CN111383375B - Power control method and power control system for hotel rooms and hotel management system - Google Patents

Abstract

The application discloses electric power control method and electric power control system of hotel guest room, hotel management system, wherein, electric power control method includes: the method comprises the steps of obtaining door state information of a guest room and obtaining a wireless access event of a mobile device associated with the guest room in a specified position range outside the guest room, wherein the mobile device is realized by submitting a two-dimensional code identifier to a guest room two-dimensional code controller and is associated with the guest room, the two-dimensional code identifier comprises electronic room card information and mobile device identification information, and then the door state information and the wireless access event of the mobile device are obtained according to the occupied state of the guest room, so that the power control strategy of the guest room is determined.

Description

Power control method and power control system for hotel rooms and hotel management system

Technical Field

The application relates to the field of hotel management, in particular to a power control method and a power control system for hotel rooms and a hotel management system.

Background

With the rapid development of economy and modern society, the domestic business and tourism industry continuously increase the temperature, and the commercial hotels and the tourism hotels also meet the high-speed development period, and the hotels in various forms, various types and different scales are produced.

Most commonly, most hotel room door locks are card induction locks, and the on-off of a power supply in a guest room is controlled by a card induction type power-taking switch. After a user who enters the hotel transacts the check-in process, the hotel can issue an electromagnetic room door card to the client, and the electromagnetic room door card is associated with a guest room reserved by the user and used for opening the door and getting electricity. The user holds the electromagnetic room door card to swipe the room door to enter the guest room, then inserts the electromagnetic room door card into the electricity taking device at the door opening side in the guest room, and then the power supply in the guest room can be switched on to finish the electricity taking, so that the power supply and the electrical equipment in the guest room are powered. When the user leaves the guest room, the electromagnetic room door card is taken out from the electricity fetching device, and the power supply in the guest room is cut off.

The traditional electromagnetic room door card not only needs to be taken up and returned in a hotel hall registration place in a manual mode or a self-service mode, and is complex in process, but also needs to be carried by a user when in use, so that the user is easy to forget or lose, and a great deal of inconvenience is brought to the use of the user and the hotel management. Furthermore, if the electromagnetic room door card is inserted into the power supply all the time, even if a user is not in a guest room or even goes out of a hotel, the power supply in the guest room cannot be powered off, so that energy waste is caused and potential safety hazards exist.

Disclosure of Invention

In view of the above disadvantages of the related art, an object of the present application is to provide a power control method and a power control system for hotel rooms, and a hotel management system, for solving the problems that an entity electromagnetic door card is not easy to carry and lose, causes energy waste, has potential safety hazards, and the like in the related art.

To achieve the above and other related objects, a first aspect of the present application discloses a power control method for hotel rooms, comprising the steps of: acquiring door state information of a guest room and acquiring a wireless access event of a mobile device associated with the guest room within a specified position range outside the guest room; the mobile equipment is associated with the guest room by submitting a two-dimensional code identifier to a guest room two-dimensional code controller, wherein the two-dimensional code identifier comprises electronic room card information and mobile equipment identifier information; the mobile equipment identification information is at least one of Wi-Fi information and Bluetooth information; acquiring the occupancy state of the guest room according to the door state information and the wireless access event of the mobile equipment; the occupied state comprises an occupied state or an unoccupied state; and determining the power control strategy of the guest room according to the occupancy state of the guest room.

In certain embodiments of the first aspect of the present application, the door status in the door status information includes one of an inner lock status, an outer lock status, and an unlocked status.

In certain embodiments of the first aspect of the present application, the step of the mobile device associating with the guest room by submitting a two-dimensional code identification to a guest room two-dimensional code controller comprises: identifying a two-dimensional code identifier displayed by mobile equipment of a user through a guest room two-dimensional code controller associated with a guest room to acquire electronic room card information and mobile equipment identifier information in the two-dimensional code identifier; and checking the acquired electronic house card information and the pre-stored electronic house card information, and associating the electronic house card information and the mobile equipment identification information with the guest room after the checking is passed.

In certain embodiments of the first aspect of the present application, the two-dimensional code identifier is generated by an application program loaded in the mobile device according to the electronic house card information and the mobile device identifier information.

In certain embodiments of the first aspect of the present application, the electronic room card information is generated and sent to the mobile device of the user via identity verification of the user and based on the identity information and the room information of the user after passing the identity verification.

In certain embodiments of the first aspect of the present application, the step of generating electronic house card information comprises: obtaining reservation information of a user, and inquiring to obtain matched order information according to the reservation information; acquiring the on-site human face characteristics of the user to check the user identity of the order information; and after passing the identity verification of the user, generating electronic room card information based on the identity information and the guest room information of the user.

In certain embodiments of the first aspect of the present application, the step of obtaining live facial features of the user to verify the user identity of the order information includes: acquiring a field face image of a user and certificate information of the user; uploading the face image and the certificate information to an information management service system at the cloud end, so that the information management system obtains corresponding reservation information from prestored data according to the certificate information and matches the face image with the face features in the reservation information; and receiving a user identity verification result sent by the information management system.

In certain embodiments of the first aspect of the present application, the step of obtaining a wireless access event of a mobile device associated with the room within a specified location range outside the room comprises: acquiring a wireless signal of at least one mobile device within a specified position range outside the guest room; determining a mobile device associated with the guest room from the at least one mobile device based on the wireless signal to obtain a wireless access event of the mobile device associated with the guest room.

In certain embodiments of the first aspect of the present application, the means for acquiring wireless signals of mobile devices within a specified location range outside the guest room comprises: utilizing one or more of Wi-Fi devices and Bluetooth devices disposed at one or more of a hotel's floor corridor, elevator hall, and hotel entrance and exit.

In certain embodiments of the first aspect of the present application, the method for power control of hotel rooms further comprises: acquiring the position information of the mobile equipment; when the position information of the mobile equipment is judged to be a hotel area, acquiring the occupancy state of the guest room according to the door state information and the wireless access event of the mobile equipment; the occupied state comprises an occupied state or an unoccupied state; and when the position information of the mobile equipment is judged not to be in the hotel area, acquiring that the occupancy state of the guest room is an unoccupied state.

In certain embodiments of the first aspect of the present application, the step of obtaining location information of the mobile device comprises: location information is obtained from location data uploaded by at least one application loaded on the mobile device.

In certain embodiments of the first aspect of the present application, the determining a power control policy for the guest room as a function of the occupancy state comprises: when the occupancy state is judged to be the occupied state, continuously supplying power to the guest room; and when the occupied state is judged to be the unoccupied state, the guest room is immediately powered off, the power off is delayed, or the power of an HAVC system is adjusted.

The second aspect of the present application discloses a power control system for hotel rooms, including: the door detection module is used for acquiring door state information of the guest room; the system comprises an outdoor detection module, a wireless access module and a wireless access module, wherein the outdoor detection module is used for acquiring a wireless access event of the mobile equipment associated with the guest room within a specified position range outside the guest room; the mobile equipment is associated with the guest room by submitting a two-dimensional code identifier to a guest room two-dimensional code controller, wherein the two-dimensional code identifier comprises electronic room card information and mobile equipment identifier information; the mobile equipment identification information is at least one of Wi-Fi information and Bluetooth information; the room state detection module is used for acquiring the occupancy state of the guest room according to the door state information and the wireless access event of the mobile equipment; the occupied state comprises an occupied state or an unoccupied state; and the power control module is used for determining a power control strategy of the guest room according to the occupancy state of the guest room.

In certain embodiments of the second aspect of the present application, the door status in the door status information includes one of an inner lock status, an outer lock status, and an unlocked status.

In some embodiments of the second aspect of the present application, the system further comprises a guest room association module, which is used for acquiring the electronic room card information and the mobile device identification information in the two-dimensional code identification by the two-dimensional code identification displayed by the mobile device of the guest room two-dimensional code controller for identifying the user, and verifying the acquired electronic room card information and the pre-stored electronic room card information, and after the verification passes, associating the electronic room card information and the mobile device identification information with the guest room.

In some embodiments of the second aspect of the present application, the two-dimensional code identifier is generated by an application program loaded in the mobile device according to the electronic house card information and the mobile device identifier information.

In certain embodiments of the second aspect of the present application, the power control system of hotel rooms further includes an electronic room card generating module, configured to generate electronic room card information based on the identity information and the room information of the user by performing identity verification on the user and after passing the identity verification, so as to send the electronic room card information to the mobile device of the user.

In some embodiments of the second aspect of the present application, the out-of-room detection module is configured to acquire a wireless signal of at least one mobile device within a specified location range outside the guest room, and determine a mobile device associated with the guest room from the at least one mobile device according to the wireless signal to acquire a wireless access event of the mobile device associated with the guest room.

In some embodiments of the second aspect of the present application, the room state detection module is further configured to obtain the location information of the mobile device, so that when the location information of the mobile device is determined to be in the hotel area, the occupied state of the guest room is an occupied state or an unoccupied state according to the door state information and the wireless access event of the mobile device, and when the location information of the mobile device is determined not to be in the hotel area, the occupied state of the guest room is obtained as the unoccupied state.

In some embodiments of the second aspect of the present application, the obtaining of the location information of the mobile device is by obtaining the location information from location data uploaded by at least one application program loaded on the mobile device.

In certain embodiments of the second aspect of the present application, the power control module is configured to continuously supply power to the guest room when the occupied state is determined to be an occupied state, or instantly power off, delay power off, or adjust power of a HAVC system when the occupied state is determined to be an unoccupied state.

A third aspect of the present application discloses a power control system for hotel rooms, comprising: the door detector is used for acquiring door state information of the guest room; the system comprises at least one outdoor detector, a wireless access module and a wireless access module, wherein the outdoor detector is used for acquiring wireless access events of mobile equipment associated with a guest room within a specified position range outside the guest room; the mobile equipment is associated with the guest room by submitting a two-dimensional code identifier to a guest room two-dimensional code controller, wherein the two-dimensional code identifier comprises electronic room card information and mobile equipment identifier information; the mobile equipment identification information is at least one of Wi-Fi information and Bluetooth information; the processing device is in communication connection with the at least one door detector and the at least one outdoor detector, and is used for obtaining the occupancy state of the guest room according to the door state information and the wireless access event of the mobile device and determining the power control strategy of the guest room according to the occupancy state of the guest room; the occupied state includes an occupied state or an unoccupied state.

In certain embodiments of the third aspect of the present application, the door detector comprises a first detecting device disposed on the door lock outer handle for detecting the motion of the door lock outer handle and a second detecting device disposed on the door lock inner handle for detecting the motion of the door lock inner handle.

In certain embodiments of the third aspect of the present application, the outdoor detector comprises at least one wireless access device disposed at a designated location of the hotel.

In certain embodiments of the third aspect of the present application, the wireless access device comprises one or more of a Wi-Fi device and a bluetooth device disposed at one or more of a floor corridor, an elevator hall, and an entrance and exit of the hotel.

In certain embodiments of the third aspect of the present application, the processing device comprises a computer device loaded with a hotel PMS system.

The fourth aspect of the present application discloses a hotel PMS system, comprising: a memory for storing at least one program; and the processor is connected with the memory and is used for executing and realizing the power control method of the hotel guest room when running the at least one program.

A fifth aspect of the present application discloses a non-transitory storage medium of a computer device storing at least one program which, when executed by a processor, executes and implements the aforementioned power control method for hotel rooms.

Summarizing, according to the electric control method and the electric control system for hotel rooms and the hotel management system, the door state information of the room and the wireless access event of the mobile device associated with the room in the designated position range outside the room are obtained, the occupancy state of the room is determined based on the door state information and the wireless access event of the mobile device associated with the room, the electric control strategy of the room is determined accordingly, the corresponding electric control strategy can be intelligently implemented according to the occupancy state of the room under the hotel management of the entity-free electromagnetic door card, the utilization efficiency of energy is improved, the energy is saved, and more intelligent check-in experience can be provided for users.

