Disclosure of Invention
The present disclosure aims to solve, at least to some extent, one of the technical problems in the related art.
An embodiment of a first aspect of the present disclosure provides a multifunctional virtual reality healing system, including: virtual reality equipment, data acquisition equipment, data processing equipment and display equipment, wherein,
The virtual reality device is used for displaying a virtual reality picture to a user according to a healing label of the user and playing healing audio information associated with the virtual reality picture to the user based on an audio playing module;
the data acquisition equipment is used for acquiring physiological characteristic information of a user when the user uses the virtual reality equipment and transmitting the physiological characteristic information to the data processing equipment;
The data processing equipment is used for analyzing the physiological characteristic information to determine a healing effect label of the user; the display device is used for displaying the healing effect label to the user.
Optionally, the data processing device is further configured to:
updating the healing label of the user according to the healing effect label to obtain a target label;
And sending the target label to the virtual reality equipment so that the virtual reality equipment determines a virtual reality picture to be displayed and healing audio information to be played according to the target label.
Optionally, the virtual reality device is further configured to;
inquiring video information associated with the healing label from a database according to the healing label of the user, wherein the video information contains multi-frame virtual reality pictures, and healing audio information associated with different virtual reality pictures is different;
And determining healing audio information associated with each virtual reality picture.
Optionally, the virtual reality device is further configured to:
Determining the playing sequence and the playing content of each audio playing module, wherein each audio playing module is arranged in different directions of a room;
and controlling each audio playing module to play according to the playing sequence and the playing content.
Optionally, the data acquisition device is specifically configured to;
And responding to the received starting instruction of the virtual reality equipment, controlling a plurality of wearable equipment worn on the user, and collecting physiological characteristic information of the user.
Optionally, the data processing device is further configured to:
judging the range of each physiological characteristic according to the collected physiological characteristic information;
And determining a healing effect label of the user according to the range of each physiological characteristic.
Optionally, the system further comprises a mechanotherapy device,
The mechanical healing device is used for healing the user according to the healing label of the user, wherein the mechanical healing device is worn by the user.
The multifunctional virtual reality healing system provided by the present disclosure has the following beneficial effects:
In the embodiment of the disclosure, the system can determine the healing effect label of the user by collecting the physiological characteristic information of the user and analyzing the information according to the data processing equipment, so that personalized healing experience is realized. The personalized experience can better meet the requirements and preferences of users, and the healing effect is improved. The data acquisition equipment can monitor physiological characteristic information of the user in real time, and the data processing equipment can evaluate the healing effect of the user according to the information. The system can adjust the virtual reality picture and the healing audio information in real time according to the evaluation result so as to optimize the healing effect. The virtual reality picture and the healing audio information are combined, so that the user can enjoy visual and auditory healing experience at the same time, and the overall healing effect is improved. In addition, by controlling the playing sequence and content of the plurality of audio playing modules, the system can create a richer healing experience. The wearable data acquisition device and mechanoreceutical device enable the user to use the system at any time and place, no longer subject to time and place limitations. The user can enjoy personalized virtual reality therapy experience only by wearing the equipment, so that the convenience and the flexibility of use are improved. The mechanical healing equipment heals the user according to the healing label of the user, and combines personalized virtual reality pictures and healing audio information, so that the pressure can be relieved more effectively, the emotion can be improved, and the overall healing effect can be improved. Through combining virtual reality technology, data acquisition and processing equipment and mechanical treatment equipment, personalized and multi-mode treatment experience can be provided, the treatment effect of a user is improved, and a series of challenges and limitations existing in the traditional treatment means are solved.
Additional aspects and advantages of the disclosure 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 disclosure.
Detailed Description
Embodiments of the present disclosure are described in detail below, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functions throughout. The embodiments described below by referring to the drawings are exemplary and intended for the purpose of explaining the present disclosure and are not to be construed as limiting the present disclosure.
The multifunctional virtual reality healing system according to the embodiment of the present disclosure is described below with reference to the accompanying drawings.
Fig. 1 is a schematic diagram of a multifunctional virtual reality healing system according to a first embodiment of the present disclosure, including: virtual reality equipment, data acquisition equipment, data processing equipment and display equipment, wherein,
The virtual reality device is used for displaying a virtual reality picture to a user according to a healing label of the user and playing healing audio information associated with the virtual reality picture to the user based on an audio playing module;
the data acquisition equipment is used for acquiring physiological characteristic information of a user when the user uses the virtual reality equipment and transmitting the physiological characteristic information to the data processing equipment;
The data processing equipment is used for analyzing the physiological characteristic information to determine a healing effect label of the user; the display device is used for displaying the healing effect label to the user.
