CN115718445A - Intelligent Internet of things management system suitable for museum - Google Patents

Abstract

The application discloses intelligence thing networking management system suitable for museum includes: the system comprises an intelligent safety and elimination subsystem, an intelligent monitoring subsystem, an intelligent exhibition subsystem, an intelligent central control subsystem and a data central platform subsystem; wherein, intelligence ann disappears and divides the system to include: the showcase safety subsystem is used for realizing and controlling the safety protection of each showcase; the showcase safety subsystem comprises a plurality of showcase alarms with wireless communication functions; wherein, intelligent monitoring subsystem includes: the equipment monitoring subsystem is used for realizing a monitoring function of hardware equipment; the equipment monitoring subsystem comprises a plurality of equipment trackers for monitoring the showcase alarm. The beneficial effect of this application lies in providing one kind and carries out intelligent thing networking management system suitable for museum that overall management was managed with functions such as security, fire control, exhibition of museum through the thing networking.

Description

Intelligent Internet of things management system suitable for museum

Technical Field

The application relates to an Internet of things management system, in particular to an intelligent Internet of things management system suitable for a museum.

Background

Safety, fire control, air conditioner and the monitored control system that have museum now are independent, and every solitary system all needs the single control equipment to manage like this to whole system can not effectively carry out overall planning and cooperation, leads to wholly to have the difficult, the low and extravagant problem of energy consumption of equipment interconnection.

Disclosure of Invention

This summary is provided to introduce a selection of concepts in a simplified form that are further described below in the detailed description. This summary is not intended to identify key features or essential features of the claimed subject matter, nor is it intended to be used to limit the scope of the claimed subject matter.

Some embodiments of the present application provide an intelligent internet of things management system suitable for museums to solve the technical problems mentioned in the background section above.

Some embodiments of the present application provide an intelligent internet of things management system suitable for museums, including: the intelligent safety and fire-fighting subsystem is used for realizing and controlling the safety and fire-fighting functions of the intelligent Internet of things management system suitable for the museum; the intelligent monitoring subsystem is used for realizing and controlling the monitoring function of the intelligent Internet of things management system suitable for the museum; the intelligent exhibition subsystem is used for realizing and controlling the exhibition function of the intelligent Internet of things management system suitable for the museum; the intelligent central control subsystem is used for realizing the master control function of the intelligent Internet of things management system suitable for the museum; the system comprises a data center subsystem, a data center subsystem and a management subsystem, wherein the data center subsystem is used for realizing and controlling a data center management function of an intelligent Internet of things management system suitable for a museum; the intelligent safety and elimination subsystem, the intelligent monitoring subsystem and the intelligent exhibition subsystem are in communication connection with the intelligent central control subsystem through the Internet of things respectively; the intelligent safety and elimination subsystem, the intelligent monitoring subsystem, the intelligent exhibition subsystem and the intelligent central control subsystem are respectively in data connection with the data center subsystem; wherein, intelligence ann disappears and divides the system to include: the showcase safety subsystem is used for realizing and controlling the safety protection of each showcase in the intelligent Internet of things management system applicable to the museum; the display cabinet safety subsystem comprises a plurality of display cabinet alarms with wireless communication functions; wherein, intelligent monitoring subsystem includes: the equipment monitoring subsystem is used for realizing the monitoring function of each hardware equipment in the intelligent Internet of things management system suitable for the museum; the equipment monitoring subsystem comprises a plurality of equipment trackers for monitoring the showcase alarm; wherein, accuse subsystem includes in the intelligence: the monitoring management subsystem is at least used for controlling or managing the equipment monitoring subsystem; the monitoring management subsystem comprises a display cabinet monitoring module which enables a user to control or manage the display cabinet alarm according to the data fed back by the equipment tracker.

Further, wherein, intelligence ann disappears and divides system still includes: the intelligent access control subsystem is used for realizing and controlling the access control function of the intelligent Internet of things management system suitable for the museum; the intelligent fire-fighting subsystem is used for realizing and controlling the fire-fighting function of the intelligent Internet of things management system suitable for the museum; the door and window safety subsystem is used for realizing and controlling the door and window safety function of the intelligent Internet of things management system suitable for the museum; and the electrical safety subsystem is used for realizing and controlling the electrical safety function of the intelligent Internet of things management system applicable to the museum.

Further, wherein, intelligent monitoring subsystem still includes: the museum monitoring subsystem is used for monitoring the museum environment by the intelligent Internet of things management system suitable for the museum; the vehicle monitoring subsystem is used for monitoring vehicles in a garage or a parking lot by the intelligent Internet of things management system suitable for the museum; the exhibit monitoring subsystem is used for monitoring exhibits in the museum by the intelligent Internet of things management system suitable for the museum; and the personnel monitoring subsystem is used for monitoring personnel inside and outside the museum by the intelligent Internet of things management system suitable for the museum.