Drawings

The specific features of the invention to which this application relates are set forth in the appended claims. The features and advantages of the invention to which this application relates will be better understood by reference to the exemplary embodiments described in detail below and the accompanying drawings. The brief description of the drawings is as follows:

fig. 1 is a schematic flow chart of an embodiment of a power control method for hotel rooms according to the present application.

Figure 2 is a schematic diagram of the power control system for hotel rooms of the present application in one embodiment.

Fig. 3 is a schematic flow chart illustrating the process of fig. 1 for acquiring a wireless access event of a mobile device associated with the guest room within a specified location range outside the guest room.

FIG. 4 is a flow chart illustrating steps for generating electronic house card information according to an embodiment

FIG. 5 is a flow diagram illustrating the steps in one embodiment for obtaining on-site facial features of the user to verify the identity of the user of the order information.

Fig. 6 is a schematic flow chart of the power control method for hotel rooms according to another embodiment of the present invention.

Fig. 7 is a schematic structural diagram of an embodiment of the power control system for hotel rooms according to the present application.

Figure 8 is a block diagram illustrating a hotel management system according to an embodiment of the present application.

Detailed Description

The following description of the embodiments of the present application is provided for illustrative purposes, and other advantages and capabilities of the present application will become apparent to those skilled in the art from the present disclosure.

In the following description, reference is made to the accompanying drawings that describe several embodiments of the application. It is to be understood that other embodiments may be utilized and that mechanical, structural, electrical, and operational changes may be made without departing from the spirit and scope of the present disclosure. The following detailed description is not to be taken in a limiting sense, and the scope of embodiments of the present application is defined only by the claims of the issued patent. The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the application.

Although the terms first, second, etc. may be used herein to describe various elements or parameters in some instances, these elements or parameters should not be limited by these terms. These terms are only used to distinguish one element or parameter from another element or parameter. For example, a first detection device may be referred to as a second detection device, and similarly, a second detection device may be referred to as a first detection device, without departing from the scope of the various described embodiments. The first detection means and the second detection means are both described as one detection means, but they are not the same detection means unless the context clearly indicates otherwise. A similar situation is also for example the first interface unit and the second interface unit.

Also, as used herein, the singular forms "a," "an," and "the" are intended to include the plural forms as well, unless the context indicates otherwise. It will be further understood that the terms "comprises," "comprising," "includes" and/or "including," when used in this specification, specify the presence of stated features, steps, operations, elements, components, items, species, and/or groups, but do not preclude the presence, or addition of one or more other features, steps, operations, elements, components, species, and/or groups thereof. The terms "or" and/or "as used herein are to be construed as inclusive or meaning any one or any combination. Thus, "A, B or C" or "A, B and/or C" means "any of the following: a; b; c; a and B; a and C; b and C; A. b and C ". An exception to this definition will occur only when a combination of elements, functions, steps or operations are inherently mutually exclusive in some way.

Most of the existing hotels still adopt the traditional card-inserting electricity-taking mode, users obtain electromagnetic room door cards when checking in, and door opening and electricity taking can be achieved by using the electromagnetic room door cards, wherein when the users enter guest rooms, the electromagnetic room door cards are inserted into electricity-taking devices on the door opening side in the guest rooms, then the power sources in the guest rooms can be connected to finish electricity taking, power sources and all electrical equipment in the guest rooms are powered on, and when the users leave the guest rooms, the electromagnetic room door cards are taken out from the electricity-taking devices, and the power sources in the guest rooms are powered off. However, this method has several problems as follows: the electromagnetism room door card not only need be got and is returned through manual mode or self-service mode in hotel lobby registration department, and the flow is loaded down with trivial details, and when using, needs the user to hand-carry electromagnetism room door card especially, easily causes the user to forget or lose, brings a great deal of inconvenience for user's use and hotel management. Furthermore, if the electromagnetic room door card is inserted into the power supply all the time, even if a user is not in a guest room or even goes out of a hotel, the power supply in the guest room cannot be powered off, so that energy waste is caused and potential safety hazards exist.

In view of this, the present application provides a power control method for hotel rooms, which comprehensively determines the occupancy state of a guest room by acquiring detection information inside and outside the guest room, thereby intelligently managing power supply of the guest room, improving energy utilization efficiency, saving energy, and providing a good intelligent check-in experience for users. In embodiments, the hotel includes, but is not limited to, an economy chain hotel, a business hotel, a luxury or star hotel, a residential home, a rental apartment, and the like. In an actual implementation scenario, the hotel may also be a hotel merchant registered or resident on an OTA (Online Travel Agent) platform.

In some embodiments of the present application, the hotel Management System is, for example, a computer-managed hotel PMS (Property Management System) System capable of assisting a hotel in performing service Management and control. The hotel management system comprises at least one computer or server, and in the application, the computer or server of the hotel management system communicates with sensors, wireless access equipment or monitoring equipment and the like arranged in a hotel room, on a door of the hotel room and outside the hotel room such as a hotel corridor, an elevator and a hall, and further communicates with a power control system of the hotel room including a power-taking switch, and the computer or server is used for comprehensively judging the occupancy state of the room through detecting the room detection information of the room and the outdoor detection information outside the room so as to determine the power management strategy of the room.

In some embodiments of the present application, the hotel management system may further be in communication connection with an information management service system in a cloud, and the service end may be arranged on one or more entity servers according to various factors such as functions and loads. When distributed in a plurality of entity servers, the server may be composed of servers based on a cloud architecture. For example, a Cloud-based server includes a Public Cloud (Public Cloud) server and a Private Cloud (Private Cloud) server, wherein the Public or Private Cloud server includes Software-as-a-Service (SaaS), Platform-as-a-Service (PaaS), Infrastructure as a Service (IaaS), and Infrastructure as a Service (IaaS). The private cloud service end is used for example for a Mei Tuo cloud computing service platform, an Array cloud computing service platform, an Amazon cloud computing service platform, a Baidu cloud computing platform, a Tencent cloud computing platform and the like. The server may also be formed by a distributed or centralized cluster of servers. For example, the server cluster is composed of at least one entity server. Each entity server is provided with a plurality of virtual servers, each virtual server runs at least one functional module in the hotel information management service system, and the virtual servers are communicated with each other through a network.

Please refer to fig. 1, which is a flowchart illustrating an embodiment of a power control method for hotel rooms according to the present application. As shown in fig. 1, the power control method for hotel rooms in the embodiment includes the following steps:

step S11, obtaining the door status information of the guest room and obtaining the wireless access event of the mobile device associated with the guest room within the specified location range outside the guest room.

In an embodiment, the power control method for hotel rooms can be applied to a power control system for hotel rooms. Please refer to fig. 2, which is a schematic diagram of an embodiment of a power control system for hotel rooms according to the present application. As shown in fig. 2, the power control system of the hotel room in the embodiment includes: the system comprises at least one door detector 201, at least one outdoor detector 203 and a processing device 205, wherein the at least one door detector 201 is used for acquiring door state information of a guest room, the outdoor detector 203 is used for acquiring a wireless access event of a mobile device associated with the guest room within a specified position range outside the guest room, and the processing device 205 is in communication connection with the at least one door detector 201 and the at least one outdoor detector 203 and is used for acquiring an occupation state of the guest room according to the door state information and the wireless access event of the mobile device and determining a power control policy of the guest room according to the occupation state of the guest room. Wherein the occupied state comprises an occupied state or an unoccupied state.

In an embodiment, the power control method for the hotel room may be executed by a processing device disposed at a local end or a cloud end according to a device configuration condition in the power control system for the hotel room. For example, in some embodiments, if the hardware configuration of the processing device in the power control system of a hotel room is poor and the data processing speed is slow, the acquired detection information may be stored in a server on the communication network, and each detection device/device provided in the hotel may only perform the acquisition operation and the transmission operation of the information, and the processing device in the server completes the processing and the feedback; in some embodiments, if the hardware configuration of the processing device of the power control system of the hotel room is good and the storage space is sufficient, the power control method can be executed at the local end and the power control operation of the hotel room can be realized.

In the embodiment, the door state information of the guest room is detected and acquired by a door detector arranged at the door lock position of the guest room.

In some implementations, the door detector may determine a locking state of the door (which may also be referred to as a door state) according to the detected states of the lock tongue, the counter lock knob, and the door handle (which includes an outer door handle and an inner door handle), so as to determine whether a person is in the guest room. Wherein the door state comprises one of an inner lock state (i.e. inner lock), an outer lock state (i.e. outer lock), and an unlocked state.

In some implementations, the door detector further includes a first detection device and a second detection device. The first detection device is arranged on an outside door handle of the guest room door lock and used for detecting the action of the outside door handle, when a user holds the outside door handle and implements the action of the outside door handle, the first detection device is triggered and detects the action of the outside door handle implemented by the user, the locking state of the guest room door is judged, and accordingly, the fact that the user enters the guest room from the outside of the guest room, namely, a person is in the guest room, is judged. The second detection device is arranged on an in-door handle of the guest room door lock and used for detecting the action of the in-door handle, when a user holds the in-door handle and implements the action of the in-door handle, the second detection device is triggered and detects the action of the in-door handle implemented by the user, the locking state (also called as a room door state) of the room door is judged, and accordingly, the user is judged to walk out of the guest room from the guest room and leave the guest room. The door state includes one of an inner lock state (i.e., inner lock) and an outer lock state (i.e., outer lock).

Thus, the door detector can send the detected door state information of the guest room to the processing equipment of the power control system of the hotel guest room.

In an embodiment, the wireless access event of the mobile device associated with the guest room within the specified location range outside the guest room is detected and acquired by an outside-room detector disposed outside the guest room. The out-of-room detector may include at least one wireless access device disposed at a designated location of the hotel outside the guest room, and detect and acquire a wireless access event of a mobile device associated with the guest room within a range of the designated location outside the guest room through the at least one wireless access device.

In an embodiment, the mobile device may include components such as memory, memory controllers, one or more processing units (CPUs), peripheral interfaces, RF circuitry, audio circuitry, speakers, microphones, input/output (I/O) subsystems, display screens, other output or control devices, and external ports, which communicate via one or more communication buses or signal lines. The mobile device includes, but is not limited to, a tablet computer, a smart phone, a Personal Digital Assistant (PDA), a notebook computer, and the like. The mobile device may be configured with a module having a network connection function, such as at least one of a Wi-Fi module and a bluetooth module.

In some embodiments, referring to fig. 3, a flowchart illustrating the step S11 in fig. 1 of acquiring the wireless access event of the mobile device associated with the guest room within the specified location range outside the guest room is shown. As shown in fig. 3, the step of acquiring the wireless access event of the mobile device associated with the guest room within the specified location range outside the guest room includes:

step S111, wireless signals of at least one mobile device in a designated position range outside the guest room are obtained.

In an embodiment, the wireless signal of at least one mobile device within a specified location range outside the guest room is detected and acquired by an outside detector disposed outside the guest room. The outdoor detector may include at least one wireless access device disposed at a designated location of the hotel outside the guest room, and the at least one wireless access device detects and acquires a wireless signal of each mobile device within a range of the designated location outside the guest room.

Thus, in step S111, acquiring the wireless signal of at least one mobile device within the specified location range outside the guest room includes the server receiving the wireless signal of the mobile device within a certain range nearby, which is detected and transmitted by at least one wireless access device.

In some embodiments, the wireless access device comprises one or more of a Wi-Fi device and a bluetooth device. The wireless access device can be arranged in a must-pass area or a frequent visiting area of the checked-in user, for example, one or more of a floor corridor, an elevator room, an elevator, a hotel lobby and a hotel entrance and exit of the hotel. Alternatively, if the hotel is configured with other functional facilities, the wireless access device may be disposed at those functional facilities, such as a parking lot, a restaurant, a wine gallery, a conference room, a living room, a fitness room, a garden, etc. of the hotel, for detecting whether a wireless signal from the mobile device exists within a certain range around the hotel and acquiring a wireless signal of the mobile device(s).

