a question-and-answer process regarding sleep between an information processing server and an information processing terminal device, the question-and-answer process In this system, each question is advanced page by page on the screen of the information processing terminal device, and until the question and answer process is completed, the previous question and answer record is scrolled in accordance with the user's instruction operation on the information processing terminal device. Techniques are provided for controlling the display.

Japanese Patent Application Publication No. 2015-153413 Japanese Patent Application Publication No. 2018-186362

Cognitive therapy or behavioral therapy is a type of psychotherapy that works on cognition to make people feel better.
Advances in technology have made it possible to obtain data and life logs that can be used to promote health, and digital media (e.g., VR (Virtual Reality), AR (Augmented Reality), applications) to provide cognitive therapy or behavioral therapy to patients are now available. , web content). Through this digital media, patients receive cognitive or behavioral therapy to improve their disease status. Therefore, it is important to appropriately customize digital media for each patient. In order to maximize the effects of cognitive therapy or behavioral therapy using digital media, it is necessary to adjust the digital media to correct disturbances in physiological response patterns, perceptual patterns, or behavioral patterns for each patient.
Therefore, there is a need for a technology that can adjust digital media to correct disturbances in a patient's physiological response pattern, perceptual pattern, or behavioral pattern.
However, with the techniques described in Patent Documents 1 and 2, it was not possible to make adjustments to correct disturbances in a patient's physiological reaction pattern, perceptual pattern, or behavioral pattern with respect to digital media.
Therefore, the present inventors focused on a mechanism for adjusting digital media to correct disturbances in a patient's physiological reaction pattern, perceptual pattern, or behavioral pattern.

The present invention aims to provide appropriate cognitive therapy or behavioral therapy to patients by adjusting digital media to correct disturbances in the patient's physiological response patterns, perceptual patterns, or behavioral patterns. The purpose is to provide an adjustment system, adjustment method, and program that make it possible.

The present invention is a coordination system for performing cognitive therapy or behavioral therapy on a patient, comprising:
an acquisition unit that acquires the disease status of the patient;
a generation unit that generates digital media that distributes content according to the acquired disease state;
a collection unit that collects logs regarding physiological reactions, perceptions, or behaviors of the patient in real space or in the generated digital media;
a detection unit that analyzes the collected logs and detects a disturbance in the patient's physiological reaction pattern, perceptual pattern, or behavioral pattern;
an adjustment unit that adjusts the generated digital media to correct disturbances in the patient's physiological reaction pattern, perceptual pattern, or behavioral pattern, based on the detection result;
Provides an adjustment system comprising:

According to the present invention, a coordination system that performs cognitive therapy or behavioral therapy on a patient acquires the disease state of the patient and generates digital media that distributes content according to the acquired disease state. Collect logs regarding the patient's physiological reactions, perceptions, or behaviors in real space or the generated digital media, analyze the collected logs, and analyze the patient's physiological reaction patterns, perceptual patterns, or , a disturbance in the behavioral pattern is detected, and based on the detection result, an adjustment is made to the generated digital media to correct the disturbance in the physiological reaction pattern, perceptual pattern, or behavioral pattern of the patient.

Although the present invention is in the category of systems, similar actions and effects can be achieved even in methods and programs.

According to the present invention, it is possible to provide appropriate cognitive therapy or behavioral therapy to patients.

1 is a diagram illustrating an overview of an adjustment system 1. FIG. 1 is a diagram showing a functional configuration of an adjustment system 1. FIG. 3 is a diagram showing a flowchart of a generation process executed by the adjustment system 1. FIG. 3 is a diagram showing a flowchart of adjustment processing executed by the adjustment system 1. FIG.

Hereinafter, modes for carrying out the present invention (hereinafter referred to as embodiments) will be described in detail with reference to the accompanying drawings. In the subsequent figures, the same numbers or symbols are given to the same elements throughout the description of the embodiments.

[Overview of adjustment system 1]
FIG. 1 is a schematic diagram for explaining the outline of the adjustment system 1. As shown in FIG.
The adjustment system 1 realizes processing in which a computer 10 having a server function performs cognitive therapy or behavioral therapy on a patient 2.

