Multi-level control method and system for item presentation based on interaction mode
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Patents(China)
- Current Assignee / Owner
- HUIZHIAN INFORMATION TECH CO LTD
- Filing Date
- 2023-12-14
- Publication Date
- 2026-06-09
AI Technical Summary
Inappropriate lighting and carbon dioxide concentrations in museums or art galleries can lead to visual color distortion and reduced display safety, issues that are difficult to effectively address with current technologies.
By collecting real-time images of exhibits and analyzing their visual state, we can adjust the lighting; by detecting environmental information around the display cases, we can adjust environmental parameters; and by acquiring personnel dynamic information, we can adjust the storage status of the exhibits.
To avoid visual color differences in exhibits and improve the durability and safety of exhibits stored in display cases.
Smart Images

Figure CN117837912B_ABST
Abstract
Description
Technical Field
[0001] This invention relates to the field of item display, and more particularly to a multi-layered control method and system for item display based on interactive methods. Background Technology
[0002] Museums and art galleries typically place exhibits in display cases to effectively protect them and ensure their reliable display. To maintain optimal display quality, appropriate lighting is usually created within the display cases to provide adequate illumination. However, inappropriate lighting can lead to visual color discrepancies and reduce the visual quality of the exhibits. Furthermore, the display environment significantly impacts the quality of the exhibits; for example, high carbon dioxide concentrations can negatively affect the exhibits and reduce their safety during display. Summary of the Invention
[0003] The purpose of this invention is to provide a multi-layered control method and system for interactive item display. This method collects and analyzes real-time images of items in a display case to determine the visual appearance of the items under the current lighting conditions. This identifies areas of visual abnormality in the items under lighting conditions and adjusts the lighting to prevent color differences. Furthermore, it detects and analyzes the surrounding environment of the display case to determine if the items are in an abnormal display environment. This allows for adjustments to the internal environmental parameters of the display case to prevent items from being exposed to atmospheric conditions unfavorable for their storage, thus improving the durability of the items within the display case. Finally, it acquires and analyzes the dynamic information of people in the surrounding environment to adjust the storage status of the items within the display case, ensuring the safety of the displayed items.
[0004] This invention is achieved through the following technical solution:
[0005] Multi-layered control methods for interactive item display include:
[0006] Real-time images of the items in the display case are collected and analyzed to determine the visual appearance of the items under the current lighting conditions of the display case. Based on the visual appearance information, visually abnormal areas of the items under the lighting conditions are identified, and the lighting conditions of the items are adjusted accordingly.
[0007] The surrounding environment of the display case is detected to obtain surrounding environment information; based on the surrounding environment information, it is determined whether the item is in an abnormal display environment state; if the item is in an abnormal display environment state, the environmental parameters inside the display case are adjusted.
[0008] The system acquires dynamic information about people in the surrounding environment of the display case, analyzes the dynamic information, and determines whether a display safety incident has occurred with the item. If a display safety incident occurs with the item, the system adjusts the storage status of the item in the display case.
[0009] Optionally, real-time images of the item in the display case are acquired, and the real-time images are analyzed to determine the visual appearance information of the item under the current lighting conditions of the display case; based on the visual appearance information, visually abnormal areas of the item under the lighting conditions are determined, and the lighting conditions of the item are adjusted accordingly, including:
[0010] A panoramic scan of the items inside the display case is performed to obtain a real-time panoramic image of the items; the real-time panoramic image is analyzed to determine the visual color distribution information of the items under the current lighting conditions of the display case.
[0011] The visual color distribution information of the appearance is compared with the actual color distribution information of the appearance of the item to determine the visual color distortion area of the item under the illumination of the light; based on the color distortion difference value of the visual color distortion area and its position on the surface of the item, the color temperature and direction of the light illumination on the item are adjusted.