In a certain embodiment, the wireless access device is a Wi-Fi device, the deployed at least one Wi-Fi device may acquire a wireless signal sent by at least one mobile device that establishes a Wi-Fi communication connection and obtain Wi-Fi information of the at least one mobile device therefrom, where the Wi-Fi information includes identification information (e.g., an IP address, a MAC address, and the like) of the mobile device, and meanwhile, the at least one Wi-Fi device may determine a location of the at least one mobile device according to a deployed location of the at least one Wi-Fi device and a signal strength of the at least one mobile device that establishes a Wi-Fi communication connection with the at least one Wi-Fi device.

In one embodiment, the wireless access device is a bluetooth device, the at least one bluetooth device may acquire a wireless signal sent by at least one mobile device that establishes a bluetooth communication connection and obtain bluetooth information of the at least one mobile device from the wireless signal, where the bluetooth information includes identification information (e.g., a bluetooth address) of the mobile device, and the at least one bluetooth device may determine a location of the at least one mobile device according to a layout location of the at least one bluetooth device and a signal strength of the at least one mobile device that establishes a bluetooth communication connection with the at least one bluetooth device.

In one embodiment, the wireless access device includes a Wi-Fi device and a bluetooth device, that is, the Wi-Fi device and the bluetooth device are co-located, the Wi-Fi device may obtain identification information (e.g., an IP address, a MAC address, etc.) of at least one mobile device connected to the Wi-Fi device and determine a location of the at least one mobile device according to Wi-Fi signal strength, and the bluetooth device may obtain identification information (e.g., a bluetooth address, etc.) of at least one mobile device connected to the bluetooth device and determine the location of the at least one mobile device according to bluetooth signal strength.

Step S113, determining a mobile device associated with the guest room from the at least one mobile device based on the wireless signal, so as to obtain a wireless access event of the mobile device associated with the guest room.

In an embodiment, the wireless access event includes, but is not limited to, information such as a start time, a signal strength, an end time, data traffic, etc. of the mobile device accessing the wireless access device.

When the wireless access device acquires a wireless signal of at least one mobile device within a specified position range outside a guest room, a mobile device associated with the guest room is determined from the at least one mobile device.

In an embodiment, the mobile device associated with the guest room is associated with the guest room by submitting a two-dimensional code identifier to a guest room two-dimensional code controller, wherein the two-dimensional code identifier comprises electronic room card information and mobile device identification information. The mobile equipment identification information is at least one of Wi-Fi information and Bluetooth information.

In some embodiments, the two-dimensional code identifier is generated by an application program loaded in the mobile device according to the electronic house card information and the mobile device identification information.

In some embodiments, the electronic room card information is generated and sent to the mobile device of the user via identity verification of the user and based on the identity information and the room information of the user after passing the identity verification.

Referring to fig. 4, a flow diagram illustrating steps for generating electronic house card information in one embodiment is shown. As shown in fig. 4, the step of generating the electronic house card information includes:

and step S41, obtaining the booking information of the user, and inquiring to obtain the matched order information according to the booking information.

In an embodiment, a processing device in a power control system of a hotel guest room obtains reservation information of a user and obtains matched order information according to the reservation information query. Wherein the processing device may comprise a computer device loaded with a hospitality management system.

In some embodiments, obtaining the user's reservation information is performed by a hotel employee at a hotel lobby service desk manually entering the information into a processing device. The input information may include, but is not limited to, at least one of: certificate information, communication information (e.g., cell phone number, email address, etc.), order number, name, unit name, etc. The processing equipment can obtain matched order information from a hotel database or an information management service system at the cloud end according to the input information, the order information at least comprises information matched with the input information, and the order information also comprises one or more information of check-in time, room type of a check-in room, other check-in users and the like.

In some embodiments, the manner in which the predetermined information of the user is obtained is performed by a self-service check-in device. The user inputs the reservation information by self through the self-service registration equipment, and the input mode is to perform image shooting and recording, gesture control and the like through at least one of the configured keyboard input module, handwriting input module and touch input module or the camera module. The input information may include, but is not limited to, at least one of: the self-service registration device receives the input information and sends the input information to an information management service system of a hotel database or a cloud so as to search from the information management service system of the hotel database or the cloud and obtain matched order information, the order information at least comprises information matched with the input information, and the order information also comprises one or more of check-in time, room type of a check-in room, other check-in users and the like.

The order is ordered by the user's mobile device or other similar means. Taking the mobile device of the user as an example, the mobile device may be loaded with APP applications or electronic devices with a web page/website access capability, where the APP applications include applications that traditionally need to be installed separately, and also include applet applications (e.g., a wechat applet, a pay-for-your-away applet, etc.) that can be used without being downloaded and installed. The method comprises the steps that a user browses through an APP (application program) of an OTA (over the air) platform, a special APP of a hotel, accesses an OTA website or a hotel official website, fills in a hotel reservation order according to own requirements (such as check-in time, the number of rooms, the types of the rooms and the like), receives the hotel reservation order submitted by the user through mobile equipment, confirms whether room resources capable of meeting the hotel reservation order exist in a database, processes the hotel reservation order when the conditions are met, feeds back reservation success information to the mobile equipment of the user, and generates corresponding order information.

Step S43, obtaining the on-site human face feature of the user to check the user identity of the order information.

In an embodiment, a processing device in the power control system of the hotel room obtains the on-site human face feature of the user to verify the user identity of the order information.

Referring to fig. 5, a flow chart illustrating steps for obtaining the on-site facial features of the user to verify the user identity of the order information is shown in an embodiment.

As shown in fig. 5, the step of obtaining the on-site human face feature of the user to check the user identity of the order information includes:

step S501, acquiring a field face image of a user and certificate information of the user.

In an embodiment, a processing device in a power control system of a hotel room acquires a live face image of a user and certificate information of the user.

Step S503, the face image and the certificate information are uploaded to an information management service system at the cloud end, so that the information management system can obtain corresponding reservation information from pre-stored data according to the certificate information and match the face image with the face features in the reservation information.

In an embodiment, a processing device in an electric control system of a hotel guest room uploads the face image and certificate information to an information management service system at a cloud, and the information management system obtains corresponding reservation information from pre-stored data according to the certificate information and matches the face image with face features in the reservation information.

In some embodiments, the manner of matching, by the information management system, the facial image with facial features in the reservation information may include: and extracting the facial features of the user from the facial image, and comparing the facial features with the facial features in the reservation information so as to verify the identity of the user. The facial features of the user in the face image can be extracted through a feature extraction algorithm. The feature extraction algorithm includes, but is not limited to: a method based on geometric features, a method based on template matching, a face recognition method based on wavelet theory, a method based on a support vector machine, a method based on an artificial neural network and the like.

For example, feature data (such as the distance between feature points) is acquired according to the distance description between the facial organ morphology description and the organ in the image, the geometric description of the structural relationship between the local part and the local part is used as the facial feature, then the acquired feature data is compared with the registered facial feature of the living user in the guest room, when the similarity threshold value of the acquired feature data and the registered facial feature exceeds a set threshold value, the verification is passed, and the identity of the user is determined.

Step S505, receiving the user identity verification result sent by the information management system.

In an embodiment, a processing device in a power control system of a hotel room receives a user identity verification result sent by the information management system.

In some embodiments, the obtaining of the on-site human face features of the user to check the user identity of the order information is performed by a processing device at a hotel lobby service desk, wherein the processing device comprises a first interface unit for connecting with at least one credential reader (e.g., an identity card reader), and a second interface unit for connecting with at least one camera device configured on the hotel site.

The step of obtaining live facial features of the user to verify the user identity of the order information may be performed by a processing device at a hotel lobby service desk may comprise:

the hotel staff operates to place the identity document (such as an identity card) of a user on or close to a document reader (such as an identity card reader), read the document information in the identity document through the document reader, and transmit the document information to the processing equipment.

The hotel staff operates at least one camera device, the at least one camera device is used for acquiring a field face image of a user, and the face image is transmitted to the processing equipment.

And the processing equipment sends the obtained identity document information and the field face image of the user to an information management system at the cloud end, and the information management system obtains corresponding reservation information from prestored data according to the document information and matches the face image with the face characteristics in the reservation information to obtain a user identity verification result.

Receiving, by the processing device, a user identity verification result from the information management system. The user identity verification result may be information that the identity verification passes or fails, but not limited thereto, and the user identity verification result may be a specific numerical value of the user identity verification matching degree, for example, the user identity verification matching degree is 36%, 78%, 90%, and the like.

In some embodiments, the obtaining of the live facial features of the user to verify the user identity of the order information is performed by a self-service registration device, wherein the self-service registration device comprises at least one credential reader and at least one camera in addition to an input device for the user to input information.

The step of obtaining live facial features of the user to verify the user identity of the order information may be performed by a self-service registration device, comprising:

a user places their identity document (e.g., an identification card) on or near a document reader (e.g., an identification card reader) through which document information in the identity document is read.

The user operates at least one camera device or an application program controlled by self-service registration equipment and the at least one camera device is used for acquiring the live face image of the user.

And the self-service registration equipment sends the obtained identity document information and the field face image of the user to an information management system at the cloud end, and the information management system obtains corresponding reservation information from prestored data according to the document information and matches the face image with the face characteristics in the reservation information to obtain a user identity verification result.

Receiving, by the self-service registration device, a user identity verification result from the information management system. The user identity verification result may be information that the identity verification passes or fails, but not limited thereto, and the user identity verification result may be a specific value of the user identity verification matching degree, for example, the user identity verification matching degree is 36%, 78%, 90%, and the like.

The self-service registration device can also display the user identity verification result through a configured display screen.

Carry out user's identity verification through self-service registration equipment, on the one hand, can remove the waiting time that the user handled the hotel affair in the passenger flow rush hour from, can effectively improve hotel and handle affair efficiency, on the other hand, self-service is handled, ensures individual privacy confidentiality, avoids the awkwardness that the user probably produced, promotes user experience.

And step S45, after passing the identity verification of the user, generating the electronic room card information based on the identity information of the user and the guest room information.

In an embodiment, the electronic room card information is generated by a processing device in the power control system of the hotel room based on the identity information of the user and the room information after passing the identity verification of the user.

In some embodiments, the manner in which electronic room card information is generated based on the identity information and room information of the user is performed by a processing device at a hotel lobby service desk.

The step of generating electronic room card information by a processing device at a hotel lobby service desk may comprise: and the processing equipment generates electronic house card information based on the identity information and the guest room information of the user and sends the electronic house card information to the mobile equipment of the user. The processing device generates electronic room card information based on the identity information of the user and the room information, which may be, for example, identification information for uniquely characterizing the room to be checked, such as a string of identification codes, by a room card authorization application loaded by the processing device.

And the processing equipment sends the generated electronic house card information to the mobile equipment of the user.

The electronic room card information is generated through the processing equipment at the service desk of the hotel lobby, the method has the advantages of being fast and efficient, the loaded room card authorization application program is limited to be used by the hotel, the program system is simple and easy to develop, and the method can be flexibly adjusted according to characteristics of the hotel.

In some implementations, the processing device sends the electronic room card information directly to the mobile device of the user via a short message or the like.

In some implementation manners, the processing device sends the electronic house card information to an information management system at the cloud, and the information management system at the cloud sends the electronic house card information to the mobile device of the user through a short message or the like or sends the electronic house card information to the mobile device of the user through pushing in the APP.

In addition, the processing equipment sends the generated electronic house card information to a guest room two-dimensional code controller of a corresponding guest room in the electronic house card information for storage.

In an embodiment, the guest room two-dimensional code controller comprises a two-dimensional code reader, a memory controller, one or more processing units (CPUs), a peripheral interface and the like, and the components communicate through one or more communication buses or signal lines. In some embodiments, the room two-dimensional code controller may further include audio circuitry, speakers, a microphone, an input/output (I/O) subsystem, and a display screen, among others.

The guest room two-dimensional code controller is in communication connection with a guest room control system and a guest room door lock in the guest room. The communication connection mode of the guest room two-dimensional code controller, the guest room control system in the guest room and the guest room door lock can adopt wired communication connection or wireless communication connection. In an exemplary embodiment, the room two-dimensional code controller can access a wireless network based on a communication standard, such as Wi-Fi, 433M wireless network, 3G, 4G, 5G, or a combination thereof. In an exemplary embodiment, the room two-dimensional code controller further facilitates short-range communication through a Near Field Communication (NFC) module, a bluetooth module, a Zigbee module, or a combination thereof.