Further, wherein, the intelligent exhibition subsystem includes: the environment adjusting subsystem is used for realizing the adjusting function of the intelligent Internet of things management system suitable for the museum on the temperature, the humidity and the atmosphere environment of the whole or the designated space of the museum; the light adjusting subsystem is used for realizing the function of adjusting the light effect in the museum by the intelligent Internet of things management system suitable for the museum; the showcase adjusting subsystem is used for realizing the adjusting function of the intelligent Internet of things management system suitable for the museum on the showcase state in the museum; the people flow adjusting subsystem is used for realizing the adjusting function of the intelligent Internet of things management system suitable for the museum on the people flow inside and outside the museum; and the mode adjusting subsystem is used for realizing the adjusting function of the intelligent Internet of things management system suitable for the museum on the exhibition mode integrally presented by the museum.

Furthermore, the showcase adjusting subsystem comprises a plurality of showcase anti-theft devices which can enable the showcase to be in an exhibition state and a locking state; the showcase monitoring module controls the showcase anti-theft device according to data fed back by the showcase alarm or/and the equipment tracker.

Further, wherein, accuse subsystem still includes in the intelligence: the equipment management subsystem is used for realizing the master control function of the intelligent Internet of things management system suitable for the museum on the hardware equipment of the museum; the power consumption management subsystem is used for realizing the master control function of the intelligent Internet of things management system suitable for the museum on the power consumption of the museum; the people flow management subsystem is used for realizing the functions of counting and predicting the people flow of the museum by the intelligent Internet of things management system suitable for the museum; and the venue management subsystem is used for realizing the functions of counting and setting the environmental parameters of the museum by the intelligent Internet of things management system suitable for the museum.

Further, the station subsystem in the data includes: the equipment data subsystem is used for storing or/and processing relevant data about equipment operation in an intelligent Internet of things management system applicable to a museum; the people flow data subsystem is used for storing or/and processing related data about people flow in the intelligent Internet of things management system applicable to the museum; the energy consumption data subsystem is used for storing or/and processing related data about equipment energy consumption in the intelligent Internet of things management system applicable to the museum; and the environment data subsystem is used for storing or/and processing related data about the museum environment in the intelligent Internet of things management system suitable for the museum.

Further, the data center subsystem further comprises: the system comprises a data processing subsystem, a data processing subsystem and a data processing subsystem, wherein the data processing subsystem is used for storing or/and operating a program and a machine learning model which are used for processing data and applied to an intelligent Internet of things management system of a museum; the data processing subsystem can call data from the equipment data subsystem, the people flow data subsystem, the energy consumption data subsystem or/and the environment data subsystem according to the instruction of the intelligent central control subsystem and perform data processing.

Further, the data processing subsystem includes: the energy-saving strategy module is used for generating energy-saving strategy data which are sent to the power consumption management subsystem according to the data of the equipment data subsystem, the people flow data subsystem, the energy consumption data subsystem or/and the environment data subsystem; and the power utilization management subsystem sends a power utilization instruction to a controller of the power utilization equipment of the intelligent Internet of things management system suitable for the museum according to the energy-saving strategy data.

Further, the data processing subsystem includes: the risk early warning module is used for generating risk early warning data which are sent to the intelligent central control subsystem according to the data of the equipment data subsystem, the people flow data subsystem, the energy consumption data subsystem or/and the environment data subsystem; and the intelligent midsplit system sends early warning information to a user terminal of the intelligent Internet of things management system suitable for the museum according to the risk early warning data.

The beneficial effect of this application lies in: the intelligent Internet of things management system suitable for the museum is provided, and the functions of safety, fire protection, exhibition and the like of the museum are comprehensively managed through the Internet of things.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this application, serve to provide a further understanding of the application and to enable other features, objects, and advantages of the application to be more apparent. The drawings and their description illustrate the embodiments of the invention and do not limit it.

Further, throughout the drawings, the same or similar reference numerals denote the same or similar elements. It should be understood that the drawings are schematic and that elements and elements are not necessarily drawn to scale.

In the drawings:

fig. 1 is a schematic diagram of a system architecture of an intelligent internet of things management system suitable for a museum according to an embodiment of the present application;

fig. 2 is a schematic diagram of a hardware architecture of an intelligent internet of things management system suitable for a museum according to an embodiment of the present application;

FIG. 3 is a schematic illustration of an operator interface of an intelligent central control subsystem according to an embodiment of the present application;

FIG. 4 is a schematic view of another operator interface of an intelligent central control subsystem according to one embodiment of the present application;

FIG. 5 is a schematic illustration of an operator interface of a data center subsystem according to an embodiment of the present application;

FIG. 6 is a schematic illustration of another operator interface of a data subsystem according to an embodiment of the present application;

FIG. 7 is a schematic diagram of a system architecture of an intelligent fire protection subsystem according to an embodiment of the present application;

FIG. 8 is a schematic view of an operator interface of a light adjustment subsystem on a mobile terminal according to an embodiment of the present application;

FIG. 9 is a schematic diagram of an application scenario of a light adjustment subsystem according to an embodiment of the present application;