[0012] Optionally, the surrounding environment of the display case is detected to obtain surrounding environment information; based on the surrounding environment information, it is determined whether the item is in an abnormal display environment state; when the item is in an abnormal display environment state, the environmental parameters inside the display case are adjusted, including:
[0013] The surrounding environment of the display case is detected to obtain information on changes in carbon dioxide concentration. Based on the information on changes in carbon dioxide concentration, it is determined whether the average carbon dioxide concentration value of the surrounding environment of the display case is greater than a preset concentration threshold and whether the carbon dioxide concentration of the surrounding environment is increasing. If yes, it is determined that the item is in an abnormal display environment state; if no, it is determined that the item is not in an abnormal display environment state.
[0014] When the item is in an abnormal display environment, the air circulation and renewal flow rate inside the display case is increased.
[0015] Optionally, the system acquires personnel dynamic information about the surrounding environment of the display case, analyzes the personnel dynamic information, and determines whether a display safety incident has occurred with the item. If a display safety incident occurs with the item, the system adjusts the storage status of the item in the display case, including:
[0016] The surrounding environment of the display case is scanned by radar to obtain the movement status information of people in the surrounding environment, and the average movement speed and the distribution density of people in the surrounding environment are extracted from the movement status information. If the average movement speed of people is less than a preset speed threshold and the distribution density of people is greater than a preset density threshold, it is determined that a display safety accident has occurred on the item; otherwise, it is determined that no display safety accident has occurred on the item.
[0017] If a display safety incident occurs involving the item, the item will be moved to the sealed space in the lower layer of the display case.
[0018] A multi-layered control system for interactive item display, including:
[0019] The image acquisition and analysis module is used to acquire real-time images of the items in the display case, analyze the real-time images, and determine the appearance visual state information of the items under the current lighting conditions of the display case.
[0020] The lighting state adjustment module is used to determine the visually abnormal area of the item under the lighting state based on the appearance visual state information, and thereby adjust the lighting state of the item.
[0021] The environmental information detection and analysis module is used to detect the surrounding environment of the display case and obtain surrounding environmental information; based on the surrounding environmental information, it determines whether the item is in an abnormal display environment state.
[0022] An environmental parameter adjustment module is used to adjust the environmental parameters inside the display case when the item is in an abnormal display environment.
[0023] The personnel dynamic detection and analysis module is used to acquire personnel dynamic information in the surrounding environment of the display case, analyze the personnel dynamic information, and determine whether a display safety accident has occurred on the item.
[0024] The item storage status adjustment module is used to adjust the storage status of the item in the display case when a display safety incident occurs.
[0025] Optionally, the image acquisition and analysis module is used to acquire real-time images of the item in the display case, analyze the real-time images, and determine the appearance visual state information of the item under the current lighting conditions of the display case, including:
[0026] A panoramic scan of the items inside the display case is performed to obtain a real-time panoramic image of the items; the real-time panoramic image is analyzed to determine the visual color distribution information of the items under the current lighting conditions of the display case.
[0027] The lighting state adjustment module is used to determine, based on the appearance visual state information, visually abnormal areas of the item under the lighting state, and thereby adjust the lighting state of the item, including:
[0028] The visual color distribution information of the appearance is compared with the actual color distribution information of the appearance of the item to determine the visual color distortion area of the item under the illumination of the light; based on the color distortion difference value of the visual color distortion area and its position on the surface of the item, the color temperature and direction of the light illumination on the item are adjusted.
[0029] Optionally, the environmental information detection and analysis module is used to detect the surrounding environment of the display case to obtain surrounding environmental information; based on the surrounding environmental information, it determines whether the item is in an abnormal display environment state, including:
[0030] The surrounding environment of the display case is detected to obtain information on changes in carbon dioxide concentration. Based on the information on changes in carbon dioxide concentration, it is determined whether the average carbon dioxide concentration value of the surrounding environment of the display case is greater than a preset concentration threshold and whether the carbon dioxide concentration of the surrounding environment is increasing. If yes, it is determined that the item is in an abnormal display environment state; if no, it is determined that the item is not in an abnormal display environment state.