In some embodiments, each of the room two-dimensional code controllers is associated with a corresponding one of the rooms, the room two-dimensional code controller is disposed beside a door of the room, and the room two-dimensional code controller is communicatively connected to a room control system and a room door lock of the room.

In some embodiments, one of the room two-dimensional code controllers can be associated with at least two rooms, for example, the room two-dimensional code controller can be disposed on a wall between two doors of two adjacent rooms, and the room two-dimensional code controller is communicatively connected to the room control systems and the room door locks of the two adjacent rooms.

In some embodiments, the manner in which the electronic room card information is generated based on the identity information and the guest room information of the user is performed by a self-service registration device.

The step of generating electronic house card information by the self-service registration device may comprise: and the self-service registration equipment generates electronic house card information based on the identity information and the guest room information of the user, and sends the electronic house card information to the mobile equipment of the user. The self-service registration device generates electronic room card information based on the identity information of the user and the room information, which may be, for example, identification information for uniquely characterizing the room to be checked in, such as a string of identification codes, by a room card authorization application loaded by the self-service registration device.

The electronic house card information is generated through the self-service registration equipment, the method has the advantages of being fast and efficient, the loaded house card authorization application program is limited to be used by the hotel, and the program system is simple and easy to develop and can be flexibly adjusted according to the characteristics of the hotel.

In some implementations, the self-service registration device sends the electronic house card information directly to the user's mobile device via a short message or the like.

In some implementation manners, the self-service registration device sends the electronic house card information to an information management system at the cloud end, and the information management system at the cloud end sends the electronic house card information to the mobile device of the user through a short message or the like or sends the electronic house card information to the mobile device of the user through pushing in the APP.

In addition, the self-service registration equipment sends the generated electronic house card information to a guest room two-dimensional code controller of a corresponding guest room in the electronic house card information for storage.

In an embodiment, the cloud information management system generates the electronic room card information based on the identity information and the guest room information of the user after passing the identity verification of the user.

The step of generating the electronic house card information through the information management system at the cloud may include: and generating electronic house card information by the information management system at the cloud based on the identity information and the guest room information of the user, and sending the electronic house card information to the mobile equipment of the user.

The cloud information management system generates electronic room card information based on the identity information of the user and the room information, wherein the electronic room card information is generated through a room card authorization application program loaded by the cloud information management system, and the room information can be identification information used for uniquely representing a room to be checked in, such as a string of identification codes. The identification code may comprise a plurality of parts, for example, the identification code may comprise at least two parts, AAAA.

In some implementation manners, the information management system at the cloud end sends the electronic house card information to the mobile equipment of the user through short messages and the like or sends the electronic house card information to the mobile equipment of the user through an in-APP push function.

In addition, the self-service registration equipment sends the generated electronic house card information to a guest room two-dimensional code controller of a corresponding guest room in the electronic house card information for storage.

The electronic house card information is generated through the cloud information management system, unified management can be performed on all hotels, processing capacity of large data volume is achieved, accuracy of all data is guaranteed, coordination capacity of all hotels is improved, and stability of the system is guaranteed.

In step S45, electronic room card information may be generated based on the identity information of the user and the guest room information, and the electronic room card information is respectively transmitted to the mobile device of the user and the guest room two-dimensional code controller of the corresponding guest room.

The electronic room card information is generated based on the identity information and the guest room information of the user, the defects that an entity electromagnetic door card is not easy to carry, lose and damage in the related technology can be overcome, the use by the user and the hotel management are facilitated, the hotel management efficiency is improved, and the cost is saved.

In an embodiment, the electronic room card information includes at least identity information and guest room information of the user, but not limited thereto, and the electronic room card information may further include one or more of information of a limited term, a check-in date and a departure date of the user, service rights enjoyed by the user, and the like. The service authority at least comprises a guest room use authority, such as a guest room door lock opening authority and a guest room power-taking authority. Alternatively, if the hotel is configured with other functional facilities, the service right may also cover the other functional facilities, for example, the service right may further include service rights of functional facilities such as a parking lot, a restaurant, a wine gallery, a conference room, an activity room, a fitness room, and a garden of the hotel, and the service right may include at least one of information such as a right level, a usage time limit, a usage time period, a usage number, and a usage number.

As described previously, in an embodiment, the mobile device associated with the guest room is associated with the guest room by submitting a two-dimensional code identifier to a guest room two-dimensional code controller, where the two-dimensional code identifier includes electronic room card information and mobile device identification information. Therefore, the method further comprises the step of generating the two-dimensional code identification according to the electronic house card information and the mobile equipment identification information.

In an embodiment, the mobile device identification information is at least one of Wi-Fi information and bluetooth information.

In some embodiments, the step of generating the two-dimensional code identification may be performed by a mobile device of the user. The mobile device of the user generates the two-dimension code identification based on the received electronic house card information and the mobile device identification information of the mobile device itself by calling the loaded two-dimension code APP application program, the two-dimension code control in the APP application program of the OTA platform or the two-dimension code control in the APP application program special for the hotel.

Generally, in the case that a user authorizes that the APP application of the OTA platform or the APP application specific to the hotel can obtain the mobile device identification information of the mobile device, then no manual operation by the user is needed, and the APP application of the OTA platform or the APP application specific to the hotel can automatically generate the two-dimensional code identification based on the electronic room card information and the mobile device identification information of the mobile device itself and display the two-dimensional code identification.

When a user uses a guest room, the user can arrive at the preset guest room, the mobile device is operated, the generated two-dimensional code identifier is called and displayed, the displayed two-dimensional code identifier is aligned to the guest room two-dimensional code controller corresponding to the guest room, so that the two-dimensional code controller reads electronic room card information and mobile device identifier information in the two-dimensional code identifier of the user, and after the verification is passed, the user can be granted the service authority of using the guest room and the electronic room card information and the mobile device identifier information in the two-dimensional code identifier are associated with the guest room.

In an embodiment, the step of authenticating the two-dimensional code identifier by the two-dimensional controller may include:

and the guest room two-dimensional code controller reads the two-dimensional code identification in the mobile equipment of the user and acquires the electronic room card information and the mobile equipment identification information in the two-dimensional code identification. The mobile equipment identification information is at least one of Wi-Fi information and Bluetooth information.

And the guest room two-dimensional code controller compares, analyzes and judges the acquired electronic house card information with prestored electronic house card information so as to check the validity of the electronic house card information in the two-dimensional code identifier.

And if the check is passed, and the electronic house card information in the two-dimensional code identification is determined to be valid, the guest room two-dimensional code controller generates a corresponding control instruction. For example, the guest room two-dimensional code controller generates a door opening instruction and sends the door opening instruction to a guest room door lock in communication connection with the guest room two-dimensional code controller, so that the guest room door lock opens the door lock according to the received door opening instruction, and at the moment, a user can open the door of the guest room. The guest room two-dimensional code controller generates a room control authorization instruction and sends the room control authorization instruction to a guest room control system in communication connection with the guest room two-dimensional code controller, so that the guest room control system can distribute power in the guest room according to the received room control authorization instruction, and a user can use the power after entering the guest room.

In addition, after the verification is passed, the electronic room card information and the mobile equipment identification information in the two-dimensional code identification can be associated with the guest room.

In some embodiments, associating the electronic room card information and the mobile device identification information in the two-dimensional code identification with the room is performed by a room two-dimensional code controller. For example, after the two-dimensional code controller checks the acquired electronic room card information and the pre-stored electronic room card information and passes the check, the two-dimensional code controller associates the electronic room card information and the mobile device identification information in the two-dimensional code identifier with the guest room, and sends the results of the association of the electronic room card information and the mobile device identification information in the two-dimensional code identifier with the guest room to the processing device of the power control system of the guest room of the hotel.

In some embodiments, associating the electronic room card information and the mobile device identification information in the two-dimensional code identification with the room is performed by a processing device of a power control system of the hotel room. For example, after the two-dimensional code controller checks the acquired electronic room card information and the pre-stored electronic room card information and passes the check, the electronic room card information and the mobile device identification information in the two-dimensional code identifier are sent to the processing device of the power control system of the hotel guest room, or the mobile device identification information in the two-dimensional code identifier is sent to the processing device of the power control system of the hotel guest room (if the electronic room card information is pre-stored in the processing device of the power control system before), and the processing device of the power control system associates the electronic room card information and the mobile device identification information in the two-dimensional code identifier with the guest room.

The step of associating the electronic room card information and the mobile equipment identification information in the two-dimension code identification with the guest room is to associate the electronic room card information and the mobile equipment identification information in the two-dimension code identification with the guest room information of the guest room. The room information of the room includes, but is not limited to, a room number, a room location, and the like.

After the electronic room card information and the mobile equipment identification information in the two-dimensional code identification are associated with the guest room, the guest room associated with the electronic room card information and the mobile equipment identification information can be determined after the mobile equipment identification information of the mobile equipment is acquired, so that the occupancy state of the guest room can be judged according to the wireless access event of the mobile equipment.

Returning to step S11, in the embodiment, on one hand, the door detector disposed at the door lock position of the guest room detects and acquires the door state information of the guest room, and on the other hand, the outside detector disposed outside the guest room detects and acquires the wireless access event of the mobile device associated with the guest room within the specified position range outside the guest room.

And step S13, acquiring the occupancy state of the guest room according to the door state information and the wireless access event of the mobile device.

In an embodiment, said obtaining the occupancy state of the room from the door state information and the wireless access event of the mobile device is performed by a processing device of a power control system of a hotel room. The occupancy state of the guest room includes an occupied state or an unoccupied state, which are respectively used for indicating that the user is in the guest room or the user is not in the guest room.

As described above, in one aspect, the door state information of the guest room is detected and acquired by the door detector disposed at the door lock position of the guest room, and the door detector sends the detected and acquired door state information of the guest room to the processing device of the power control system of the hotel guest room.

On the other hand, a wireless access event of the mobile equipment associated with the guest room within a specified position range outside the guest room is detected and acquired by an outdoor detector arranged outside the guest room, and the outdoor detector sends the detected and acquired wireless access event of the mobile equipment associated with the guest room to a processing device of a power control system of the hotel guest room.

Therefore, the processing equipment of the power control system of the hotel guest room can comprehensively judge the occupancy state of the guest room according to the door state information and the wireless access event of the mobile equipment.

In some cases, if the acquired door status information is detected to be an internal lock status and no wireless access event of the mobile device associated with the guest room is detected, it is determined that the user is in the guest room, and therefore the occupancy status of the guest room is determined to be an occupied status.

In some cases, if the acquired door status information is detected to be in an unlocked state and a wireless access event of a mobile device associated with the guest room is detected, determining may include: 1) the guest room is registered with a plurality of check-in persons, and a user of a mobile device associated with the guest room leaves the guest room, and the occupancy state of the guest room is determined to be an occupied state. 2) The method comprises the steps that only one person who stays in the guest room is a user of the mobile device associated with the guest room, the user leaves the guest room, but temporary foreign people exist in the guest room, and the occupancy state of the guest room is determined to be the occupied state. 3) Judging according to the door state information and the priority of the wireless access event of the mobile device associated with the guest room, for example, if the door state information has higher priority (for example, it is detected that the wireless access event of the mobile device associated with the guest room indicates that the mobile device is on the same floor of the guest room and has a close distance), judging that the user of the mobile device associated with the guest room is in the guest room, and determining that the occupancy state of the guest room is the occupied state. For example, if the priority of the wireless access event of the mobile device associated with the guest room is high (for example, only one person who is a user of the mobile device associated with the guest room is in the guest room, and it is detected that the wireless access event of the mobile device associated with the guest room indicates that the mobile device is far away from the guest room), it is determined that the user of the mobile device associated with the guest room has left the guest room, and it is determined that the occupancy state of the guest room is an unoccupied state.

In some cases, if the door state information obtained by detection is in an external lock state and a wireless access event of the mobile device associated with the guest room is obtained by detection, it is determined that the guest room leaves the guest room, no person exists in the guest room, and it is determined that the occupancy state of the guest room is an unoccupied state.