The virtual reality device is configured to display a virtual reality picture to a user, which may be a head-mounted display, VR glasses or other types of virtual reality devices, and may display specific virtual reality content according to a therapeutic label of the user, such as a user-defined preference or a therapeutic proposal suggested by a medical professional, and play therapeutic audio information associated with the virtual reality picture through the audio play module, so as to enhance user experience and effect.
The data acquisition device can be used for acquiring physiological characteristic information of the user when the user uses the virtual reality device. Such physiological characteristic information may include heart rate, galvanic skin response, respiratory rate, etc. The data acquisition device will transmit the acquired physiological characteristic information to the next component, namely the data processing device.
The data processing device may be used to analyze the acquired physiological characteristic information. By analyzing this information, the system can determine the user's healing effect label, i.e., the user's reactions and effects in experiencing virtual reality healing. This may involve using machine learning algorithms or other analysis techniques to identify patterns and trends associated with healing effects.
Wherein the display device is used for displaying the determined healing effect label to the user. This may be a screen or display through which the system may present the analyzed healing effect labels to the user in visual form. In this way, users can understand their performance and response in the virtual reality healing process, thereby better understanding and managing their health and healing process.
It should be noted that, the virtual reality device presents a customized virtual environment according to the therapeutic label of the user, and provides therapeutic audio information associated with the environment through the audio playing module, so as to provide the user with an immersive therapeutic experience, help them relieve pressure, relax mind and body, and promote physical and mental health.
Specifically, the virtual reality device may display a virtual reality screen to the user according to the healing label of the user. The user may have different preferences and needs, so the system may present different virtual reality pictures according to the healing labels set by the user in advance. These tags may include scenes, music, colors, etc. liked by the user, or a healing regimen set by the medical professional according to the condition or needs of the user. The virtual reality device presents corresponding virtual environments, such as beautiful nature scenery, calm beach or other comfortable scenes, according to the labels so as to meet the requirements of users and promote the healing process.
Alternatively, the healing audio information associated with the virtual reality screen may be played to the user based on the audio play module. The audio can play a great role in the healing process, so the system can provide the healing audio information associated with the virtual reality picture for the user through the audio playing module. Such audio may include natural sound, soft music, relaxed sound waves, or specially designed healing audio. The selection and playback of these audio will match the virtual environment to enhance the user's healing experience and to help the user reach a relaxed and pleasant state more quickly.
It should be noted that, the data acquisition device collects physiological characteristic information of the user when the user uses the virtual reality device, and transmits the information to the data processing device, so that the system can further analyze the physiological state and response of the user, and provide personalized healing experience according to the analysis result.
The method comprises the steps that physiological characteristic information of a user is collected when the user uses the virtual reality device, and the data collection device starts to collect the physiological characteristic information of the user when the user wears the virtual reality device and starts to experience a virtual environment. Such physiological characteristic information may include, but is not limited to, heart rate, galvanic skin response, respiratory rate, etc. Such information may be obtained by various sensors (e.g., heart rate monitor, skin sensor, respiration sensor, etc.).
Wherein the data acquisition device transmits the acquired physiological characteristic information to the data processing device for further analysis and processing. Such transmission may be via a wireless connection (e.g., bluetooth, wi-Fi) or a wired connection (e.g., USB).
Optionally, the data processing device is further configured to:
updating the healing label of the user according to the healing effect label to obtain a target label;
And sending the target label to the virtual reality equipment so that the virtual reality equipment determines a virtual reality picture to be displayed and healing audio information to be played according to the target label.
It should be noted that the data processing device may determine the healing effect labels of the user by analyzing the physiological characteristic information of the user, and then present these labels to the display device of the user, so as to help the user better understand and manage their emotion and physical and mental states.
The data processing device may analyze the physiological characteristic information of the user collected from the data acquisition device. By analyzing the physiological responses of the user, such as heart rate variability, galvanic skin responses, etc., the system can infer the emotional state and physical and psychological condition of the user. Based on these analysis results, the system may determine a healing effect label for the user, i.e., an evaluation label for the emotional state or healing effect that the user is currently in. After determining the user's healing effect tags, the system presents these tags to the user to let the user know their current status or healing effect. This display device may be a display screen in a virtual reality headset, or may be another type of screen or display. By displaying the healing effect label, the user can better know the physical and mental states of the user, so that the user can adjust experience or take corresponding actions to improve the states of the user.
Optionally, the virtual reality device is further configured to;
inquiring video information associated with the healing label from a database according to the healing label of the user, wherein the video information contains multi-frame virtual reality pictures, and healing audio information associated with different virtual reality pictures is different;
And determining healing audio information associated with each virtual reality picture.
It should be noted that the system will retrieve the relevant video information from the database based on the user's healing label and determine the appropriate healing audio information associated with each virtual reality picture to provide a more personalized and efficient healing experience.