[0031] The environmental parameter adjustment module is used to adjust the environmental parameters inside the display case when the item is in an abnormal display environment, including:
[0032] When the item is in an abnormal display environment, the air circulation and renewal flow rate inside the display case is increased.
[0033] Optionally, the personnel dynamic detection and analysis module is used to acquire personnel dynamic information of the surrounding environment of the display case, analyze the personnel dynamic information, and determine whether a display safety accident has occurred on the item, including:
[0034] The surrounding environment of the display case is scanned by radar to obtain the movement status information of people in the surrounding environment, and the average movement speed and the distribution density of people in the surrounding environment are extracted from the movement status information. If the average movement speed of people is less than a preset speed threshold and the distribution density of people is greater than a preset density threshold, it is determined that a display safety accident has occurred on the item; otherwise, it is determined that no display safety accident has occurred on the item.
[0035] The item storage status adjustment module is used to adjust the storage status of the item in the display case when a display safety incident occurs, including:
[0036] If a display safety incident occurs involving the item, the item will be moved to a sealed space in the lower layer of the display case.
[0037] Compared with the prior art, the present invention has the following beneficial effects:
[0038] This application provides a multi-layered control method and system for interactive item display. It collects and analyzes real-time images of items in a display case to determine the visual appearance of the items under the current lighting conditions. This identifies visually abnormal areas of the items under lighting and adjusts the lighting to prevent color differences. Furthermore, it detects and analyzes the surrounding environment of the display case to determine if the items are in an abnormal display environment. This adjusts the internal environmental parameters of the display case to prevent items from being exposed to atmospheric conditions unfavorable to their storage, improving their durability. Finally, it acquires and analyzes the dynamic information of people in the surrounding environment to adjust the storage status of the items in the display case, ensuring the safety of the displayed items. Attached Figure Description
[0039] To more clearly illustrate the technical solutions in the embodiments of the present invention or the prior art, the drawings used in the description of the embodiments or the prior art will be briefly introduced below. Obviously, the drawings described below are only some embodiments of the present invention. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort. Wherein:
[0040] Figure 1 This is a flowchart illustrating the multi-layered control method for item display based on interactive methods provided by the present invention.
[0041] Figure 2 This is a schematic diagram of the structure of the multi-layer control system for displaying items based on interactive methods provided by the present invention. Detailed Implementation
[0042] To make the above-mentioned objectives, features, and advantages of this application more apparent and understandable, the specific embodiments of this application will be described in detail below with reference to the accompanying drawings. It should be understood that the specific embodiments described herein are for illustrative purposes only and are not intended to limit the scope of this application. Furthermore, it should be noted that, for ease of description, only the parts relevant to this application are shown in the accompanying drawings, not the entire structure. Based on the embodiments in this application, all other embodiments obtained by those skilled in the art without inventive effort are within the scope of protection of this application.
[0043] The terms “comprising” and “having”, and any variations thereof, used in this application are intended to cover non-exclusive inclusion. For example, a process, method, system, product, or apparatus that includes a series of steps or units is not limited to the steps or units listed, but may optionally include steps or units not listed, or may optionally include other steps or units inherent to such process, method, product, or apparatus.
[0044] In this document, the term "embodiment" means that a particular feature, structure, or characteristic described in connection with an embodiment may be included in at least one embodiment of this application. The appearance of this phrase in various places throughout the specification does not necessarily refer to the same embodiment, nor is it a separate or alternative embodiment mutually exclusive with other embodiments. It will be explicitly and implicitly understood by those skilled in the art that the embodiments described herein can be combined with other embodiments.
[0045] Please see Figure 1 As shown, an embodiment of this application provides a multi-layered control method for item display based on interactive methods. This multi-layered control method for item display based on interactive methods includes:
[0046] Real-time images of the items in the display case are collected and analyzed to determine the visual appearance of the items under the current lighting conditions in the display case. Based on the visual appearance information, visually abnormal areas of the items under the current lighting conditions are identified, and the lighting conditions for the items are adjusted accordingly.