The terminals and devices that make up the adjustment system 1 will be explained.
The adjustment system 1 may be any system as long as it includes a computer 10 having at least a server function. This computer 10 may be realized by, for example, one computer, or may be realized by a plurality of computers such as a cloud computer.
In this specification, a cloud computer refers to one that uses any computer in a scalable manner to perform a certain function, or one that includes multiple functional modules to realize a certain system, and whose functions can be freely combined. It can be anything.
In this specification, the adjustment system 1 includes a computer 10, a patient terminal 20 managed by a patient 2, and a medical facility terminal 30 managed by a medical facility.
The terminals, devices, etc. that make up the adjustment system 1 are merely examples, and the number, types, and functions of each terminal other than the computer 10 can be changed as appropriate.

An overview of processing steps when the adjustment system 1 performs cognitive therapy or behavioral therapy on the patient 2 will be explained.
The premise of the present invention is that the patient 2 receives cognitive therapy or behavioral therapy using digital media.

The computer 10 acquires the disease status of the patient 2 (step S1).
Disease status is the severity and/or progression of the disease.
The patient terminal 20 detects various data detected or input by itself (for example, the cycle of biological signals detected by a wearable device (for example, pulse, body temperature, respiration, eye movements) and deviations in the device position, and the deviations detected by the input device). The computer 10 determines the change in the input frequency, the gesture and/or voice detected by the gesture/speech recognition system, the disease state of the patient 2 whose mobile terminal or personal computer has accepted the input, as the disease state of the patient 2. Send to. Furthermore, the medical facility terminal 30 transmits the disease status of the patient 2 who has been examined at the medical facility 3 to the computer 10.
The computer 10 receives the disease states of these patients 2 and acquires the disease states of the patients 2.

The computer 10 generates digital media that distributes content according to the acquired disease state (step S2).
The content includes, for example, weather effects (e.g., changes in weather such as a change from sunny to cloudy, a change from cloudy to sunny, and a change from cloudy to rain), and architectural effects (e.g., drawings of buildings, (deletion of buildings, addition of buildings, architectural scenery of buildings), rendering of topography (e.g., drawing of various landforms such as mountains, oceans, plains, grasslands, plateaus, etc.), patient 2 has never experienced it in the past (has never actually visited or virtually visited)) .
As mentioned above, digital media is, for example, VR, AR, applications, and web content. This digital media can be used to record various responses from the patient 2 (for example, shifts in the cycle of biological signals detected by the wearable device and the position of the device, changes in the input frequency detected by the input device, and signals detected by the gesture/voice recognition system). Contents are provided to the patient 2 according to the gesture and/or voice, the disease state of the patient 2 whose input is accepted by the mobile terminal or the personal computer.
The computer 10 selects necessary content for the patient 2 from among the content stored in advance by itself or received input from the administrator of the adjustment system 1, etc., according to the acquired disease state. Computer 10 generates digital media that distributes the selected content.

The computer 10 collects logs regarding the physiological reactions, perceptions, or behaviors of the patient 2 in real space or in the generated digital media (step S3).
A physiological response is, for example, a response of the patient 2 to an external stimulus received by the patient 2 (eg, a stimulus received by real space, a stimulus received by digital media). Perceptions include, for example, the five senses such as vision, hearing, smell, taste, and antennae, as well as organic spacing, balance, muscle movement sensation, and the like. The behavior is, for example, all the activities and actions performed by the patient 2.
The computer 10 collects logs regarding the physiological reactions, perceptions, or behaviors of the patient 2 based on the patient's 2 responses to content in real space or digital media. The computer 10 acquires various data similar to the data acquired as the above-mentioned state of the patient 2 with respect to each content as a log regarding the physiological reaction, perception, or behavior of the patient 2 in the real space or output digital media. do.
The patient terminal 20 transmits various data detected or input by itself to the computer 10 as a response from the patient 2.
The computer 10 receives these various data and collects logs regarding the physiological reactions, perceptions, or behaviors of the patient 2 in real space or in generated digital media.

The computer 10 analyzes the collected logs and detects a disturbance in the physiological reaction pattern, perceptual pattern, or behavioral pattern of the patient 2 (step S4).
The computer 10 compares various data in the collected logs with the real space or content, and detects a first parameter indicating what kind of experience is "provided" and "perceived" by the patient 2. The computer 10 identifies the cognitive/psychological effect that the content is having on the patient 2 based on this first parameter.
The computer 10 detects a disturbance in the physiological reaction pattern, perceptual pattern, or behavioral pattern of the patient 2 based on the cognitive/psychological effects brought about on the identified patient 2.