In some cases, if the obtained door state information is detected to be an external lock state and no wireless access event of the mobile device associated with the guest room is detected, it is determined that the occupancy state of the guest room is an unoccupied state.

Step S15, determining a power control policy for the guest room according to the occupancy state of the guest room.

In an embodiment, the determining of the power control policy of the room according to the occupancy state of the room is performed by a processing device of a power control system of the hotel room. Wherein the power control policy of the guest room includes but is not limited to: continuous power supply, immediate power outage, delayed power outage, and regulation of power for an HAVC system (Heating, Ventilation, Air-conditioning, and Cooling, Heating, Ventilation, and Air-conditioning system), among others.

In some cases, when the processing device determines that the occupancy state of the room is an occupied state, the power control policy employed includes continuously powering the room.

In some cases, when the processing device determines that the occupancy state of the guest room is an unoccupied state, the power control policy pair employed includes: the guest room is powered off instantaneously, powered off with a delay, or the power of the HAVC system is regulated. For example, a light controller in a guest room is controlled to turn off or dim the lights, or an HVAC system is controlled to turn off a heating system, an air conditioning system, or to adjust them to an energy saving mode to save energy.

The application discloses electric control method of hotel guest room, through the door state information that acquires the guest room with the assigned position within range outside the guest room with the wireless access incident of the mobile device that the guest room is concerned, and based on door state information with the wireless access incident of the mobile device that the guest room is concerned confirms the occupation state of guest room is confirmed in view of the above the electric control strategy of guest room can be under the hotel management of realizing exempting from entity electromagnetism room door card, corresponding electric control strategy is implemented according to the occupation state of guest room intelligently, not only improves the utilization efficiency of the energy, and the energy can be saved more can provide more intelligent check-in experience for the user.

Please refer to fig. 6, which is a flowchart illustrating a power control method for hotel rooms according to another embodiment of the present application. As shown in fig. 6, the power control method for hotel rooms in the embodiment includes the following steps:

the power control method for hotel rooms in this embodiment can be applied to the power control system for hotel rooms shown in fig. 2.

Step S61, the door status information of the guest room, the wireless access event of the mobile device associated with the guest room within the specified location range outside the guest room, and the location information of the mobile device are obtained.

Details of the steps of obtaining the door status information of the guest room and obtaining the wireless access event of the mobile device associated with the guest room within the designated location range outside the guest room in step S61 can be found in the description of step S11 and its related steps.

In an embodiment, the step of obtaining the location information of the mobile device is obtaining the location information through location data uploaded by at least one application program loaded on the mobile device.

In some embodiments, at least one application loaded on the mobile device may obtain location information of the mobile device, and send the obtained location information to a processing device in a power control system of a hotel room via an information management service system in the cloud.

In some embodiments, in a case where the user authorizes that the APP application of the OTA platform or the APP application specific to the hotel can obtain the location information of the mobile device, the APP application of the OTA platform or the APP application specific to the hotel can automatically obtain the location information of the mobile device and send the location information to the processing device in the power control system of the hotel room via the information management service system in the cloud.

Step S63, obtaining the occupancy status of the guest room according to the door status information, the wireless access event of the mobile device, and the location information of the mobile device.

In an embodiment, said obtaining the occupancy state of the room from the door state information, the wireless access event of the mobile device, and the location information of the mobile device is performed by a processing device of a power control system of a hotel room. The occupancy state of the guest room includes an occupied state or an unoccupied state, which are respectively used for indicating that the user is in the guest room or the user is not in the guest room.

The door detector detects and acquires door state information of the guest room through the door detector arranged at the position of the guest room door lock, and the door detector sends the door state information of the guest room acquired through detection to the processing equipment of the power control system of the hotel guest room.

The method comprises the steps that a wireless access event of the mobile equipment associated with a guest room within a specified position range outside the guest room is detected and acquired through an outdoor detector arranged outside the guest room, and the detected and acquired wireless access event of the mobile equipment associated with the guest room is sent to a processing device of a power control system of the hotel guest room through the outdoor detector.

The method comprises the steps of sending position information of the mobile device to a processing device of a power control system of a hotel room through at least one application program loaded on the mobile device.

Therefore, the processing equipment of the power control system of the hotel guest room can comprehensively judge the occupancy state of the guest room according to the door state information, the wireless access event of the mobile equipment and the position information of the mobile equipment.

In some cases, when the position information of the mobile device is judged to be the hotel area, the occupancy state of the guest room is obtained according to the door state information and the wireless access event of the mobile device.

The details of obtaining the occupancy status of the guest room according to the door status information and the wireless access event of the mobile device can be found in the foregoing description of step S13.

In some cases, when the position information of the mobile device is not determined to be in the hotel area, the occupancy state of the guest room is obtained as an unoccupied state. In this case, since it can be determined from the location information of the mobile device that it is not in the hotel area, there is no need to consider the door status information and the wireless access event of the mobile device.

Step S65, determining a power control policy for the guest room according to the occupancy state of the guest room.

In an embodiment, the determining of the power control policy of the room according to the occupancy state of the room is performed by a processing device of a power control system of a hotel room. Wherein the power control policy of the guest room includes but is not limited to: continuous power supply, immediate power outage, delayed power outage, and regulation of power for an HAVC system (Heating, Ventilation, Air-conditioning, and Cooling, Heating, Ventilation, and Air-conditioning system), among others.

In some cases, when the processing device determines that the occupancy state of the room is an occupied state, the power control policy employed includes continuously powering the room.

In some cases, when the processing device determines that the occupancy state of the guest room is an unoccupied state, the power control policy pair employed includes: the guest room is powered off instantly, powered off with a delay, or the power of the HAVC system is regulated. For example, a light controller in a guest room is controlled to turn off or turn down the brightness of a light, or an HVAC system is controlled to turn off a heating system, an air conditioning system, or to adjust them to an energy saving mode to save energy.

The application discloses electric control method and electric control system of hotel guest room, through the door state information that acquires the guest room the outside assigned position within range with the wireless access incident of the mobile device that the guest room is concerned and the positional information of mobile device to confirm based on these information the occupation state of guest room is confirmed in view of the above the electric control strategy of guest room can be under the hotel management of realizing exempting from entity electromagnetism room door card, and corresponding electric control strategy is implemented according to the occupation state of guest room intelligently, not only improves the utilization efficiency of the energy, and the energy can be saved more can provide more intelligent experience of registering for the user.

The embodiment of the application further provides a power control system of the hotel guest room. Please refer to fig. 7, which is a schematic structural diagram of an electric power control system for hotel rooms according to an embodiment of the present application. As shown in fig. 7, the power control system 7 includes a door detection module 71, an outdoor detection module 73, a room status detection module 75, and a power control module 77.

The door detection module 71 is used for acquiring door state information of the guest room.

In some implementations, the door detection module 71 obtains the door state information of the guest room by receiving the door state information obtained by detecting the door detector disposed at the door lock position of the guest room.

In some implementations, the door detector may determine a locking state of the door (which may also be referred to as a door state) according to the detected states of the lock tongue, the counter lock knob, and the door handle (which includes an outer door handle and an inner door handle), so as to determine whether a person is in the guest room. Wherein the door state comprises one of an inner lock state (i.e. inner lock), an outer lock state (i.e. outer lock), and an unlocked state.

In some implementations, the door detector further includes a first detection device and a second detection device. The first detection device is arranged on an outside door handle of the guest room door lock and used for detecting the action of the outside door handle, when a user holds the outside door handle and implements the action of the outside door handle, the first detection device is triggered and detects the action of the outside door handle implemented by the user, the locking state of the guest room door is judged, and accordingly, the fact that the user enters the guest room from the outside of the guest room, namely, a person is in the guest room, is judged. The second detection device is arranged on an in-door handle of the guest room door lock and used for detecting the action of the in-door handle, when a user holds the in-door handle and implements the action of the in-door handle, the second detection device is triggered and detects the action of the in-door handle implemented by the user, the locking state (also called as a room door state) of the room door is judged, and accordingly, the user is judged to walk out of the guest room from the guest room and leave the guest room. The door state includes one of an inner lock state (i.e., inner lock) and an outer lock state (i.e., outer lock).

As such, the door detector can send the door state information of the guest room obtained by detection to the door detection module 71.

The out-of-room detection module 73 is configured to obtain wireless access events of mobile devices associated with the guest room within a specified location range outside the guest room.

In an embodiment, the out-of-room detection module 73 obtains the wireless access event of the mobile device associated with the guest room within the specified location range outside the guest room by receiving the wireless access event of the mobile device associated with the guest room detected by the out-of-room detector disposed within the specified location range outside the guest room. The outdoor detector can comprise at least one wireless access device arranged at a designated position of the hotel outside the guest room, and the wireless access event of the mobile device associated with the guest room within the range of the designated position outside the guest room is detected and acquired through the at least one wireless access device.

In an embodiment, the mobile device may include components such as memory, memory controllers, one or more processing units (CPUs), peripheral interfaces, RF circuitry, audio circuitry, speakers, microphones, input/output (I/O) subsystems, display screens, other output or control devices, and external ports, which communicate via one or more communication buses or signal lines. The mobile device includes, but is not limited to, a tablet computer, a smart phone, a Personal Digital Assistant (PDA), a notebook computer, and the like. The mobile device may be configured with a module having a network connection function, such as at least one of a Wi-Fi module and a bluetooth module.

The detecting of the acquired wireless access event of the mobile device associated with the guest room by the out-of-room detector disposed within the designated location range outside the guest room may further comprise:

first, wireless signals of at least one mobile device within a specified location range outside the guest room are acquired.

In an embodiment, the wireless signal of at least one mobile device within a specified location range outside the guest room is detected and acquired by an outside detector disposed outside the guest room. The outdoor detector may include at least one wireless access device disposed at a designated location of the hotel outside the guest room, and the at least one wireless access device detects and acquires a wireless signal of each mobile device within a range of the designated location outside the guest room.

In some embodiments, the wireless access device comprises one or more of a Wi-Fi device and a bluetooth device. The wireless access device can be arranged in a must-pass area or a frequent visiting area of the checked-in user, for example, one or more of a floor corridor, an elevator room, an elevator, a hotel lobby and a hotel entrance and exit of the hotel. Alternatively, if the hotel is configured with other functional facilities, the wireless access device may be disposed at those functional facilities, such as a parking lot, a restaurant, a wine gallery, a conference room, a living room, a fitness room, a garden, etc. of the hotel, for detecting whether a wireless signal from the mobile device exists within a certain range around the hotel and acquiring a wireless signal of the mobile device(s).

In a certain embodiment, the wireless access device is a Wi-Fi device, the deployed at least one Wi-Fi device may acquire a wireless signal sent by at least one mobile device that establishes a Wi-Fi communication connection and obtain Wi-Fi information of the at least one mobile device therefrom, where the Wi-Fi information includes identification information (e.g., an IP address, a MAC address, and the like) of the mobile device, and meanwhile, the at least one Wi-Fi device may determine a location of the at least one mobile device according to a deployed location of the at least one Wi-Fi device and a signal strength of the at least one mobile device that establishes a Wi-Fi communication connection with the at least one Wi-Fi device.

In one embodiment, the wireless access device is a bluetooth device, the at least one bluetooth device may acquire a wireless signal sent by at least one mobile device that establishes a bluetooth communication connection and obtain bluetooth information of the at least one mobile device from the wireless signal, where the bluetooth information includes identification information (e.g., a bluetooth address) of the mobile device, and the at least one bluetooth device may determine a location of the at least one mobile device according to a layout location of the at least one bluetooth device and a signal strength of the at least one mobile device that establishes a bluetooth communication connection with the at least one bluetooth device.

In one embodiment, the wireless access device includes a Wi-Fi device and a bluetooth device, that is, the Wi-Fi device and the bluetooth device are co-located, the Wi-Fi device may obtain identification information (e.g., an IP address, a MAC address, etc.) of at least one mobile device connected to the Wi-Fi device and determine a location of the at least one mobile device according to Wi-Fi signal strength, and the bluetooth device may obtain identification information (e.g., a bluetooth address, etc.) of at least one mobile device connected to the bluetooth device and determine the location of the at least one mobile device according to bluetooth signal strength.