[0047] The surrounding environment of the display case is detected to obtain surrounding environmental information; based on the surrounding environmental information, it is determined whether the item is in an abnormal display environment state; if the item is in an abnormal display environment state, the environmental parameters inside the display case are adjusted.
[0048] Obtain the dynamic information of personnel in the surrounding environment of the display case, analyze the dynamic information of personnel, and determine whether a display safety accident has occurred for the item; if a display safety accident has occurred for the item, adjust the storage status of the item in the display case.
[0049] The beneficial effects of the above embodiments are that the interactive multi-layer control method for item display collects and analyzes real-time images of items in the display case, determines the visual appearance information of items under the current lighting conditions, thereby identifying visually abnormal areas of items under lighting conditions, and adjusting the lighting conditions of items to avoid display color differences; it also detects and analyzes the surrounding environmental information of the display case to determine whether items are in an abnormal display environment, thereby adjusting the environmental parameters inside the display case to avoid items being exposed to atmospheric environments unfavorable to their storage, improving the storage durability of items in the display case; and it further acquires and analyzes the dynamic information of personnel in the surrounding environment of the display case to adjust the storage state of items in the display case, ensuring the display safety of items.
[0050] In another embodiment, real-time images of the item in the display case are acquired, and the real-time images are analyzed to determine the visual appearance information of the item under the current lighting conditions of the display case. Based on the visual appearance information, visually abnormal areas of the item under the current lighting conditions are identified, and the lighting conditions of the item are adjusted accordingly, including:
[0051] A panoramic scan of the items inside the display case is performed to obtain a real-time panoramic image of the item; the real-time panoramic image is analyzed to determine the visual color distribution information of the item under the current lighting conditions of the display case.
[0052] The visual color distribution information of the appearance is compared with the actual color distribution information of the object to determine the visual color distortion area of the object under the illumination of the light. Based on the color distortion difference value of the visual color distortion area and its position on the surface of the object, the color temperature and direction of the light illumination on the object are adjusted.
[0053] The beneficial effects of the above embodiments are that when items are displayed inside a display case, they are illuminated by corresponding lights. These lights can cause visual color differences, meaning that the color of the item as seen by the naked eye under the lighting is not the same as its true color. If the color temperature of the lighting is severely mismatched with the item's appearance, it can lead to significant visual color distortion. By performing a panoramic scan of the items inside the display case to obtain a real-time panoramic image, and then performing visual color recognition analysis on this image, the visual color distribution information of the item under the current lighting conditions of the display case can be obtained. This allows for accurate identification of the visual color changes of the item under the current lighting conditions. Furthermore, this visual color distribution information is compared with the actual color distribution information of the item to determine the visual color distortion area under the current lighting conditions. Specifically, by comparing the visual color distribution information with the actual color distribution information of the item, the color difference value of the corresponding area on the item's surface is determined. If the color difference value is greater than a preset difference threshold, the corresponding area is identified as a visual color distortion area. Based on the color distortion difference value of the visual color distortion area and its position on the surface of the item, the color temperature and direction of the light illumination on the item are adjusted. This can accurately adjust the light illumination state on the item and reduce the display color difference of the item.
[0054] In another embodiment, the surrounding environment of the display case is detected to obtain surrounding environment information; based on the surrounding environment information, it is determined whether the item is in an abnormal display environment state; if the item is in an abnormal display environment state, the environmental parameters inside the display case are adjusted, including:
[0055] The surrounding environment of the display case is monitored to obtain information on changes in carbon dioxide concentration. Based on this information, it is determined whether the average carbon dioxide concentration of the surrounding environment is greater than a preset concentration threshold and whether the carbon dioxide concentration of the surrounding environment is increasing. If yes, the item is determined to be in an abnormal display environment. If no, the item is determined not to be in an abnormal display environment.