FIG. 10 is a schematic diagram of another application scenario of a light adjustment subsystem according to an embodiment of the present application;

FIG. 11 is a schematic diagram of yet another application scenario of a light adjustment subsystem according to an embodiment of the present application;

FIG. 12 is a schematic view of yet another application scenario of a light adjustment subsystem according to an embodiment of the present application;

FIG. 13 is a schematic diagram of the hardware combinations involved in a light adjustment subsystem according to one embodiment of the present application;

FIG. 14 is a schematic diagram of a system architecture of an environmental conditioning subsystem according to one embodiment of the present application;

FIG. 15 is a schematic diagram of the combination of hardware involved in a climate conditioning subsystem according to an embodiment of the present application;

FIG. 16 is a schematic illustration of an operator interface of the venue management subsystem, according to an embodiment of the present application;

FIG. 17 is a schematic illustration of an operator interface of the power management subsystem according to an embodiment of the present application;

FIG. 18 is a schematic view of an operator interface of a people flow management subsystem according to one embodiment of the present application.

Detailed Description

Embodiments of the present disclosure will be described in more detail below with reference to the accompanying drawings. While certain embodiments of the present disclosure are shown in the drawings, it is to be understood that the disclosure may be embodied in various forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete. It should be understood that the drawings and the embodiments of the disclosure are for illustration purposes only and are not intended to limit the scope of the disclosure.

It should be noted that, for convenience of description, only the portions related to the related invention are shown in the drawings. The embodiments and features of the embodiments in the present disclosure may be combined with each other without conflict.

It should be noted that the terms "first", "second", and the like in the present disclosure are only used for distinguishing different devices, modules or units, and are not used for limiting the order or interdependence relationship of the functions performed by the devices, modules or units.

It is noted that references to "a" or "an" in this disclosure are intended to be illustrative rather than limiting, and that those skilled in the art will appreciate that references to "one or more" are intended to be exemplary and not limiting unless the context clearly indicates otherwise.

The names of messages or information exchanged between devices in the embodiments of the present disclosure are for illustrative purposes only, and are not intended to limit the scope of the messages or information.

The present disclosure will be described in detail below with reference to the accompanying drawings in conjunction with embodiments.

Referring to fig. 1, an intelligent internet of things management system suitable for a museum according to an embodiment of the present application includes the following subsystems: the system comprises an intelligent safety and elimination subsystem, an intelligent monitoring subsystem, an intelligent central control subsystem, a data central platform subsystem and an intelligent exhibition subsystem. The intelligent safety and disinfection subsystem, the intelligent monitoring subsystem and the intelligent exhibition subsystem are in communication connection with the intelligent central control subsystem through the Internet of things respectively; the intelligent safety and elimination subsystem, the intelligent monitoring subsystem, the intelligent exhibition subsystem and the intelligent central control subsystem are in data connection with the data center subsystem respectively.

It should be noted that the internet of things used herein is a technical means well known in the art, and is not described herein again.

Referring to fig. 2, a hardware architecture of an intelligent internet of things management system suitable for a museum according to an embodiment of the present application includes three levels: control terminal, in-building equipment and control terminal. The control terminal is used for a user to implement control, input and other operations, generally, the control terminal may be configured as a device with a processor and a human-computer interaction interface, and specifically, the implementation device of the control terminal may include: handheld devices, office equipment and mobile office terminals. The handheld device can be configured as a mobile phone or a handheld PDA, among others. The office equipment may be configured as PC computer equipment, a dedicated machine, or the like. The mobile office terminal may be constructed as a tablet or the like.

The in-museum devices comprise hardware devices arranged at a museum venue, and the hardware devices are mainly used for realizing functions required by the intellectualization of the museum and front-end control of the functions. Specifically, the in-building equipment comprises a central control host, the central control host is mainly used for achieving front-end control, and particularly for instruction issuing and information collecting of the in-building equipment, the central control computer can form data interaction with a cloud server or/and a control terminal through a wired or wireless communication function. More specifically, the devices in the shop include the following devices in terms of control effect: the system comprises a startup and shutdown device, a mode adjusting device, a light AV control device and the like, wherein the startup and shutdown device is mainly used for judging whether certain devices run or not, the mode adjusting device is used for adjusting the running state of the devices, such as the running mode of an air conditioner, and the light AV control device is used for adjusting the light in a venue (namely a museum, the same below) and the like. The cloud server is mainly used for storing data and processing the data so as to assist control or actively initiate control.

Each subsystem of the present application may adopt a hardware architecture similar to that of fig. 2, and of course, as an alternative, different subsystems may also share the in-house device, the cloud server, and the control terminal.

The intelligent safety and fire-fighting management system comprises an intelligent safety and fire-fighting subsystem and a management server, wherein the intelligent safety and fire-fighting subsystem is used for realizing and controlling the safety and fire-fighting functions of the intelligent Internet of things management system suitable for museums.