Based on the detection results, the computer 10 makes adjustments to the generated digital media to correct disturbances in the physiological reaction pattern, perceptual pattern, or behavioral pattern of the patient 2 (step S5).
The computer 10 generates a second parameter that produces a certain cognitive/psychological effect on the patient 2 based on the identified cognitive/psychological effect.
The computer 10 adjusts the generated digital media by creating new content that takes into account the generated second parameter, or by adding this parameter to the content of the generated digital media.
The computer 10 generates the second parameter and adjusts the digital media based on the second parameter, and detects disturbances in the physiological reaction pattern, perceptual pattern, or behavioral pattern of the patient 2 with respect to the generated digital media. Make adjustments to adjust the situation.

The above is an overview of the adjustment system 1.
According to the present adjustment system 1, it becomes possible to provide appropriate cognitive therapy or behavioral therapy to the patient.

[Device configuration]
FIG. 2 is a block diagram showing the configuration of the adjustment system 1. As shown in FIG. The adjustment system 1 is a system that implements processing for performing cognitive therapy or behavioral therapy on a patient 2, and is composed of at least a computer 10. In this embodiment, the adjustment system 1 further includes a patient terminal 20 managed by a patient 2 and a medical facility terminal 30 managed by a medical facility 3.
The adjustment system 1 is a system in which a computer 10, a patient terminal 20, and a medical facility terminal 30 are connected to enable data communication via a network 5 such as a public line network.
Note that the terminals, devices, etc. that make up the adjustment system 1 are merely examples, and the number, types, and functions of each terminal other than the computer 10 can be changed as appropriate.

The computer 10 has a server function, and may be implemented by, for example, one computer or multiple computers such as a cloud computer.
The computer 10 includes a CPU (Central Processing Unit), a GPU (Graphics Processing Unit), a RAM (Random Access Memory), a ROM (Read Only Memory), etc. as a control unit, and a communication unit. as a connection with other terminals, devices, etc. The device includes a device for enabling communication, an acquisition unit 11 that acquires the disease state of the patient 2, a collection unit 12 that collects logs regarding the physiological reactions, perceptions, or behaviors of the patient 2, and the like.
The computer 10 includes, as processing units, various devices that execute various processes, a generation unit 13 that generates digital media, a detection unit 14 that detects disturbances in the physiological reaction pattern, perceptual pattern, or behavioral pattern of the patient 2, and a digital An adjustment unit 15 and the like is provided for adjusting the media to correct disturbances in the physiological reaction pattern, perceptual pattern, or behavior pattern of the patient 2.

In the computer 10, the control section reads a predetermined program, thereby realizing an acquisition module, an output module, and a collection module in cooperation with the communication section.
Further, in the computer 10, the control section reads a predetermined program, thereby realizing a generation module, a detection module, and an adjustment module in cooperation with the processing section.

The patient terminal 20 includes, for example, a head mounted display (HMD), a wearable device such as smart glasses, an input device such as a mouse and a controller, a gesture/speech recognition system that recognizes gestures and/or voice of the patient 2, a mobile phone, and a smartphone. , mobile terminals such as tablet terminals, and terminals such as personal computers.
The patient terminal 20 includes a CPU, GPU, RAM, ROM, etc. as a terminal control section, a device etc. for enabling communication with other terminals, devices, etc. as a communication section, and various information as an input/output section. Equipped with devices, etc. for executing input/output.
Note that the patient terminal 20 may be capable of direct data communication with the computer 10, or may be capable of data communication via another device such as a router.

The medical facility terminal 30 is, for example, a mobile terminal such as a mobile phone, a smartphone, or a tablet terminal, or a terminal such as a personal computer or a computer having a server function. The medical facility terminal 30 includes a CPU, GPU, RAM, ROM, etc. as a terminal control unit, a device etc. for enabling communication with other terminals and devices as a communication unit, and various types of input/output units as an input/output unit. It is equipped with devices, etc. for inputting and outputting information.
Note that the medical facility terminal 30 may be capable of direct data communication with the computer 10, or may be capable of data communication via another device such as a router.

Hereinafter, each process executed by the adjustment system 1 will be explained together with the processes executed by each of the modules described above.
In this specification, each module may execute its processing content as its own function, or may execute it via a predetermined application.
As described above, the premise of the present invention is that the patient 2 receives cognitive therapy or behavioral therapy using digital media.