Various virtual reality video information associated with different emotional states or physical and mental conditions is stored in the database. When the system determines the user's healing tag, it retrieves the video information associated with it from the database based on the tag. Each virtual reality screen may be associated with specific healing audio information. Such audio information may include relaxed natural sounds, meditation guides, music, etc., and the system will determine the appropriate audio information associated with each frame based on the user's healing labels and the content and atmosphere of the virtual reality scene. The system selects corresponding healing audio information from the database according to the healing label of the user and the content of the current virtual reality scene, and associates the corresponding healing audio information with each virtual reality picture. Thus, when the user watches the virtual reality picture, the system can play corresponding therapy audio so as to enhance the therapy experience of the user.
Optionally, the virtual reality device is further configured to:
Determining the playing sequence and the playing content of each audio playing module, wherein each audio playing module is arranged in different directions of a room;
and controlling each audio playing module to play according to the playing sequence and the playing content.
It should be noted that, the system may determine the playing sequence and content of each audio playing module according to the design or the requirement of the user, and control them to play according to the set sequence and content, and adjust the position and volume of the modules at the same time, so as to provide a unified and coherent therapeutic audio experience.
In particular, a plurality of audio playback modules may be provided in different orientations of the room. The system needs to determine the order of play and the content of play of these modules to ensure that the user gets a consistent and beneficial audio experience throughout the healing experience. The playing sequence can be determined according to the design of the healing experience or the needs of the user, and the playing content needs to be matched with the current virtual reality scene and the healing label of the user. After determining the playing order and content, the system will control each audio playing module to play according to the set order and content. This may involve adjusting the volume of each playback module, starting and ending playback of a particular audio file, and switching different playback modes or cycles as desired. Because the audio playback modules are positioned in different orientations in the room, the system may also need to consider adjusting the position and volume of each module to ensure that the user can hear the audio evenly throughout the room and obtain a uniform healing experience.
Optionally, the data acquisition device is specifically configured to;
And responding to the received starting instruction of the virtual reality equipment, controlling a plurality of wearable equipment worn on the user, and collecting physiological characteristic information of the user.
Optionally, the data processing device is further configured to:
judging the range of each physiological characteristic according to the collected physiological characteristic information;
And determining a healing effect label of the user according to the range of each physiological characteristic.
Specifically, when the system receives a start instruction of the virtual reality device, the system can control the wearable device on the user to start to collect physiological characteristic information. These wearable devices may include heart rate monitors, galvanic skin activity sensors, motion trackers, etc. for recording the physiological state of the user, such as heart rate, galvanic skin activity, activity level, etc.
The acquired physiological characteristic information is transmitted to a data processing device for analysis. The data processing device may determine the range of each physiological characteristic according to a preset standard or algorithm. For example, whether the heart rate of the user is in a normal range is judged from the heart rate data, or the degree of relaxation of the user is judged from the skin electric activity, or the like.
Thereafter, the system can determine the overall physiological state of the user based on the range in which each physiological characteristic is located. Based on these physiological characteristic information, the system may further determine a healing effect label for the user. For example, if the user's heart rate is in a relaxed state, the galvanic skin activity indicates that the user is relaxed, and the system may mark the user as "relaxed" or "pleasant" to reflect its effect in the healing experience.
Finally, the system can acquire physiological characteristic information by controlling the wearable equipment, judge the physiological state range of the user according to the information, and further determine the healing effect label of the user so as to provide more personalized and effective healing experience.
Optionally, the system further comprises a mechanotherapy device,
The mechanical healing device is used for healing the user according to the healing label of the user, wherein the mechanical healing device is worn by the user.
In particular, the mechanoreceutical device may be a healing device, such as a massager, a muscle soothing device, a neurostimulator, etc. They may be equipped with various sensors and control means capable of providing corresponding healing effects according to the needs and physiological conditions of the user. When the user wears the mechanical therapy equipment, the equipment can correspondingly operate according to the user therapy label determined before. For example, if the user is marked as "relaxed," the device may provide a soothing massage to help the user further relax mind and body; if the user is marked as "tired", the device may provide a stimulus that helps to restore energy. The user wears these mechanoreceutical devices on his body, possibly in a specific part of the body or in a specific area of the body. Thus, the user can enjoy the healing effect while performing daily activities, thereby improving the quality of life and the health level. The mechanical healing device heals the user according to the healing label of the user, and the mechanical healing device is worn by the user, so that personalized healing experience can be provided in daily life.
For example, assuming that the mechanical healing device is an intelligent massager, different types of massage may be provided according to the user's healing label. The user wears the device, and can enjoy healing effect at home or in work. The system determines the user's healing label by monitoring the physiological characteristic information of the user, such as heart rate, galvanic skin activity, etc. For example, if the user's heart rate is low, the galvanic skin activity is smooth, it may be marked as "relaxed". According to the therapeutic label of the user, the intelligent massager can adjust the massage mode to provide corresponding therapeutic effect. For example, if the user is marked "relax", the massager may select a gentle massage mode to gently knead and massage the user's muscles, helping the user to further relax his mind and body.