[0056] When the item is in an abnormal display environment, the air circulation and renewal flow rate inside the display case will be increased.
[0057] The beneficial effects of the above embodiments are that carbon dioxide in the atmosphere can have a corrosive effect on items. When a large number of people gather around the display case, the concentration of carbon dioxide in the surrounding environment increases. By monitoring the environment around the display case and obtaining information on changes in the carbon dioxide concentration, it is possible to determine whether carbon dioxide has accumulated excessively around the display case, and thus whether the item is in an abnormal display environment. If the item is in an abnormal display environment, the air circulation and renewal flow rate inside the display case is increased, that is, the flow rate of fresh air supplied to the display case is increased, thereby reducing the carbon dioxide concentration inside the display case and avoiding adverse effects on the item.
[0058] In another embodiment, the dynamic information of personnel in the surrounding environment of the display case is obtained, and the dynamic information is analyzed to determine whether a display safety incident has occurred with the item; if a display safety incident occurs with the item, the storage status of the item in the display case is adjusted, including:
[0059] The surrounding environment of the display case is scanned by radar to obtain information on the movement status of people in the surrounding environment. The average movement speed and population density of people in the surrounding environment are extracted from the information on the movement status of people. If the average movement speed of people is less than a preset speed threshold and the population density of people is greater than a preset density threshold, it is determined that a display safety accident has occurred for the item. Otherwise, it is determined that no display safety accident has occurred for the item.
[0060] If a display safety incident occurs involving the item, the item will be moved and stored in the sealed space at the bottom of the display case.
[0061] The beneficial effects of the above embodiments are that radar scanning is performed on the surrounding environment of the display case to obtain information on the movement status of people in the surrounding environment. The average movement speed and population density of people in the surrounding environment are extracted from this information to determine whether there is excessive crowding around the display case, thereby determining whether a display safety incident has occurred. Furthermore, if a display safety incident occurs, the item can be moved and stored in the sealed space at the bottom of the display case to prevent damage.
[0062] Please see Figure 2 As shown in the figure, an embodiment of this application provides a multi-layered control system for interactive item display. This multi-layered control system for interactive item display includes:
[0063] The image acquisition and analysis module is used to acquire real-time images of the items in the display case, analyze the real-time images, and determine the appearance and visual status information of the items under the current lighting conditions in the display case.
[0064] The lighting state adjustment module is used to determine the visually abnormal areas of the item under the lighting state based on the appearance visual state information, and thereby adjust the lighting state of the item.
[0065] The environmental information detection and analysis module is used to detect the surrounding environment of the display case and obtain surrounding environmental information; based on the surrounding environmental information, it determines whether the item is in an abnormal display environment state.
[0066] The environmental parameter adjustment module is used to adjust the environmental parameters inside the display case when the item is in an abnormal display environment.
[0067] The personnel dynamic detection and analysis module is used to acquire personnel dynamic information in the surrounding environment of the display case, analyze the personnel dynamic information, and determine whether a display safety accident has occurred for the item.
[0068] The item storage status adjustment module is used to adjust the storage status of the item in the display case when a display safety incident occurs.
[0069] The beneficial effects of the above embodiments are that the interactive multi-layer control system for item display collects and analyzes real-time images of items in the display case, determines the visual appearance information of the items under the current lighting conditions, thereby identifying visually abnormal areas of the items under the lighting conditions and adjusting the lighting conditions of the items to avoid color differences in the display; it also detects and analyzes the surrounding environmental information of the display case to determine whether the items are in an abnormal display environment, thereby adjusting the environmental parameters inside the display case to avoid exposing the items to an atmospheric environment unfavorable to their storage, improving the storage durability of the items in the display case; and it acquires and analyzes the dynamic information of personnel in the surrounding environment of the display case to adjust the storage state of the items in the display case, ensuring the safety of the displayed items.