Then, based on the acquired wireless signal of the at least one mobile device, a mobile device associated with the guest room is determined from the at least one mobile device to acquire a wireless access event of the mobile device associated with the guest room.

In an embodiment, the wireless access event includes, but is not limited to, information such as a start time, a signal strength, an end time, data traffic, etc. of the mobile device accessing the wireless access device.

When the wireless access device acquires a wireless signal of at least one mobile device within a specified position range outside a guest room, a mobile device associated with the guest room is determined from the at least one mobile device.

In an embodiment, the mobile device associated with the guest room is associated with the guest room by submitting a two-dimensional code identifier to a guest room two-dimensional code controller, wherein the two-dimensional code identifier comprises electronic room card information and mobile device identification information.

In some embodiments, the two-dimensional code identifier is generated by an application program loaded in the mobile device according to the electronic house card information and the mobile device identification information. The mobile equipment identification information is at least one of Wi-Fi information and Bluetooth information.

The electronic room card information is generated and transmitted to the mobile device of the user through identity verification of the user and based on the identity information and the guest room information of the user after passing the identity verification.

In an embodiment, the power control system for hotel rooms further comprises an electronic room card generating module, wherein the electronic room card generating module is used for generating electronic room card information based on identity information and room information of a user after identity verification is carried out on the user, so that the electronic room card information is sent to mobile equipment of the user.

In an embodiment, the step of generating the electronic house card information may include: obtaining reservation information of a user, and inquiring to obtain matched order information according to the reservation information; acquiring the on-site human face characteristics of a user to check the user identity of order information; and after passing the identity verification of the user, generating electronic room card information based on the identity information of the user and the guest room information.

In an embodiment, a processing device in a power control system of a hotel guest room obtains reservation information of a user and obtains matched order information according to the reservation information query. Wherein the processing device may comprise a computer device loaded with a hospitality management system.

In some embodiments, obtaining the user's reservation information is performed by a hotel employee at a hotel lobby service desk manually entering the information into a processing device. The input information may include, but is not limited to, at least one of: certificate information, communication information (e.g., cell phone number, email address, etc.), order number, name, unit name, etc. The processing equipment can obtain matched order information from a hotel database or an information management service system at the cloud end according to the input information, the order information at least comprises information matched with the input information, and the order information also comprises one or more information of check-in time, room type of a check-in room, other check-in users and the like.

In some embodiments, the manner in which the predetermined information of the user is obtained is performed by a self-service check-in device. The user inputs the reservation information by self through the self-service registration equipment, and the input mode is that at least one of a configured keyboard input module, a handwriting input module and a touch input module or a camera module carries out image shooting and recording, gesture control and the like. The input information may include, but is not limited to, at least one of: the self-service registration device receives the input information and sends the input information to an information management service system of a hotel database or a cloud so as to search from the information management service system of the hotel database or the cloud and obtain matched order information, the order information at least comprises information matched with the input information, and the order information also comprises one or more of check-in time, room type of a check-in room, other check-in users and the like.

The order is ordered by the user's mobile device or other similar means. Taking the mobile device of the user as an example, the mobile device may be loaded with APP applications or electronic devices with a web/website access capability, where the APP applications include applications that traditionally need to be installed separately, and also include applet applications (e.g., a WeChat applet, a Paobao applet, etc.) that can be used without being downloaded and installed. The method comprises the steps that a user browses through an APP (application) program of an OTA (over-the-air) platform, an APP application program proprietary to a hotel, accesses an OTA website or a hotel official website, fills in a hotel reservation order according to own requirements (such as check-in time, the number of rooms, the types of the rooms and the like), receives the hotel reservation order submitted by the user through mobile equipment, confirms whether room resources capable of meeting the hotel reservation order exist in a database, processes the hotel reservation order when the room resources meet the hotel reservation order, feeds back reservation success information to the mobile equipment of the user, and generates corresponding order information.

In an embodiment, a processing device in the power control system of the hotel room obtains the on-site human face feature of the user to verify the user identity of the order information.

Wherein the step of obtaining the on-site human face characteristics of the user to verify the user identity of the order information may comprise: acquiring a field face image of a user and certificate information of the user; uploading the face image and the certificate information to an information management service system at the cloud end, so that the information management system obtains corresponding reservation information from prestored data according to the certificate information and matches the face image with the face characteristics in the reservation information; and receiving a user identity verification result sent by the information management system.

Firstly, a live face image of a user and certificate information of the user are obtained.

In an embodiment, a processing device in a power control system of a hotel room acquires a live face image of a user and certificate information of the user.

And then, uploading the face image and the certificate information to an information management service system at the cloud end, so that the information management system can obtain corresponding reservation information from pre-stored data according to the certificate information and match the face image with the face characteristics in the reservation information.

In an embodiment, a processing device in an electric control system of a hotel guest room uploads the face image and certificate information to an information management service system at a cloud, and the information management system obtains corresponding reservation information from pre-stored data according to the certificate information and matches the face image with face features in the reservation information.

In some embodiments, the manner of matching, by the information management system, the facial image with facial features in the reservation information may include: and extracting the facial features of the user from the facial image, and comparing the facial features with the facial features in the reservation information so as to verify the identity of the user. The facial features of the user in the face image can be extracted through a feature extraction algorithm. The feature extraction algorithm includes, but is not limited to: a method based on geometric features, a method based on template matching, a face recognition method based on wavelet theory, a method based on a support vector machine, a method based on an artificial neural network and the like.

For example, feature data (such as the distance between feature points) is acquired according to the distance description between the facial organ morphology description and the organ in the image, the geometric description of the structural relationship between the local part and the local part is used as the facial feature, then the acquired feature data is compared with the registered facial feature of the living user in the guest room, when the similarity threshold value of the acquired feature data and the registered facial feature exceeds a set threshold value, the verification is passed, and the identity of the user is determined.

And receiving a user identity verification result sent by the information management system.

In an embodiment, a processing device in a power control system of a hotel room receives a user identity verification result sent by the information management system.

In some embodiments, the obtaining of the on-site human face features of the user to check the user identity of the order information is performed by a processing device at a hotel lobby service desk, wherein the processing device comprises a first interface unit for connecting at least one certificate reader (e.g., an identity card reader), and a second interface unit for connecting at least one camera device configured on the hotel site.

The step of obtaining live facial features of the user to verify the user identity of the order information may be performed by a processing device at a hotel lobby service desk may comprise:

the hotel staff operates to place the identity document (such as an identity card) of a user on or close to a document reader (such as an identity card reader), read the document information in the identity document through the document reader, and transmit the document information to the processing equipment.

The hotel staff operates at least one camera device, the at least one camera device is used for acquiring a field face image of a user, and the face image is transmitted to the processing equipment.

And the processing equipment sends the obtained identity document information and the field face image of the user to an information management system at the cloud end, and the information management system obtains corresponding reservation information from prestored data according to the document information and matches the face image with the face characteristics in the reservation information to obtain a user identity verification result.

Receiving, by the processing device, a user identity verification result from the information management system. The user identity verification result may be information that the identity verification passes or fails, but not limited thereto, and the user identity verification result may be a specific value of the user identity verification matching degree, for example, the user identity verification matching degree is 36%, 78%, 90%, and the like.

In some embodiments, the obtaining of the live facial features of the user to verify the user identity of the order information is performed by a self-service registration device, wherein the self-service registration device comprises at least one credential reader and at least one camera in addition to an input device for the user to input information.

The step of obtaining live facial features of the user to verify the user identity of the order information may be performed by a self-service registration device, comprising:

a user places their identity document (e.g., an identification card) on or near a document reader (e.g., an identification card reader) through which document information in the identity document is read.

The user operates at least one camera device or an application program controlled by self-service registration equipment and the at least one camera device is used for acquiring the live face image of the user.

And the self-service registration equipment sends the obtained identity document information and the field face image of the user to an information management system at the cloud end, and the information management system obtains corresponding reservation information from prestored data according to the document information and matches the face image with the face features in the reservation information to obtain a user identity verification result.

Receiving, by the self-service registration device, a user identity verification result from the information management system. The user identity verification result may be information that the identity verification passes or fails, but not limited thereto, and the user identity verification result may be a specific numerical value of the user identity verification matching degree, for example, the user identity verification matching degree is 36%, 78%, 90%, and the like.

The self-service registration equipment can also display the user identity verification result through a configured display screen.

Through self-service registration equipment execution user identity verification, on the one hand, can remove the waiting time that the user handled the hotel affairs in the passenger flow peak period from, can effectively improve hotel and handle affairs efficiency, on the other hand, self-service is handled, ensures individual privacy security, avoids the awkwardness that the user probably produced, promotes user experience.

In this way, after passing the identity verification of the user, the electronic room card information is generated based on the identity information and the guest room information of the user.

In an embodiment, the electronic room card information is generated by a processing device in the power control system of the hotel room based on the identity information of the user and the room information after passing the identity verification of the user.

In some embodiments, the manner in which electronic room card information is generated based on the identity information and room information of the user is performed by a processing device at a hotel lobby service desk.

The step of generating electronic room card information by a processing device at a hotel lobby service desk may include: and the processing equipment generates electronic house card information based on the identity information and the guest room information of the user and sends the electronic house card information to the mobile equipment of the user. The processing device generates electronic room card information based on the identity information of the user and the room information, which may be, for example, identification information for uniquely characterizing the room to be checked, such as a string of identification codes, by a room card authorization application loaded by the processing device.

And the processing equipment sends the generated electronic house card information to the mobile equipment of the user.

The electronic room card information is generated through the processing equipment at the service desk of the hotel lobby, the method has the advantages of being fast and efficient, the loaded room card authorization application program is limited to be used by the hotel, the program system is simple and easy to develop, and the method can be flexibly adjusted according to characteristics of the hotel.

In some implementations, the processing device sends the electronic house card information directly to the mobile device of the user via a short message or the like.

In some implementation manners, the processing device sends the electronic house card information to an information management system at the cloud end, and the information management system at the cloud end sends the electronic house card information to the mobile device of the user through a short message or the like or sends the electronic house card information to the mobile device of the user through pushing in the APP.

In addition, the processing equipment sends the generated electronic room card information to a guest room two-dimensional code controller of a corresponding guest room in the electronic room card information for storage.

In an embodiment, the guest room two-dimensional code controller comprises a two-dimensional code reader, a memory controller, one or more processing units (CPUs), a peripheral interface and the like, and the components communicate through one or more communication buses or signal lines. In some embodiments, the room two-dimensional code controller may further include audio circuitry, speakers, a microphone, an input/output (I/O) subsystem, and a display screen, among others.

The guest room two-dimensional code controller is in communication connection with a guest room control system and a guest room door lock in the guest room. The communication connection mode of the guest room two-dimensional code controller, the guest room control system in the guest room and the guest room door lock can adopt wired communication connection or wireless communication connection. In an exemplary embodiment, the room two-dimensional code controller can access a wireless network based on a communication standard, such as Wi-Fi, 433M wireless network, 3G, 4G, 5G, or a combination thereof. In an exemplary embodiment, the room two-dimensional code controller further facilitates short-range communication through a Near Field Communication (NFC) module, a bluetooth module, a Zigbee module, or a combination thereof.

In some embodiments, each of the room two-dimensional code controllers is associated with a corresponding one of the rooms, the room two-dimensional code controller can be configured beside a door of the room, and the room two-dimensional code controller is in communication connection with a room control system and a room door lock of the room.

In some embodiments, one of the room two-dimensional code controllers can be associated with at least two rooms, for example, the room two-dimensional code controller can be disposed on a wall between two doors of two adjacent rooms, and the room two-dimensional code controller is communicatively connected to the room control systems and the room door locks of the two adjacent rooms.

In some embodiments, the manner in which the electronic room card information is generated based on the identity information and the guest room information of the user is performed by a self-service registration device.