Specifically, the intelligent security and fire fighting subsystem comprises an intelligent fire fighting subsystem. This intelligence fire control subsystem includes a plurality of fire control realization equipment that are used for realizing fire control functions such as fire control detection and putting out a fire, simultaneously, thereby intelligence ann disappears branch system still including being used for through modes such as drive or control acting on these fire control realization equipment control fire control function's fire control controlgear.

As shown in fig. 7, the intelligent security subsystem includes: the fire hydrant, the fire pump, the check valve, the fire water tank and the one-way valve hardware; these hardware are used to perform the fire fighting function itself, i.e. directly to extinguish a fire, so these devices are fire fighting implementing devices.

As also shown in fig. 7, the intelligent security subsystem further comprises: the system comprises a wireless intelligent water level meter, a wireless intelligent water pressure meter, a water flow indicator, a wireless independent smoke fire detector, a manual alarm button, an acoustic-optic detector, a wireless temperature detector, a wet alarm valve and a power mutual inductor; these hardware are used to implement control of fire fighting implementing equipment and to collect fire fighting related detection and data collection, i.e. they control the implementation of fire fighting functions.

As shown in fig. 1, the intelligent security subsystem further includes: intelligent entrance guard subsystem. The intelligent access control subsystem is used for realizing and controlling the access control function of the intelligent Internet of things management system applicable to the museum. Specifically speaking, intelligent entrance guard's subsystem contains a plurality of entrance guard's floodgates machine, and these entrance guard's floodgates machine can be to the staff, also can be to museum's visitor, and these entrance guard's floodgates machine include biological collection module and entrance guard's device, and biological information such as people's face, iris, fingerprint can be gathered in order to discern customer identity to biological collection module, and simultaneously, entrance guard's floodgate machine can also include equipment such as card reader in order to read information such as ID card. The entrance guard's device is used for opening the floodgate and closes the floodgate to whether the control personnel can pass through entrance guard's floodgate machine. Meanwhile, the entrance guard gate machine also comprises a communication device, the entrance guard gate machine and the whole system can form data interconnection based on the Internet of things, and thus the entrance guard gate machine can be controlled by the whole system to realize functions such as people flow control and the like.

As shown in fig. 1, the intelligent security subsystem further includes: and a door and window safety subsystem. Specifically, the door and window safety subsystem includes a plurality of door and window magnetic sensors, and they can upload the condition that door and window opened and shut through the internet of things, such as WIFI or NB-IOT etc. network. Preferably, the door and window safety subsystem may further include auxiliary devices such as a vibration detector or a gyroscope, so that the door and window may send an alarm signal to the system server when being damaged or moved by an external force. The door and window safety subsystem is mainly used for ensuring the safety of doors and windows.

As shown in fig. 1, the intelligent security and revocation system further includes: and a showcase safety subsystem. Specifically, the showcase security subsystem may include a showcase magnetic sensor, a showcase vibration detector, a gyroscope, and the like, which are respectively used to detect changes such as opening, vibration, inclination, and movement of the showcase, and also communicate with the server through the internet of things to issue an alarm or prompt when the showcase is in an insecure state. Above-mentioned showcase magnetic sensor, showcase vibration detector, gyroscope and infrared sensor, sound wave sensor, temperature sensor, pressure sensor etc. can carry out the equipment location showcase alarm of reporting to the police to the safety protection of showcase, and they are preferred can carry out wireless communication with host computer or server to be convenient for lay of showcase.

These showcase alarms can intelligent monitoring establish explosion-proof, crashproof state, and the host computer passes through the status parameter of signal transceiver collection financial and insurance card to real-time processing. When the abnormal state is detected, the posture of the cultural relic is inclined, continuously vibrates, the position is found to change, the system is started to alarm, the sensitivity is adjustable, and the method is safe and reliable. As the preferred scheme, to important showpiece, set up and open showcase authorization system.

However, such a solution is generally only for ordinary visitors, and in order to improve the security level and prevent intentional damage or theft, as a preferred solution, as shown in fig. 1, the intelligent monitoring subsystem includes an equipment monitoring subsystem, and the equipment monitoring subsystem is used for implementing and controlling a monitoring function on each hardware device in the museum. The monitoring referred to in this application is a monitoring in a broad sense, that is, not only monitoring by video, but also monitoring by various signal acquisition and tracking.

As a further preferred solution, the device monitoring subsystem further comprises a number of device trackers, which may be configured as image acquisition means, such as a camera, which may acquire images to achieve a tracking result, such as an optical image, an infrared image or a millimeter wave image. The optical image is used for tracking equipment in an application scene with sufficient illumination, the intelligent monitoring subsystem or the system related to the intelligent monitoring subsystem tracks the equipment through the appearance of the equipment in the optical image and the surrounding reference relative position, but when the light is insufficient, such as closing a hall at night, the optical image cannot effectively track objects, and at the moment, the infrared camera is adopted to collect the infrared image, so that the tracking is carried out under the environment condition of low light. However, some devices, especially the magnetic sensor of the display cabinet used in the display cabinet, are small, and it is difficult to observe from the image, and even if a millimeter wave camera capable of penetrating the clothing cloth to a certain extent is adopted, the image judgment and tracking cannot be effectively performed on these small devices. The RFID positioning device adopts an RFID label to attach to important hardware equipment (such as a magnetic sensor of a display cabinet of an important exhibit), an RFID card reader is arranged at an important position around the hardware equipment, and when the hardware equipment moves to set a limit, the attached RFID label can be read by the RFID card reader, so that the system alarms.