[0070] In another embodiment, the image acquisition and analysis module is used to acquire real-time images of the item in the display case, analyze the real-time images, and determine the appearance visual state information of the item under the current lighting conditions of the display case, including:
[0071] A panoramic scan of the items inside the display case is performed to obtain a real-time panoramic image of the item; the real-time panoramic image is analyzed to determine the visual color distribution information of the item under the current lighting conditions of the display case.
[0072] The lighting state adjustment module is used to determine the visually abnormal areas of the object under the given lighting state based on the appearance visual state information, and thereby adjust the lighting state of the object, including:
[0073] The visual color distribution information of the appearance is compared with the actual color distribution information of the object to determine the visual color distortion area of the object under the illumination of the light. Based on the color distortion difference value of the visual color distortion area and its position on the surface of the object, the color temperature and direction of the light illumination on the object are adjusted.
[0074] The beneficial effects of the above embodiments are that when items are displayed inside a display case, they are illuminated by corresponding lights. These lights can cause visual color differences, meaning that the color of the item as seen by the naked eye under the lighting is not the same as its true color. If the color temperature of the lighting is severely mismatched with the item's appearance, it can lead to significant visual color distortion. By performing a panoramic scan of the items inside the display case to obtain a real-time panoramic image, and then performing visual color recognition analysis on this image, the visual color distribution information of the item under the current lighting conditions of the display case can be obtained. This allows for accurate identification of the visual color changes of the item under the current lighting conditions. Furthermore, this visual color distribution information is compared with the actual color distribution information of the item to determine the visual color distortion area under the current lighting conditions. Specifically, by comparing the visual color distribution information with the actual color distribution information of the item, the color difference value of the corresponding area on the item's surface is determined. If the color difference value is greater than a preset difference threshold, the corresponding area is identified as a visual color distortion area. Based on the color distortion difference value of the visual color distortion area and its position on the surface of the item, the color temperature and direction of the light illumination on the item are adjusted. This can accurately adjust the light illumination state on the item and reduce the display color difference of the item.
[0075] In another embodiment, the environmental information detection and analysis module is used to detect the surrounding environment of the display case and obtain surrounding environmental information; based on the surrounding environmental information, it determines whether the item is in an abnormal display environment state, including:
[0076] The surrounding environment of the display case is monitored to obtain information on changes in carbon dioxide concentration. Based on this information, it is determined whether the average carbon dioxide concentration of the surrounding environment is greater than a preset concentration threshold and whether the carbon dioxide concentration of the surrounding environment is increasing. If yes, the item is determined to be in an abnormal display environment. If no, the item is determined not to be in an abnormal display environment.
[0077] The environmental parameter adjustment module is used to adjust the environmental parameters inside the display case when the item is in an abnormal display environment, including:
[0078] When the item is in an abnormal display environment, the air circulation and renewal flow rate inside the display case will be increased.
[0079] The beneficial effects of the above embodiments are that carbon dioxide in the atmosphere can have a corrosive effect on items. When a large number of people gather around the display case, the concentration of carbon dioxide in the surrounding environment increases. By monitoring the environment around the display case and obtaining information on changes in the carbon dioxide concentration, it is possible to determine whether carbon dioxide has accumulated excessively around the display case, and thus whether the item is in an abnormal display environment. If the item is in an abnormal display environment, the air circulation and renewal flow rate inside the display case is increased, that is, the flow rate of fresh air supplied to the display case is increased, thereby reducing the carbon dioxide concentration inside the display case and avoiding adverse effects on the item.
[0080] In another embodiment, the personnel dynamic detection and analysis module is used to acquire personnel dynamic information of the surrounding environment of the display case, analyze the personnel dynamic information, and determine whether a display safety accident has occurred for the item, including:
[0081] The surrounding environment of the display case is scanned by radar to obtain information on the movement status of people in the surrounding environment. The average movement speed and population density of people in the surrounding environment are extracted from the information on the movement status of people. If the average movement speed of people is less than a preset speed threshold and the population density of people is greater than a preset density threshold, it is determined that a display safety accident has occurred for the item. Otherwise, it is determined that no display safety accident has occurred for the item.