[Generation process executed by computer 10]
The generation process executed by the computer 10 will be described based on FIG. 3. This figure is a flowchart of the generation process executed by the computer 10. This generation process is the details of the acquisition process (step S1) for acquiring the disease status of the patient 2 mentioned above, and the generation process (step S2) for generating digital media for distributing content according to the disease status.

The acquisition module acquires the disease state of patient 2 (step S10).
The disease state is the severity and/or progress of the disease, as described above.
The patient terminal 20 transmits various data detected or input by itself to the computer 10 as the state of the patient 2. Further, the medical facility terminal 30 transmits various data inputted thereto to the computer 10 as the status of the patient 2.
The acquisition module receives these various data and acquires the disease status of the patient 2 from the patient terminal 20 managed by the patient 2 and/or the medical facility terminal 30 managed by the medical facility 3 where the patient 2 visited.

The disease state of the patient 2 that the acquisition module acquires from the patient terminal 20 will be explained for each type of patient terminal 20.
First, a case where the patient terminal 20 is a wearable device worn by the patient 2 will be described.
The patient terminal 20 detects the biological signals of the patient 2 and detects their cycles. The patient terminal 20 detects pulse values, body temperature values, respiration values, fluctuations in eye movement, etc., and also detects the cycles of these values, fluctuations, etc. In addition, the patient terminal 20 detects its own position and detects any deviation in its position. The patient terminal 20 detects the movement of the patient 2 wearing the patient 2 in each direction of front and back, up and down, left and right, pitch, yaw, and roll, and detects its own position. Based on the detected position of the patient terminal 20, the patient terminal 20 detects a deviation from the position of the patient terminal 20 assumed in advance.
The patient terminal 20 transmits the period of this biological signal and its own positional deviation to the computer 10 as the disease state of the patient 2.
The acquisition module receives the period of this biological signal and its own positional deviation, and acquires the disease state of the patient 2.
Next, a case where the patient terminal 20 is an input device used by the patient 2 will be described.
The patient terminal 20 receives input from the patient 2, and detects the frequency of this input as the input frequency. The patient terminal 20 detects a change in input frequency based on the detected input frequency.
The patient terminal 20 transmits this change in input frequency to the computer 10 as the disease state of the patient 2.
The acquisition module receives this change in input frequency and acquires the disease status of the patient 2.
Next, a case where the patient terminal 20 is a gesture/speech recognition system will be described.
The patient terminal 20 recognizes the gesture and/or voice of the patient 2 toward itself, and detects the recognized gesture and/or voice.
The patient terminal 20 transmits this gesture and/or voice to the computer 10 as the disease state of the patient 2.
The acquisition module receives this gesture and/or voice and acquires the disease status of the patient 2.
Next, a case where the patient terminal 20 is a mobile terminal or a personal computer will be described.
The patient terminal 20 accepts input of the disease state of the patient 2 using a predetermined input method (for example, an application, a UI (User Interface) with an input form set, email, message). At this time, the patient terminal 20 receives input of the disease state of the patient 2 based on the patient's 2 self-report.
The patient terminal 20 transmits the disease status of the patient 2 to the computer 10.
The acquisition module receives the disease status of this patient 2 and acquires the disease status of the patient 2.
Note that the various data that the patient terminal 20 detects or receives input is not limited to the example described above. Further, the patient terminal 20 is not limited to the devices, equipment, systems, terminals, apparatuses, etc. described above. Further, the data communication method by which the acquisition module acquires various data from the patient terminal 20 is not particularly limited.

The disease state of the patient 2 that the acquisition module acquires from the medical facility terminal 30 will be described.
The medical facility terminal 30 receives input of the disease state of the patient 2 from a medical worker or the like who belongs to the medical facility 3 where the patient 2 has been examined.
The medical facility terminal 30 transmits the disease status of the patient 2 to the computer 10.
The acquisition module receives the disease status of this patient 2 and acquires the disease status of the patient 2.
Note that the various data that the medical facility terminal 30 accepts as input is not limited to the example described above. Further, the data communication method by which the acquisition module acquires various data from the medical facility terminal 30 is not particularly limited.

The disease state of the patient 2 that the acquisition module acquires from the patient terminal 20 and/or the medical facility terminal 30 may be any one of the above, or a combination of a plurality of them.