The user can continue to perform daily activities such as working in front of a desk, watching television, reading books, and the like while wearing the intelligent massager. The soothing massage of the massager allows the user to relax and relax in a busy life, helping to relieve stress and improve emotional states. The intelligent massager may also be equipped with a feedback system that may collect feedback information from the user and adjust based on the user's feedback to provide a more personalized and comfortable healing experience. For example, if the user feels that the massage force is too light or too heavy, the adjustment may be made by the intelligent control system.
In this way, the user can wear the intelligent massager in daily life and enjoy personalized healing experience according to own healing requirements, thereby improving the quality of life and the health level.
As an example of an application scenario, assume a device named "VR THERAPY Pod", which is a healing device that combines virtual reality and mechanical healing techniques. Before the user enters VR THERAPY Pod, the system determines the user's healing label, such as "relax", "decompress", "anxiety ease", etc., from the user's physiological data and psychological assessment.
After entering VR THERAPY Pod, the user is brought into an immersive virtual reality environment, such as beautiful mountain water, calm forests, or a gentle beach. This environment is intended to match the user's healing label, thereby providing an optimal healing experience. In a virtual reality environment, a user may feel a mechanotherapy effect coordinated with the environment. For example, the user may feel as if he is in a forest, while the mechanical device simulates the feel of a light wind sweeping across the skin, or provides a gentle massaging effect through the vibrating device. VR THERAPY Pod can provide a personalized healing experience depending on the user's healing label and personal preferences. For example, if the user is marked "anxiety relief," the device may help relieve anxiety by guiding the user through deep breathing or relaxation training. During the whole healing process, the system can continuously monitor the physiological and psychological states of the user and adjust the virtual environment and the mechanical healing effect according to the needs so as to ensure that the user obtains the optimal healing experience. By combining virtual reality technology and mechanical healing equipment, VR THERAPY Pod can provide an immersive healing experience for users, help them relax mind and body, relieve stress and improve mental health.
Fig. 2 is an application scenario block diagram of a multifunctional virtual reality healing system according to an embodiment of the present disclosure.
The multifunctional virtual reality healing system provided by the present disclosure has the following beneficial effects:
In the embodiment of the disclosure, the system can determine the healing effect label of the user by collecting the physiological characteristic information of the user and analyzing the information according to the data processing equipment, so that personalized healing experience is realized. The personalized experience can better meet the requirements and preferences of users, and the healing effect is improved. The data acquisition equipment can monitor physiological characteristic information of the user in real time, and the data processing equipment can evaluate the healing effect of the user according to the information. The system can adjust the virtual reality picture and the healing audio information in real time according to the evaluation result so as to optimize the healing effect. The virtual reality picture and the healing audio information are combined, so that the user can enjoy visual and auditory healing experience at the same time, and the overall healing effect is improved. In addition, by controlling the playing sequence and content of the plurality of audio playing modules, the system can create a richer healing experience. The wearable data acquisition device and mechanoreceutical device enable the user to use the system at any time and place, no longer subject to time and place limitations. The user can enjoy personalized virtual reality therapy experience only by wearing the equipment, so that the convenience and the flexibility of use are improved. The mechanical healing equipment heals the user according to the healing label of the user, and combines personalized virtual reality pictures and healing audio information, so that the pressure can be relieved more effectively, the emotion can be improved, and the overall healing effect can be improved. Through combining virtual reality technology, data acquisition and processing equipment and mechanical treatment equipment, personalized and multi-mode treatment experience can be provided, the treatment effect of a user is improved, and a series of challenges and limitations existing in the traditional treatment means are solved.
Those of ordinary skill in the art will appreciate that all or a portion of the steps carried out in the method of the above-described embodiments may be implemented by a program to instruct related hardware, where the program may be stored in a computer readable storage medium, and where the program, when executed, includes one or a combination of the steps of the method embodiments.
Furthermore, each functional unit in the embodiments of the present disclosure may be integrated in one processing module, or each unit may exist alone physically, or two or more units may be integrated in one module. The integrated modules may be implemented in hardware or in software functional modules. The integrated modules may also be stored in a computer readable storage medium if implemented in the form of software functional modules and sold or used as a stand-alone product.
The above-mentioned storage medium may be a read-only memory, a magnetic disk or an optical disk, or the like. Although embodiments of the present disclosure have been shown and described above, it will be understood that the above embodiments are illustrative and not to be construed as limiting the present disclosure, and that variations, modifications, alternatives, and variations may be made to the above embodiments by one of ordinary skill in the art within the scope of the present disclosure.