The step of generating electronic house card information by the self-service registration device may comprise: and the self-service registration equipment generates electronic house card information based on the identity information and the guest room information of the user, and sends the electronic house card information to the mobile equipment of the user. The self-service registration device generates electronic room card information based on the identity information of the user and the room information, which may be, for example, identification information for uniquely characterizing the room to be checked in, such as a string of identification codes, by a room card authorization application loaded by the self-service registration device.

The electronic house card information is generated through the self-service registration equipment, the method has the advantages of being fast and efficient, the loaded house card authorization application program is limited to be used by the hotel, and the program system is simple and easy to develop and can be flexibly adjusted according to the characteristics of the hotel.

In some implementations, the self-service registration device sends the electronic house card information directly to the user's mobile device via a short message or the like.

In some implementation manners, the self-service registration device sends the electronic house card information to an information management system at the cloud end, and the information management system at the cloud end sends the electronic house card information to the mobile device of the user through a short message or the like or sends the electronic house card information to the mobile device of the user through pushing in the APP.

In addition, the self-service registration equipment sends the generated electronic house card information to a guest room two-dimensional code controller of a corresponding guest room in the electronic house card information for storage.

In an embodiment, the cloud information management system generates the electronic room card information based on the identity information and the guest room information of the user after passing the identity verification of the user.

The step of generating the electronic house card information through the information management system at the cloud may include: the information management system of the cloud generates electronic house card information based on the identity information and the guest room information of the user, and the electronic house card information is sent to the mobile equipment of the user.

The cloud information management system generates electronic room card information based on the identity information of the user and the room information, wherein the electronic room card information is generated through a room card authorization application program loaded by the cloud information management system, and the room information can be identification information used for uniquely representing a room to be checked in, such as a string of identification codes. The identification code may comprise a plurality of parts, for example, the identification code may comprise at least two parts, AAAA.

In some implementation manners, the information management system at the cloud sends the electronic house card information to the mobile device of the user through a short message or the like or through an in-APP push function.

In addition, the self-service registration equipment sends the generated electronic house card information to a guest room two-dimensional code controller of a corresponding guest room in the electronic house card information for storage.

The electronic house card information is generated through the cloud information management system, unified management can be performed on all hotels, processing capacity of large data volume is achieved, accuracy of all data is guaranteed, coordination capacity of all hotels is improved, and stability of the system is guaranteed.

Therefore, the electronic house card information can be generated based on the identity information and the guest room information of the user, and the electronic house card information is respectively sent to the mobile equipment of the user and the guest room two-dimensional code controller of the corresponding guest room.

The electronic room card information is generated based on the identity information and the guest room information of the user, the defects that an entity electromagnetic door card is not easy to carry, lose and damage in the related technology can be overcome, the use by the user and the hotel management are facilitated, the hotel management efficiency is improved, and the cost is saved.

In an embodiment, the electronic room card information includes at least identity information and guest room information of the user, but not limited thereto, and the electronic room card information may further include one or more of information of a limited term, a check-in date and a departure date of the user, service rights enjoyed by the user, and the like. The service authority at least comprises a guest room use authority, such as a guest room door lock opening authority and a guest room power-taking authority. Alternatively, if the hotel is configured with other functional facilities, the service right may also cover the other functional facilities, for example, the service right may further include service rights of functional facilities such as a parking lot, a restaurant, a wine gallery, a conference room, an activity room, a fitness room, and a garden of the hotel, and the service right may include at least one of information such as a right level, a usage time limit, a usage time period, a usage number, and a usage number.

As described previously, in an embodiment, the mobile device associated with the guest room is associated with the guest room by submitting a two-dimensional code identifier to a guest room two-dimensional code controller, where the two-dimensional code identifier includes electronic room card information and mobile device identification information. Therefore, the method further comprises the step of generating the two-dimensional code identification according to the electronic house card information and the mobile equipment identification information.

In an embodiment, the mobile device identification information is at least one of Wi-Fi information and bluetooth information.

In some embodiments, the step of generating the two-dimensional code identification may be performed by a mobile device of the user. The mobile equipment of the user generates a two-dimension code identifier based on the received electronic room card information and the mobile equipment identifier information of the mobile equipment by calling a loaded two-dimension code APP application program, a two-dimension code control in the APP application program of the OTA platform or a two-dimension code control in the APP application program special for a hotel.

Generally, in the case that a user authorizes that the APP application of the OTA platform or the APP application specific to the hotel can obtain the mobile device identification information of the mobile device, then no manual operation by the user is needed, and the APP application of the OTA platform or the APP application specific to the hotel can automatically generate the two-dimensional code identification based on the electronic room card information and the mobile device identification information of the mobile device itself and display the two-dimensional code identification.

When a user uses a guest room, the user can arrive at the preset guest room, the mobile device is operated, the generated two-dimensional code identifier is called and displayed, the displayed two-dimensional code identifier is aligned to the guest room two-dimensional code controller corresponding to the guest room, so that the two-dimensional code controller reads electronic room card information and mobile device identifier information in the two-dimensional code identifier of the user, after the verification is passed, the user is granted the service authority of using the guest room, and the electronic room card information and the mobile device identifier information in the two-dimensional code identifier are associated with the guest room.

In an embodiment, the step of authenticating the two-dimensional code identifier by the two-dimensional controller may include:

and the guest room two-dimensional code controller reads the two-dimensional code identification in the mobile equipment of the user and acquires the electronic room card information and the mobile equipment identification information in the two-dimensional code identification. The mobile equipment identification information is at least one of Wi-Fi information and Bluetooth information.

And the guest room two-dimensional code controller compares, analyzes and judges the acquired electronic house card information with prestored electronic house card information so as to check the validity of the electronic house card information in the two-dimensional code identifier.

And if the check is passed, and the electronic house card information in the two-dimensional code identification is determined to be valid, the guest room two-dimensional code controller generates a corresponding control instruction. For example, the guest room two-dimensional code controller generates a door opening instruction and sends the door opening instruction to a guest room door lock in communication connection with the guest room two-dimensional code controller, so that the guest room door lock opens the door lock according to the received door opening instruction, and at the moment, a user can open the door of the guest room. The guest room two-dimensional code controller generates a room control authorization instruction and sends the room control authorization instruction to a guest room control system in communication connection with the guest room two-dimensional code controller, so that the guest room control system can distribute power in the guest room according to the received room control authorization instruction, and a user can use the power after entering the guest room.

In addition, after the verification is passed, the electronic room card information and the mobile equipment identification information in the two-dimensional code identification can be associated with the guest room.

In an embodiment, this application hotel guest room's electric control system still includes guest room correlation module, is used for the two-dimensional code sign that guest room two-dimensional code controller discernment user's mobile device shows acquires the electron room card information in the two-dimensional code sign and mobile device identification information and the electron room card information that will acquire and the electron room card information that prestores pass through the check and check, will electron room card information and mobile device identification information with the guest room is correlated.

In some embodiments, the associating the electronic room card information and the mobile device identification information in the two-dimensional code identification with the room is performed by a room two-dimensional code controller, that is, the room associating module is deployed in the room two-dimensional code controller. For example, after the acquired electronic house card information and the pre-stored electronic house card information are verified and passed by the two-dimensional code controller, the electronic house card information and the mobile device identification information in the two-dimensional code identifier are associated with the guest room, and the result of the association of the electronic house card information and the mobile device identification information in the two-dimensional code identifier and the guest room is sent to the processing device of the power control system of the hotel guest room.

In some embodiments, associating the electronic room card information and the mobile device identification information in the two-dimensional code identification with the room is performed by a processing device of a power control system of the hotel room, i.e., the room association module is deployed in the processing device of the power control system of the hotel room. For example, after the two-dimensional code controller checks the acquired electronic room card information and the pre-stored electronic room card information and passes the check, the electronic room card information and the mobile device identification information in the two-dimensional code identifier are sent to the processing device of the power control system of the hotel guest room, or the mobile device identification information in the two-dimensional code identifier is sent to the processing device of the power control system of the hotel guest room (if the electronic room card information is pre-stored in the processing device of the power control system before), and the processing device of the power control system associates the electronic room card information and the mobile device identification information in the two-dimensional code identifier with the guest room.

In an embodiment, the step of associating the electronic room card information and the mobile device identification information in the two-dimensional code identification with the guest room is to associate the electronic room card information and the mobile device identification information in the two-dimensional code identification with the guest room information of the guest room. The room information of the room includes, but is not limited to, a room number, a room location, and the like.

After the electronic room card information and the mobile equipment identification information in the two-dimensional code identification are associated with the guest room, the guest room associated with the electronic room card information and the mobile equipment identification information can be determined after the mobile equipment identification information of the mobile equipment is acquired, so that the occupancy state of the guest room can be judged according to the wireless access event of the mobile equipment.

In the embodiment, on one hand, the door state information of the guest room is obtained by detecting a door detector arranged at a door lock position of the guest room, and on the other hand, the wireless access event of the mobile device associated with the guest room in a specified position range outside the guest room is obtained by detecting an outside detector arranged outside the guest room.

The room state detection module 75 is configured to obtain an occupancy state of the guest room according to the door state information and the wireless access event of the mobile device. The occupancy state of the guest room includes an occupied state or an unoccupied state, which are respectively used for indicating that the user is in the guest room or the user is not in the guest room.

Here, the room state detection module 75 determines whether a person exists in the guest room according to the door state information, and determines whether the user associated with the guest room leaves the room according to the wireless access event of the mobile device, thereby comprehensively determining the occupancy state of the guest room.

As described above, on the one hand, the door state information of the guest room is acquired by the door detection module 71, and the door detection module 71 sends the acquired door state information of the guest room to the room state detection module 75.

On the other hand, the wireless access event of the mobile device associated with the guest room within the specified position range outside the guest room is obtained through the out-of-room detection module 73,

the out-of-room detector sends the detected wireless access event of the mobile device associated with the guest room to the room state detection module 75.

In this way, the room state detection module 75 can comprehensively determine the occupancy state of the guest room according to the door state information and the wireless access event of the mobile device.

In some cases, if the acquired door status information is detected to be an internal lock status and no wireless access event of the mobile device associated with the guest room is detected, it is determined that the user is in the guest room, and therefore the occupancy status of the guest room is determined to be an occupied status.

In some cases, if the acquired door status information is detected to be in an unlocked state and a wireless access event of a mobile device associated with the guest room is detected, determining may include: 1) the guest room is registered with a plurality of check-in persons, and a user of a mobile device associated with the guest room leaves the guest room, and the occupancy state of the guest room is determined to be an occupied state. 2) The method comprises the steps that only one person who stays in the guest room is a user of the mobile device associated with the guest room, the user leaves the guest room, but temporary foreign people exist in the guest room, and the occupancy state of the guest room is determined to be the occupied state. 3) Judging according to the door state information and the priority of the wireless access event of the mobile device associated with the guest room, for example, if the door state information has higher priority (for example, it is detected that the wireless access event of the mobile device associated with the guest room indicates that the mobile device is on the same floor of the guest room and has a close distance), judging that the user of the mobile device associated with the guest room is in the guest room, and determining that the occupancy state of the guest room is the occupied state. For example, if the priority of the wireless access event of the mobile device associated with the guest room is high (for example, only one person who is a user of the mobile device associated with the guest room is in the guest room, and it is detected that the wireless access event of the mobile device associated with the guest room indicates that the mobile device is far away from the guest room), it is determined that the user of the mobile device associated with the guest room has left the guest room, and it is determined that the occupancy state of the guest room is an unoccupied state.

In some cases, if the door state information obtained by detection is in an external lock state and a wireless access event of the mobile device associated with the guest room is obtained by detection, it is determined that the guest room leaves the guest room, no person exists in the guest room, and it is determined that the occupancy state of the guest room is an unoccupied state.

In some cases, if the obtained door state information is detected to be an external lock state and no wireless access event of the mobile device associated with the guest room is detected, it is determined that the occupancy state of the guest room is an unoccupied state.

The power control module 77 is used for determining the power control strategy of the guest room according to the occupancy state of the guest room.

In some cases, when the power control module 77 determines that the occupancy state of the room is an occupied state, the power control strategy employed includes continuously powering the room.