By adopting the scheme, the monitoring safety of the equipment can be greatly improved, but for the personnel who know the safety setting, the mode of separating the UWB tag or the RFID tag from the hardware equipment easily appears, so that the alarm of the system is avoided, and the potential safety hazard is caused.

Therefore, as a preferred scheme, the device tracker further comprises millimeter wave cameras (or millimeter wave radars), the millimeter wave cameras collect millimeter wave images within certain visual angle ranges, corresponding digital codes or graphic codes are sprayed on the shells of the hardware devices through special coatings, and the reflectivity of the coating materials to the millimeter waves is far different from that of the shell materials, so that the positions of the hardware devices can be clearly observed in the images collected by the millimeter wave cameras without shielding. But not the final purpose, the equipment monitoring subsystem sends the millimeter wave images to the intelligent central control subsystem, so that the intelligent central control subsystem or the data central station subsystem analyzes the millimeter wave images, for example, if the millimeter wave images can clearly observe that the codes sprayed by the coatings have no problem naturally, if the codes are blocked by the obstacles, a danger determination step is triggered through the outlines of the obstacles and the blocking time, for example, if a human target is determined to exist in the obstacles, the harm degree of the action of the human target to hardware equipment is analyzed, and the harm degree classification of the action is output: harmless, high-risk and undetermined; when high risk occurs, the equipment monitoring subsystem can start millimeter wave cameras at other angles according to instructions of the intelligent central control subsystem so as to collect multiple millimeter wave images, then final judgment is given according to the harm degree classification results of actions of human targets in other millimeter wave images, and if the millimeter wave images are all high risk, monitoring alarm is initiatively sent to a manager. The degree of harm classification can be judged by training a convolutional neural network model by means of historical images. The convolutional neural network model can be stored in a data center subsystem, so that the model can acquire enough data volume to be trained by combining data of different venues, and meanwhile, a federal learning mode can be adopted, the data are stored in the local places of the venues, and only the trained model is shared, so that the requirements of the privacy and the safety protocol of the venues are met.

As the millimeter wave cameras consume more energy, problems in personal privacy and the like exist, as a preferred scheme, the equipment monitoring subsystem preferentially enables the optical cameras to collect optical images, if the optical images show that the time that a human body target blocks the hardware equipment exceeds the preset time, the millimeter wave cameras at another observation angle are started according to the positions of the optical cameras, if the optical images are still blocked and the coding marks of special coating spraying cannot be observed, the other millimeter wave cameras are switched, and if all the millimeter wave cameras capable of observing the hardware equipment cannot observe the coding marks, the human body target recognition and the harm degree classification work of the actions of the millimeter wave cameras are started.

As a better scheme, attachments such as a tag and the like which can follow up with the exhibit can be manufactured for the exhibit, and then special paint with millimeter wave reflectivity difference is sprayed, so that the equipment monitoring subsystem is directly used for monitoring the exhibit. Of course, considering the firmness degree of the attachment and the influence on the exhibit, the security coefficient is easier to improve by adopting the scheme of indirect monitoring.

It should be noted that the special paint with millimeter wave reflectivity difference is a technical means well known in the art, and is not described herein again.

Similarly, at night or when there is no light, the millimeter wave detection can be triggered by adopting an infrared camera and an infrared image, and the difference lies in that because the infrared camera is mostly used for closing a hall, the time threshold value for judging the shielding of the human body in the infrared image is small, and the feedback and the alarm are needed to be carried out quickly.

As a preferred scheme, the millimeter wave camera can adjust imaging precision, and can regularly adopt lower imaging precision to collect images when not being triggered, so that energy consumption can be reduced, and meanwhile, because analysis action is not needed, the adopted images obtained with low precision can also meet privacy requirements. Timed millimeter wave detection may be used as an aid to determine whether the device code and profile are still at the set location.

As shown in fig. 1, the intelligent security and revocation subsystem of the present application further includes: an electrical safety subsystem. The electrical safety subsystem is mainly used for realizing safety protection of electrical circuits, power equipment and the like. Such as safety in power distribution, protection against short circuits, overloads, and arcing. The electrical safety subsystem can comprise electrical safety protection equipment such as relays, current sensors, circuit breakers and the like.

As shown in fig. 1, the intelligent central control subsystem of the present application includes: the system comprises an equipment management subsystem, a power utilization management subsystem, a people flow management subsystem, a monitoring management subsystem and a venue management subsystem.

As shown in fig. 3 and 4, the intelligent central control subsystem is mainly used to implement a master control function, i.e. a manager of a museum can know and control the overall system condition of the museum. As an extension, as shown in FIGS. 5 and 6, some control and display functions of the data center station can also be combined with the intelligent center control subsystem for display.