The generation module generates digital media that distributes content according to the acquired disease state of the patient 2 (step S11).
As described above, the content is, for example, a weather presentation, a building presentation, or a terrain presentation. As described above, the digital media are, for example, VR, AR, applications, and web content, and provide content to the patient 2 according to various responses from the patient 2.
The generation module generates one or more contents necessary for the patient 2 from among the contents stored by itself or received input from the administrator of the adjustment system 1, etc., according to the acquired disease state of the patient 2. Select multiple content. The generation module uses the selected content or content to generate digital media that serves this content.

The output module outputs the generated digital media to the patient 2 (step S12).
The output module transmits the generated digital media to the patient terminal 20. At this time, the patient terminal 20 to which the output module transmits the digital media may be at least one capable of displaying digital media, such as a wearable device, a mobile terminal, or a personal computer.
The patient terminal 20 receives this digital media and displays it on its own display. The patient 2 views digital media displayed on the patient terminal 20.
The output module outputs the generated digital media to the patient 2 by displaying the generated digital media on the patient terminal 20.

The above is the generation process.

[Adjustment process executed by computer 10]
The adjustment process executed by the computer 10 will be explained based on FIG. 4. This figure is a diagram showing a flowchart of the adjustment process executed by the computer 10. This adjustment process includes a collection process (step S3) that collects logs regarding the physiological reactions, perceptions, or behaviors of the patient 2 described above, and detects disturbances in the physiological reaction patterns, perceptual patterns, or behavioral patterns of the patient 2. The details of the detection processing (step S4) and the adjustment processing (step S5) for adjusting the generated digital media to correct disturbances in the physiological reaction pattern, perceptual pattern, or behavioral pattern of the patient 2. This adjustment process is a process executed after the generation process described above.

The collection module collects logs regarding the physiological reactions, perceptions, or behaviors of the patient 2 in the real space or in the generated digital media (step S20).
The physiological response, as described above, is the response of the patient 2 to an external stimulus that the patient 2 receives. As mentioned above, perception includes the five senses such as sight, hearing, smell, taste, and antennae, as well as organic spacing, balance sense, muscle movement sense, and the like. As described above, the actions are all the activities and actions performed by the patient 2.
The collection module collects logs regarding the physiological reactions, perceptions, or behaviors of the patient 2 based on the patient's 2 responses to content in real space or output digital media. The collection module acquires various data similar to the data acquired as the state of the patient 2 described above for each content in the real space or output digital media as a log regarding the physiological reaction, perception, or behavior of the patient 2. do. For example, if the patient terminal 20 is an HMD, the digital media is a VR space, and the content is changes in the weather, drawings of buildings, and drawings of terrain, the collection module collects the periodicity of the eye movement data of the patient 2. and the positional deviation of the patient terminal 20 are collected as a log regarding the physiological reaction, perception, or behavior of the patient 2.
The patient terminal 20 transmits various data detected or input by itself to the computer 10 as a response from the patient 2.
The collection module receives these various data and collects logs regarding the physiological reactions, perceptions, or behaviors of the patient 2 in real space or in generated digital media.

The detection module analyzes the collected logs and detects a disturbance in the physiological reaction pattern, perceptual pattern, or behavioral pattern of the patient 2 (step S21).
The detection module compares various data in the collected logs with the real space or content, and detects a first parameter indicating what kind of "experience is provided" and "perceived" by the patient 2. The method for detecting the first parameter is such that in the log example described above, in a certain topographical scene, elements resulting from changes in weather and elements resulting from drawings of buildings promote psychological transformation. The detection module specifies the cognitive/psychological effects that the content has on the patient 2 by analyzing usage scenes and response history of the patient 2.
The detection module detects a disturbance in the physiological reaction pattern, perceptual pattern, or behavioral pattern of the patient 2 based on the cognitive/psychological effects brought on the identified patient 2.

Based on the detection results, the adjustment module makes adjustments to the generated digital media to correct disturbances in the physiological reaction pattern, perceptual pattern, or behavioral pattern of the patient 2 (step S22).
The adjustment module generates a second parameter that produces a certain cognitive/psychological effect on the patient 2 based on the identified cognitive/psychological effect. For example, in the above-mentioned log example, the second parameter is one that promotes psychological transformation to normal cognitive and psychological effects in a certain topographical scene, and includes information on changes in topography, changes in weather, and changes in buildings. This is the content of the drawing. The adjustment module generates second parameters for adjustable content.
The adjustment module adjusts the generated digital media by creating new content that takes the generated second parameter into consideration, or by adding this parameter to the content of the generated digital media.
The adjustment module generates the second parameter and adjusts the digital media based on the second parameter, and detects disturbances in the physiological reaction pattern, perceptual pattern, or behavioral pattern of the patient 2 with respect to the generated digital media. Make adjustments to adjust the situation.