[0082] This item storage status adjustment module is used to adjust the storage status of the item in the display case in the event of a display safety incident, including:
[0083] If a display safety incident occurs involving the item, the item will be moved and stored in the sealed space at the bottom of the display case.
[0084] The beneficial effects of the above embodiments are that radar scanning is performed on the surrounding environment of the display case to obtain information on the movement status of people in the surrounding environment. The average movement speed and population density of people in the surrounding environment are extracted from this information to determine whether there is excessive crowding around the display case, thereby determining whether a display safety incident has occurred. Furthermore, if a display safety incident occurs, the item can be moved and stored in the sealed space at the bottom of the display case to prevent damage.
[0085] Overall, this interactive, multi-layered control method and system for item display collects and analyzes real-time images of items in the display case to determine the visual appearance of the items under the current lighting conditions. This identifies areas of visual abnormality and adjusts the lighting to prevent color discrepancies. It also detects and analyzes the surrounding environment to determine if items are in abnormal display conditions, adjusting internal environmental parameters to prevent exposure to unfavorable atmospheric conditions and improve storage durability. Finally, it acquires and analyzes information on personnel movement around the display case to adjust the storage status of items and ensure display safety.
[0086] The above is only one specific embodiment of the present invention, and any improvements made based on the concept of the present invention shall be considered within the scope of protection of the present invention.
Claims
1. A multi-layered control method for item display based on interactive methods, characterized in that, include: Real-time images of the items in the display case are collected and analyzed to determine the visual appearance information of the items under the current lighting conditions of the display case. Based on the visual appearance information, visually abnormal areas of the items under the lighting conditions are identified, and the lighting conditions of the items are adjusted accordingly. The surrounding environment of the display case is detected to obtain surrounding environment information; based on the surrounding environment information, it is determined whether the item is in an abnormal display environment state; if the item is in an abnormal display environment state, the environmental parameters inside the display case are adjusted. Obtain the dynamic information of personnel in the surrounding environment of the display case, analyze the dynamic information of personnel, and determine whether a display safety accident has occurred for the item. If a display safety incident occurs involving the item, the storage status of the item in the display case will be adjusted, including: The surrounding environment of the display case is scanned by radar to obtain the movement status information of people in the surrounding environment, and the average movement speed and the distribution density of people in the surrounding environment are extracted from the movement status information. If the average movement speed of people is less than a preset speed threshold and the distribution density of people is greater than a preset density threshold, it is determined that a display safety accident has occurred on the item; otherwise, it is determined that no display safety accident has occurred on the item. If a display safety incident occurs involving the item, the item will be moved to a sealed space in the lower layer of the display case.
2. The multi-layered control method for item display based on interactive methods as described in claim 1, characterized in that: Real-time images of an item in a display case are collected and analyzed to determine the item's visual appearance under the current lighting conditions of the display case. Based on this visual appearance information, visually abnormal areas of the item under the lighting conditions are identified, and the lighting conditions for the item are adjusted accordingly. This includes: A panoramic scan of the items inside the display case is performed to obtain a real-time panoramic image of the items; the real-time panoramic image is analyzed to determine the visual color distribution information of the items under the current lighting conditions of the display case. The visual color distribution information of the appearance is compared with the actual color distribution information of the appearance of the item to determine the visual color distortion area of the item under the illumination of the light; based on the color distortion difference value of the visual color distortion area and its position on the surface of the item, the color temperature and direction of the light illumination on the item are adjusted.