In particular, the monitoring management subsystem is at least used to control or manage the device monitoring subsystem, which, as previously described, may enable device tracking and management. And the equipment management subsystem is used for realizing the master control function of the intelligent Internet of things management system suitable for the museum on the hardware equipment of the museum.

The power consumption management subsystem is used for achieving the master control function of the intelligent internet of things management system suitable for the museum on power consumption of the museum. As shown in fig. 17, the power consumption can be adjusted according to the flow of people and the theme of the exhibition, thereby achieving the purpose of comprehensive energy saving. And historical power usage data can be reviewed and analyzed to provide a more efficient power usage strategy.

The people flow management subsystem is used for realizing the functions of counting and predicting the people flow of the museum by the intelligent Internet of things management system suitable for the museum; as shown in fig. 18, statistics can be performed on the data of people flow, and functions such as current limiting can be performed through the access gate.

The venue management subsystem is used for realizing the functions of counting and setting the environmental parameters of the museum by the intelligent Internet of things management system suitable for the museum. As shown in fig. 8, corresponding environmental parameters including temperature and humidity, carbon dioxide, PM values, and the like may be obtained according to the mobile terminal. All spaces can be displayed and set according to the interface shown in 16.

As shown in fig. 1, fig. 5 and fig. 6, the intelligent monitoring subsystem further includes: the system comprises a venue monitoring subsystem, a vehicle monitoring subsystem, an exhibit monitoring subsystem and a personnel monitoring subsystem.

The museum monitoring subsystem is used for monitoring the museum environment by the intelligent Internet of things management system suitable for the museum.

The vehicle monitoring subsystem is used for monitoring vehicles in the garage or the parking lot by the intelligent Internet of things management system suitable for the museum;

the exhibit monitoring subsystem is used for monitoring exhibits in the museum by an intelligent Internet of things management system suitable for the museum;

the personnel monitoring subsystem is used for monitoring personnel inside and outside the museum by the intelligent Internet of things management system suitable for the museum.

Of course, they may use the same hardware equipment, but are separately counted and monitored according to objects when the intelligent monitoring subsystem performs analysis and detection.

As shown in fig. 1, the intelligent exhibition subsystem includes: the system comprises an environment adjusting subsystem, a light adjusting subsystem, a showcase adjusting subsystem, a people flow adjusting subsystem and a mode adjusting subsystem.

The environment adjusting subsystem is used for achieving the function of adjusting the temperature, the humidity and the atmosphere environment of the whole or the designated space of the museum by the intelligent Internet of things management system suitable for the museum. As mentioned above, the venue management subsystem sets the ambient temperature, but the specific detection is realized by the venue monitoring subsystem, and the environment change is realized by the environment adjusting subsystem. Fig. 14 shows an architecture of an environmental conditioning subsystem, in which a cloud server (smart cloud) is connected to a central control gateway through a public cloud, and then the central control gateway is respectively in communication connection with an intelligent temperature controller, an air conditioner centralized control gateway and an air conditioner drive-by-wire gateway, and then respectively controls a central air conditioner, an air conditioner external unit and an air conditioner internal unit. FIG. 15 illustrates hardware that an environmental conditioning subsystem can contain: the intelligent gateway is used for communication, the illumination sensor is used for achieving adjustment according to illumination, the temperature and humidity sensor is mainly used for collecting data, the intelligent temperature controller is used for achieving front end control, the environment detector is mainly used for detecting environment parameters such as PM parameters and carbon dioxide concentration, the air conditioner centralized control gateway is mainly used for building a network framework, the human body existence sensor is mainly used for triggering program instructions, and the air conditioner panel is used for user operation and control. Of course, the mobile terminal may be used for control.

And the light adjustment subsystem is used for realizing the function of adjusting the light effect in the museum by the intelligent Internet of things management system suitable for the museum. As shown in fig. 8-12, the light adjustment subsystem can be used to implement remote switching of an entire fixture or a designated fixture, automatically triggering lighting based on a human body, setting lighting at regular times, and switching fixtures within a desired range according to human dynamics.

As shown in fig. 13, the light adjustment subsystem may include an intelligent gateway, a human presence sensor, a scene panel, an intelligent switch, an intelligent dimming driver, an intelligent air switch, an intelligent light fixture, an intelligent standby, an illumination sensor, an intelligent gateway, and the like.

The showcase adjusting subsystem is used for achieving the adjusting function of the intelligent Internet of things management system applicable to the museum to the showcase state in the museum. As a preferred scheme, the showcase adjusting subsystem comprises a plurality of showcase anti-theft devices which can enable the showcase to be in an exhibition state and a locking state; the showcase monitoring module controls the showcase anti-theft device according to data fed back by the showcase alarm or/and the equipment tracker. Namely, the showcase is protected when the alarm occurs. Of course, the showcase adjusting subsystem can also adjust the showcase to rotate or stand still, or to be lifted and lowered.