The output module outputs the adjusted digital media to the patient 2 (step S23).
The output module transmits the adjusted digital media to the patient terminal 20. At this time, the patient terminal 20 to which the output module transmits the digital media may be at least one capable of displaying digital media, such as a wearable device, a mobile terminal, or a personal computer.
The patient terminal 20 receives this digital media and displays it on its own display. The patient 2 views digital media displayed on the patient terminal 20.
The output module outputs the adjusted digital media to the patient 2 by displaying the adjusted digital media on the patient terminal 20. Note that when the output module outputs the adjusted digital media to the patient 2, The health of the patient 2 may be managed in accordance with the first parameter detected by the process of step S21 described above.

The above is the adjustment process.

In this embodiment, the purpose is to provide appropriate cognitive therapy or behavioral therapy to the patient, but it may also be applied to the purpose of medical examination or health checkup as appropriate.
Although each of the above-mentioned processes is described as a separate process, the computer 10 can also be configured to execute a part or all of the above-mentioned processes in combination. Further, the computer 10 can also be configured to execute each process at a timing other than the timing described above.

The means and functions described above are realized by a computer (including a CPU, an information processing device, and various terminals) reading and executing a predetermined program. For example, the program may be provided from a computer via a network (SaaS: Software as a Service) or in a cloud service. Further, the program may be provided in a form recorded on a computer-readable recording medium. In this case, the computer reads the program from the recording medium, transfers it to an internal recording device or an external recording device, records it, and executes it. Alternatively, the program may be recorded in advance on a recording device (recording medium) and provided to the computer from the recording device via a communication line.

Although the embodiments of the present invention have been described above, the present invention is not limited to these embodiments described above. Furthermore, the effects described in the embodiments of the present invention are merely a list of the most preferable effects resulting from the present invention, and the effects of the present invention are limited to those described in the embodiments of the present invention. isn't it.

(1) A coordination system that performs cognitive therapy or behavioral therapy for a patient,
an acquisition unit (for example, acquisition unit 11, acquisition module) that acquires the disease state of the patient;
a generation unit (for example, generation unit 13, generation module) that generates digital media that distributes content according to the acquired disease state;
a collection unit (e.g., collection unit 12, collection module) that collects logs regarding physiological reactions, perceptions, or behaviors of the patient in the real space or the generated digital media;
a detection unit (e.g., detection unit 14, detection module) that analyzes the collected logs and detects a disturbance in the physiological reaction pattern, perceptual pattern, or behavioral pattern of the patient;
an adjustment unit (e.g., adjustment unit 15, adjustment module) that adjusts the generated digital media to correct disturbances in the patient's physiological reaction pattern, perceptual pattern, or behavioral pattern, based on the detection result; ,
Adjustment system with.

According to the invention (1), it is possible to provide appropriate cognitive therapy or behavioral therapy to a patient.

(2) the state of the disease is the severity and/or progress of the disease;
The adjustment system described in (1).

According to the invention (2), it is possible to provide appropriate cognitive therapy or behavioral therapy to a patient.

(3) The acquisition unit acquires, as the disease state, a period of the patient's biosignal detected by a wearable device worn by the patient and a shift in the position of the wearable device due to the patient's behavior.
The adjustment system described in (1).

According to the invention (3), it is possible to provide appropriate cognitive therapy or behavioral therapy to a patient.

(4) The acquisition unit acquires, as the disease state, a change in input frequency detected by an input device used by the patient;
The adjustment system described in (1).

According to the invention (4), it becomes possible to provide appropriate cognitive therapy or behavioral therapy to a patient.

(5) The acquisition unit acquires the patient's gesture and/or voice detected by a gesture/speech recognition system used by the patient as the disease state.
The adjustment system described in (1).

According to the invention (5), it is possible to provide appropriate cognitive therapy or behavioral therapy to a patient.

(6) the acquisition unit acquires the disease state from the patient;
The adjustment system described in (1).

According to the invention (6), it is possible to provide appropriate cognitive therapy or behavioral therapy to a patient.

(7) The acquisition unit acquires the state of the disease from the medical facility where the patient visited.
The adjustment system described in (1).