3. The multi-layered control method for item display based on interactive methods as described in claim 1, characterized in that: The surrounding environment of the display case is detected to obtain surrounding environment information; based on the surrounding environment information, it is determined whether the item is in an abnormal display environment state; if the item is in an abnormal display environment state, the environmental parameters inside the display case are adjusted, including: The surrounding environment of the display case is detected to obtain information on changes in carbon dioxide concentration. Based on the information on changes in carbon dioxide concentration, it is determined whether the average carbon dioxide concentration value of the surrounding environment of the display case is greater than a preset concentration threshold and whether the carbon dioxide concentration of the surrounding environment is increasing. If yes, it is determined that the item is in an abnormal display environment state; if no, it is determined that the item is not in an abnormal display environment state. When the item is in an abnormal display environment, the air circulation and renewal flow rate inside the display case is increased.
4. A multi-layered control system for interactive item display, characterized in that: include: The image acquisition and analysis module is used to acquire real-time images of the items in the display case, analyze the real-time images, and determine the appearance visual state information of the items under the current lighting conditions of the display case. The lighting state adjustment module is used to determine the visually abnormal area of the item under the lighting state based on the appearance visual state information, and thereby adjust the lighting state of the item. The environmental information detection and analysis module is used to detect the surrounding environment of the display case and obtain surrounding environmental information; based on the surrounding environmental information, it determines whether the item is in an abnormal display environment state. An environmental parameter adjustment module is used to adjust the environmental parameters inside the display case when the item is in an abnormal display environment. The personnel dynamic detection and analysis module is used to acquire personnel dynamic information in the surrounding environment of the display case, analyze the personnel dynamic information, and determine whether a display safety accident has occurred on the item. The item storage status adjustment module is used to adjust the storage status of the item in the display case when a display safety accident occurs. The personnel dynamic detection and analysis module is used to acquire personnel dynamic information of the surrounding environment of the display case, analyze the personnel dynamic information, and determine whether a display safety accident has occurred on the item, including: The surrounding environment of the display case is scanned by radar to obtain the movement status information of people in the surrounding environment, and the average movement speed and the distribution density of people in the surrounding environment are extracted from the movement status information. If the average movement speed of people is less than a preset speed threshold and the distribution density of people is greater than a preset density threshold, it is determined that a display safety accident has occurred on the item; otherwise, it is determined that no display safety accident has occurred on the item. The item storage status adjustment module is used to adjust the storage status of the item in the display case when a display safety incident occurs, including: If a display safety incident occurs involving the item, the item will be moved to a sealed space in the lower layer of the display case.
5. The multi-layered control system for interactive item display as described in claim 4, characterized in that: The image acquisition and analysis module is used to acquire real-time images of the items in the display case, analyze the real-time images, and determine the visual appearance information of the items under the current lighting conditions of the display case, including: A panoramic scan of the items inside the display case is performed to obtain a real-time panoramic image of the items; the real-time panoramic image is analyzed to determine the visual color distribution information of the items under the current lighting conditions of the display case. The lighting state adjustment module is used to determine, based on the appearance visual state information, visually abnormal areas of the item under the lighting state, and thereby adjust the lighting state of the item, including: The visual color distribution information of the appearance is compared with the actual color distribution information of the appearance of the item to determine the visual color distortion area of the item under the illumination of the light; based on the color distortion difference value of the visual color distortion area and its position on the surface of the item, the color temperature and direction of the light illumination on the item are adjusted.
6. The multi-layered control system for interactive item display as described in claim 4, characterized in that: The environmental information detection and analysis module is used to detect the surrounding environment of the display case and obtain surrounding environmental information; based on the surrounding environmental information, it determines whether the item is in an abnormal display environment state, including: The surrounding environment of the display case is detected to obtain information on changes in carbon dioxide concentration. Based on the information on changes in carbon dioxide concentration, it is determined whether the average carbon dioxide concentration value of the surrounding environment of the display case is greater than a preset concentration threshold and whether the carbon dioxide concentration of the surrounding environment is increasing. If yes, it is determined that the item is in an abnormal display environment state; if no, it is determined that the item is not in an abnormal display environment state. The environmental parameter adjustment module is used to adjust the environmental parameters inside the display case when the item is in an abnormal display environment, including: When the item is in an abnormal display environment, the air circulation and renewal flow rate inside the display case is increased.