The people stream adjusting subsystem is used for achieving the function of adjusting people streams inside and outside the museum by the intelligent internet of things management system suitable for the museum. It can guide people flow through a gate or an electronic sign so as to reduce the excessive density of people in certain areas of the venue.

The mode adjusting subsystem is used for achieving the adjusting function of the intelligent internet of things management system suitable for the museum on the exhibition mode of the whole museum. The exhibition mode includes general exhibition, important exhibition and inside exhibition, wherein, general exhibition is directed against general showpiece and general masses, and important exhibition indicates that the showpiece value is higher, and has higher requirement to the exhibition environment, and inside exhibition indicates that the exhibitor is appointed personnel, can open the showcase and carry out the exhibition.

As shown in fig. 1, the data subsystem includes: the system comprises an equipment data subsystem, a people stream data subsystem, an energy consumption data subsystem and an environment data subsystem.

The device data subsystem is used for storing or/and processing relevant data related to device operation in the intelligent internet of things management system applicable to the museum.

The people flow data subsystem is used for storing or/and processing related data about people flow in the intelligent Internet of things management system applicable to the museum.

The energy consumption data subsystem is used for storing or/and processing related data about equipment energy consumption in the intelligent Internet of things management system applicable to the museum.

The environment data subsystem is used for storing or/and processing related data about the museum environment in the intelligent internet of things management system applicable to the museum.

Specifically, the data center subsystem further includes: a data processing subsystem.

The data processing subsystem is used for storing or/and operating a program and a machine learning model which are used for processing data and applied to an intelligent Internet of things management system of a museum; the data processing subsystem can call data from the equipment data subsystem, the people stream data subsystem, the energy consumption data subsystem or/and the environment data subsystem according to the instruction of the intelligent central control subsystem and perform data processing.

The data processing subsystem includes: and a risk early warning module. The risk early warning module is used for generating risk early warning data which are sent to the intelligent central control subsystem according to the data of the equipment data subsystem, the people stream data subsystem, the energy consumption data subsystem or/and the environment data subsystem; and the intelligent midsplit system sends early warning information to a user terminal of the intelligent Internet of things management system suitable for the museum according to the risk early warning data.

The data center subsystem is mainly used for assisting an administrator, so that various data angles analyze the current operation condition of the venue, and more intelligent operation strategies are provided.

The foregoing description is only exemplary of the preferred embodiments of the disclosure and is illustrative of the principles of the technology employed. It will be appreciated by those skilled in the art that the scope of the invention in the embodiments of the present disclosure is not limited to the specific combinations of the above-mentioned features, and other embodiments in which the above-mentioned features or their equivalents are combined arbitrarily without departing from the spirit of the invention are also encompassed. For example, the above features and (but not limited to) technical features with similar functions disclosed in the embodiments of the present disclosure are mutually replaced to form the technical solution.

Claims (10)

1. An intelligent internet of things management system suitable for museums, comprising:

the intelligent safety and fire-fighting subsystem is used for realizing and controlling the safety and fire-fighting functions of the intelligent Internet of things management system suitable for the museum;

the intelligent monitoring subsystem is used for realizing and controlling the monitoring function of the intelligent Internet of things management system suitable for the museum;

the intelligent exhibition subsystem is used for realizing and controlling the exhibition function of the intelligent Internet of things management system suitable for the museum;

the intelligent central control subsystem is used for realizing the master control function of the intelligent Internet of things management system suitable for the museum;

the system comprises a data center subsystem and a data center subsystem, wherein the data center subsystem is used for realizing and controlling a data center management function of the intelligent Internet of things management system suitable for the museum;

the intelligent safety and disinfection subsystem, the intelligent monitoring subsystem and the intelligent exhibition subsystem are in communication connection with the intelligent central control subsystem through the Internet of things respectively; the intelligent safety and elimination subsystem, the intelligent monitoring subsystem, the intelligent exhibition subsystem and the intelligent central control subsystem are respectively in data connection with the data central platform subsystem;

wherein, intelligence ann disappears branch system includes:

the showcase safety subsystem is used for realizing and controlling the safety protection of each showcase in the intelligent Internet of things management system suitable for the museum;

the display cabinet safety subsystem comprises a plurality of display cabinet alarms with wireless communication functions;

wherein, the intelligent monitoring subsystem includes:

the equipment monitoring subsystem is used for realizing the monitoring function of each hardware equipment in the intelligent Internet of things management system suitable for the museum;

the equipment monitoring subsystem comprises a plurality of equipment trackers for monitoring the showcase alarm;

wherein, accuse subsystem includes in the intelligence:

the monitoring management subsystem is at least used for controlling or managing the equipment monitoring subsystem;

the monitoring management subsystem comprises a showcase monitoring module which enables a user to control or manage the showcase alarm according to the data fed back by the equipment tracker.