According to the invention (7), it is possible to provide appropriate cognitive therapy or behavioral therapy to a patient.

(8) A computer-executed adjustment method for performing cognitive therapy or behavioral therapy on a patient, the method comprising:
obtaining the patient's disease status (e.g., step S10);
a step of generating digital media that distributes content according to the acquired disease state (for example, step S11);
Collecting logs regarding physiological reactions, perceptions, or behaviors of the patient in real space or in the generated digital media (e.g., step S20);
Analyzing the collected logs to detect disturbances in the patient's physiological reaction pattern, perceptual pattern, or behavioral pattern (for example, step S21);
Based on the detection result, adjusting the generated digital media to correct disturbances in the physiological reaction pattern, perceptual pattern, or behavioral pattern of the patient (for example, step S22);
Adjustment method with.

(9) A computer that performs cognitive therapy or behavioral therapy on a patient;
obtaining the patient's disease status (e.g., step S10);
a step of generating digital media that distributes content according to the acquired disease state (for example, step S11);
collecting logs regarding physiological reactions, perceptions, or behaviors of the patient in real space or in the generated digital media (e.g., step S20);
analyzing the collected logs and detecting disturbances in the patient's physiological reaction pattern, perceptual pattern, or behavioral pattern (e.g., step S21);
Based on the detection result, adjusting the generated digital media to correct disturbances in the physiological reaction pattern, perceptual pattern, or behavioral pattern of the patient (for example, step S22);
A computer readable program for executing.

1 Adjustment System 2 Patient 3 Medical Facility 5 Network 10 Computer 11 Acquisition Unit 12 Collection Unit 13 Generation Unit 14 Detection Unit 15 Adjustment Unit 20 Patient Terminal 30 Medical Facility Terminal

Claims (9)

1. A coordination system for performing cognitive therapy or behavioral therapy on a patient, the adjustment system comprising:
   an acquisition unit that acquires the disease status of the patient;
   a generation unit that generates digital media that distributes content according to the acquired disease state;
   a collection unit that collects logs regarding physiological reactions, perceptions, or behaviors of the patient in real space or in the generated digital media;
   a detection unit that analyzes the collected logs and detects a disturbance in the patient's physiological reaction pattern, perceptual pattern, or behavioral pattern;
   an adjustment unit that adjusts the generated digital media to correct disturbances in the patient's physiological reaction pattern, perceptual pattern, or behavioral pattern, based on the detection result;
   Adjustment system with.
2. The state of the disease is the severity and/or progress of the disease,
   Adjustment system according to claim 1.
3. The acquisition unit acquires, as the disease state, a cycle of the patient's biosignal detected by a wearable device worn by the patient and a shift in the position of the wearable device due to the patient's behavior.
   Adjustment system according to claim 1.
4. The acquisition unit acquires, as the disease state, a change in input frequency detected by an input device used by the patient.
   Adjustment system according to claim 1.
5. The acquisition unit acquires the patient's gesture and/or voice detected by a gesture/speech recognition system used by the patient as the disease state.
   Adjustment system according to claim 1.
6. The acquisition unit acquires the disease state from the patient.
   Adjustment system according to claim 1.
7. The acquisition unit acquires the state of the disease from a medical facility where the patient visited.
   Adjustment system according to claim 1.
8. A computer-implemented adjustment method for performing cognitive or behavioral therapy on a patient, the method comprising:
   obtaining the patient's disease status;
   generating digital media that distributes content according to the acquired disease state;
   collecting logs regarding physiological reactions, perceptions, or behaviors of the patient in real space or in the generated digital media;
   analyzing the collected logs to detect disturbances in the patient's physiological response pattern, perceptual pattern, or behavioral pattern;
   Based on the detection result, adjusting the generated digital media to correct a disturbance in the physiological reaction pattern, perceptual pattern, or behavioral pattern of the patient;
   Adjustment method with.
9. A computer that performs cognitive or behavioral therapy on a patient.
   obtaining the patient's disease status;
   generating digital media that distributes content according to the acquired disease state;
   collecting logs regarding physiological reactions, perceptions, or behaviors of the patient in real space or in the generated digital media;
   analyzing the collected logs to detect disturbances in the patient's physiological response pattern, perceptual pattern, or behavioral pattern;
   making adjustments to the generated digital media to correct disturbances in the patient's physiological reaction pattern, perceptual pattern, or behavioral pattern, based on the detection result;
   A computer readable program for executing.
   
   

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