2. The intelligent internet of things management system suitable for museums according to claim 1, wherein:

wherein, intelligence ann disappears branch system still includes:

the intelligent access control subsystem is used for realizing and controlling the access control function of the intelligent Internet of things management system suitable for the museum;

the intelligent fire-fighting subsystem is used for realizing and controlling the fire-fighting function of the intelligent Internet of things management system suitable for the museum;

the door and window safety subsystem is used for realizing and controlling the door and window safety function of the intelligent Internet of things management system suitable for the museum;

and the electrical safety subsystem is used for realizing and controlling the electrical safety function of the intelligent Internet of things management system suitable for the museum.

3. The intelligent internet of things management system suitable for museums according to claim 1, wherein:

wherein, intelligent monitoring subsystem still includes:

the venue monitoring subsystem is used for monitoring the venue environment of the museum by the intelligent Internet of things management system suitable for the museum;

the vehicle monitoring subsystem is used for monitoring the vehicles in the garage or the parking lot by the intelligent Internet of things management system suitable for the museum;

the exhibit monitoring subsystem is used for monitoring exhibits in the museum by the intelligent Internet of things management system suitable for the museum;

and the personnel monitoring subsystem is used for monitoring personnel inside and outside the museum by the intelligent Internet of things management system suitable for the museum.

4. The intelligent internet of things management system suitable for museums according to claim 1, wherein:

wherein, the intelligent exhibition subsystem includes:

the environment adjusting subsystem is used for realizing the function of adjusting the temperature, humidity and atmosphere environment of the whole museum or a designated space by the intelligent Internet of things management system suitable for the museum;

the light adjusting subsystem is used for realizing the function of adjusting the light effect in the museum by the intelligent Internet of things management system suitable for the museum;

the showcase adjusting subsystem is used for realizing the adjusting function of the intelligent Internet of things management system suitable for the museum on the showcase state in the museum;

the people flow adjusting subsystem is used for realizing the adjusting function of the intelligent Internet of things management system suitable for the museum on people flow inside and outside the museum;

and the mode adjusting subsystem is used for realizing the adjusting function of the intelligent Internet of things management system suitable for the museum on the exhibition mode integrally presented by the museum.

5. The intelligent internet of things management system suitable for museums according to claim 4, wherein:

the showcase adjusting subsystem comprises a plurality of showcase anti-theft devices which can enable the showcase to be in an exhibition state and a locking state;

the showcase monitoring module controls the showcase anti-theft device according to data fed back by the showcase alarm or/and the equipment tracker.

6. The intelligent internet of things management system suitable for museums according to claim 1, wherein:

wherein, accuse subsystem still includes in the intelligence:

the device management subsystem is used for realizing the master control function of the intelligent Internet of things management system suitable for the museum on the hardware devices of the museum;

the power consumption management subsystem is used for realizing the master control function of the intelligent Internet of things management system suitable for the museum on the power consumption of the museum;

the people flow management subsystem is used for realizing the functions of counting and predicting the people flow of the museum by the intelligent Internet of things management system suitable for the museum;

and the venue management subsystem is used for realizing the functions of counting and setting the environmental parameters of the museum by the intelligent Internet of things management system suitable for the museum.

7. The intelligent internet of things management system suitable for museums according to claim 6, wherein:

the data center station subsystem comprises:

the equipment data subsystem is used for storing or/and processing relevant data related to equipment operation in the intelligent Internet of things management system suitable for the museum;

the people flow data subsystem is used for storing or/and processing the related data about people flow in the intelligent Internet of things management system suitable for the museum;

the energy consumption data subsystem is used for storing or/and processing related data about equipment energy consumption in the intelligent Internet of things management system suitable for the museum;

and the environment data subsystem is used for storing or/and processing the related data about the museum environment in the intelligent Internet of things management system suitable for the museum.

8. The intelligent internet of things management system suitable for museums according to claim 7, wherein:

the data center subsystem further comprises:

the data processing subsystem is used for storing or/and operating the program and the machine learning model for processing data in the intelligent Internet of things management system suitable for the museum;

the data processing subsystem can call data from the equipment data subsystem, the people flow data subsystem, the energy consumption data subsystem or/and the environment data subsystem according to the instruction of the intelligent central control subsystem and perform data processing.

9. The intelligent internet of things management system suitable for museums according to claim 8, wherein:

the data processing subsystem comprises:

the energy-saving strategy module is used for generating energy-saving strategy data which is sent to the power utilization management subsystem according to the data of the equipment data subsystem, the people stream data subsystem, the energy consumption data subsystem or/and the environment data subsystem;

and the power utilization management subsystem sends a power utilization instruction to the controller of the power utilization equipment of the intelligent Internet of things management system suitable for the museum according to the energy-saving strategy data.

10. The intelligent internet of things management system suitable for museums according to claim 9, wherein:

the data processing subsystem includes:

the risk early warning module is used for generating risk early warning data which is sent to the intelligent central control subsystem according to the data of the equipment data subsystem, the people flow data subsystem, the energy consumption data subsystem or/and the environment data subsystem;

and the intelligent midsplit system sends early warning information to the user terminal of the intelligent Internet of things management system suitable for the museum according to the risk early warning data.

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