In some cases, when the power control module 77 determines that the occupancy state of the guest room is an unoccupied state, the power control policy pair employed includes: the guest room is powered off instantaneously, off with a delay, or regulates the power of an HAVC system (Heating, Ventilation, Air-conditioning, and Cooling, Heating-Ventilation-and-Air-conditioning system), and the like. For example, a light controller in a guest room is controlled to turn off or turn down the brightness of a light, or an HVAC system is controlled to turn off a heating system, an air conditioning system, or to adjust them to an energy saving mode to save energy.

It should be understood that the power control system of a hotel room disclosed in the embodiment of the present application is used for executing the power control method of the hotel room disclosed in the embodiment shown in fig. 1 or fig. 6 of the present application, and has functional modules corresponding to the method, which implement similar principles and technical effects, and are not described herein again.

In a specific application scenario, the door detection module, the outdoor detection module, the room state detection module, and the power control module may be software modules, and the software modules may be deployed on a server, or a virtual machine on the server, or a container on the server. In addition, the software modules may be deployed on the same server or different servers according to actual needs, which is not limited in this application.

The utility model discloses an electric control system of hotel guest room acquires the door state information of guest room and acquires through outer detection module of room through door detection module the outer assigned position within range of guest room with the mobile device's that the guest room is concerned wireless access incident is based on by room state detection module door state information with the mobile device's that the guest room is concerned wireless access incident is confirmed the occupation state of guest room to make electric control module confirm in view of the above the electric control strategy of guest room can be under the hotel management of realizing exempting from entity electromagnetism room door card, and corresponding electric control strategy is implemented according to the occupation state of guest room intelligently, not only improves the utilization efficiency of the energy, and the energy can be saved more can provide more intelligent check-in experience for the user.

The embodiment of the application also provides a hotel management system. Please refer to fig. 8, which is a schematic structural diagram illustrating a hotel management system according to an embodiment of the present application. As shown in fig. 8, the hospitality management system 8 comprises a memory 801 and a processor 803. The hotel management system is applied to a PMS (permanent magnet system) which is arranged in a hotel, and the memory is in communication connection with the processor.

It will be readily appreciated that the hospitality management system may be implemented by software and hardware contained in a computer device. The computer device may be any computing device with mathematical and logical operations, data processing capabilities, including but not limited to: personal computer equipment, single server, server cluster, distributed server, cloud server, etc.

In some embodiments of the present application, the hotel Management System is, for example, a computerized hotel PMS (Property Management System) System capable of assisting the hotel in business Management and control. The hotel management system comprises at least one computer or server, and in the application, the computer or server of the hotel management system communicates with sensors, wireless access equipment or monitoring equipment and the like arranged in a hotel room, on a door of the hotel room and outside the hotel room such as a hotel corridor, an elevator and a hall, and further communicates with a power control system of the hotel room including a power-taking switch, and the computer or server is used for comprehensively judging the occupancy state of the room through detecting the room detection information of the room and the outdoor detection information outside the room so as to determine the power management strategy of the room.

In some embodiments of the present application, the hotel management system may further be in communication connection with an information management service system in a cloud, and the service end may be arranged on one or more entity servers according to various factors such as functions and loads. When distributed in a plurality of entity servers, the server may be composed of servers based on a cloud architecture. For example, a Cloud-based server includes a Public Cloud (Public Cloud) server and a Private Cloud (Private Cloud) server, wherein the Public or Private Cloud server includes Software-as-a-Service (SaaS), Platform-as-a-Service (PaaS), Infrastructure as a Service (IaaS), and Infrastructure as a Service (IaaS). The private cloud service end is used for example for a Mei Tuo cloud computing service platform, an Array cloud computing service platform, an Amazon cloud computing service platform, a Baidu cloud computing platform, a Tencent cloud computing platform and the like. The server may also be formed by a distributed or centralized cluster of servers. For example, the server cluster is composed of at least one entity server. Each entity server is provided with a plurality of virtual servers, each virtual server runs at least one functional module in the hotel information management service system, and the virtual servers are communicated with each other through a network.

In some embodiments, the memory is, for example, network attached memory accessed via RF circuitry or external ports and a communications network, which may be the internet, one or more intranets, Local Area Networks (LANs), wide area networks (WLANs), Storage Area Networks (SANs), etc., or a suitable combination thereof. The memory controller may control access to the memory by other components of the device, such as the CPU and peripheral interfaces. The memory optionally includes high speed random access memory, and optionally also includes non-volatile memory, such as one or more magnetic disk storage devices, flash memory devices, or other non-volatile solid-state memory devices. Access to the memory is optionally controlled by a memory controller by other components of the device, such as a CPU and peripheral interfaces.

In some embodiments, the Memory may also include Volatile Memory (Volatile Memory), such as Random Access Memory (RAM); the Memory may also include a Non-Volatile Memory (Non-Volatile Memory), such as a Read-Only Memory (ROM), a Flash Memory (Flash Memory), a Hard Disk (HDD), or a Solid-State Drive (SSD).

In some embodiments, the processor includes an integrated circuit chip having signal processing capabilities; or a general purpose processor which may be a microprocessor, or any conventional processor such as a Central Processing Unit (CPU). For example, a Digital Signal Processor (DSP), an Application Specific Integrated Circuit (ASIC), a discrete gate or transistor logic device, a discrete hardware component, and the like, may implement or execute the methods, steps, and logic blocks disclosed in the embodiments of the present application, for example, the power control method described in the embodiments corresponding to fig. 1 or fig. 6 disclosed in the present application: acquiring guest room detection information of guest rooms, wherein the guest room detection information comprises indoor sensing information and/or door state information; acquiring outdoor detection information of a specified position outside the guest room; acquiring the occupancy state of the guest room according to the guest room detection information and the outdoor detection information; the occupied state comprises an occupied state and an unoccupied state; and determining the power control strategy of the guest room according to the occupancy state. The principle and technical effects of the power control method please refer to the foregoing embodiments, which are not described herein.

The present application further provides a computer readable and writable storage medium storing a computer program of a power control method for hotel rooms, where the computer program is executed to implement the power control method for hotel rooms described in the above embodiments with reference to fig. 1 or fig. 6.

The functions, if implemented in the form of software functional units and sold or used as a stand-alone product, may be stored in a computer readable storage medium. Based on such understanding, the technical solution of the present application or portions thereof that substantially contribute to the prior art may be embodied in the form of a software product stored in a storage medium and including instructions for causing a computer device (which may be a personal computer, a server, or a network device) to execute all or part of the steps of the method according to the embodiments of the present application.

In the embodiments disclosed herein, the computer-readable and writable storage medium may comprise read-only memory, random-access memory, EEPROM, CD-ROM or other optical disk storage, magnetic disk storage or other magnetic storage devices, flash memory, a USB flash drive, a removable hard drive, or any other medium that can be used to store desired program code in the form of instructions or data structures and that can be accessed by a computer. Also, any connection is properly termed a computer-readable medium. For example, if the instructions are transmitted from a website, server, or other remote source using a coaxial cable, fiber optic cable, twisted pair, Digital Subscriber Line (DSL), or wireless technologies such as infrared, radio, and microwave, then the coaxial cable, fiber optic cable, twisted pair, DSL, or wireless technologies such as infrared, radio, and microwave are included in the definition of medium. It should be understood, however, that computer-readable-writable storage media and data storage media do not include connections, carrier waves, signals, or other transitory media, but are intended to be non-transitory, tangible storage media. Disk and disc, as used in this application, includes Compact Disc (CD), laser disc, optical disc, Digital Versatile Disc (DVD), floppy disk and blu-ray disc where disks usually reproduce data magnetically, while discs reproduce data optically with lasers.

In one or more exemplary aspects, the functions described in the computer program of the hotel room power control method described herein may be implemented in hardware, software, firmware, or any combination thereof. When implemented in software, the functions may be stored on or transmitted over as one or more instructions or code on a computer-readable medium. The steps of a method or algorithm disclosed herein may be embodied in a processor-executable software module, which may be located on a tangible, non-transitory computer-readable and/or writable storage medium. Tangible, non-transitory computer readable and writable storage media may be any available media that can be accessed by a computer.

The flowcharts and block diagrams in the figures described above of the present application illustrate the architecture, functionality, and operation of possible implementations of systems, methods and computer program products according to various embodiments of the present application. In this regard, each block in the flowchart or block diagrams may represent a module, segment, or portion of code, which comprises one or more executable instructions for implementing the specified logical function(s). It should also be noted that, in some alternative implementations, the functions noted in the block may occur out of the order noted in the figures. For example, two blocks shown in succession may, in fact, be executed substantially concurrently, or the blocks may sometimes be executed in the reverse order, depending upon the functionality involved. It will also be noted that each block of the block diagrams and/or flowchart illustration, and combinations of blocks in the block diagrams and/or flowchart illustration, can be implemented by special purpose hardware-based systems which perform the specified functions or acts, or combinations of special purpose hardware and computer instructions.

The above embodiments are merely illustrative of the principles and utilities of the present application and are not intended to limit the application. Any person skilled in the art can modify or change the above-described embodiments without departing from the spirit and scope of the present application. Accordingly, it is intended that all equivalent modifications or changes which can be made by those skilled in the art without departing from the spirit and technical concepts disclosed in the present application shall be covered by the claims of the present application.

Claims (22)

1. A power control method for hotel rooms is characterized by comprising the following steps:

acquiring door state information of a guest room and acquiring a wireless access event of a mobile device associated with the guest room within a specified position range outside the guest room; the mobile equipment is associated with the guest room by submitting a two-dimensional code identifier to a guest room two-dimensional code controller, wherein the two-dimensional code identifier comprises electronic room card information and mobile equipment identifier information, and the mobile equipment identifier information is at least one of Wi-Fi information and Bluetooth information; the door state in the door state information comprises one of an inner lock state, an outer lock state and an unlocked state; the step of acquiring the wireless access event of the mobile device associated with the guest room in the designated position range outside the guest room comprises the following steps:

acquiring a wireless signal of at least one mobile device within a specified position range outside the guest room;

determining a mobile device associated with the guest room from the at least one mobile device based on the wireless signal,

to obtain a wireless access event for a mobile device associated with the guest room;

acquiring the occupancy state of the guest room according to the door state information and the wireless access event of the mobile equipment; the occupied state comprises an occupied state or an unoccupied state;

and determining the power control strategy of the guest room according to the occupancy state of the guest room.

2. The method of claim 1, wherein the step of the mobile device associating with the guest room by submitting a two-dimensional code identifier to a guest room two-dimensional code controller comprises:

identifying a two-dimensional code identifier displayed by mobile equipment of a user through a guest room two-dimensional code controller associated with a guest room to acquire electronic room card information and mobile equipment identifier information in the two-dimensional code identifier;

and checking the acquired electronic house card information and the pre-stored electronic house card information, and associating the electronic house card information and the mobile equipment identification information with the guest room after the checking is passed.

3. The method according to claim 1, wherein the two-dimensional code identifier is generated by an application loaded in the mobile device according to the electronic room card information and the mobile device identifier information.

4. The power control method of hotel rooms as recited in claim 1, wherein the electronic room card information is generated and transmitted to the mobile device of the user based on the identity information of the user and the room information through identity verification of the user and after passing the identity verification.

5. The method of claim 4, wherein the step of generating electronic room card information comprises:

obtaining reservation information of a user, and inquiring to obtain matched order information according to the reservation information;

acquiring the on-site human face characteristics of the user to check the user identity of the order information;

and after passing the identity verification of the user, generating an electronic room card based on the identity information and the guest room information of the user.

6. The method of claim 5, wherein the step of obtaining the on-site facial features of the user to verify the user identity of the order information comprises:

acquiring a field face image of a user and certificate information of the user;

uploading the face image and the certificate information to an information management service system at the cloud end, so that the information management system obtains corresponding reservation information from prestored data according to the certificate information and matches the face image with face features in the reservation information;

and receiving a user identity verification result sent by the information management system.

7. The method of claim 1, wherein the means for obtaining wireless signals from mobile devices within a specified location range outside the room comprises:

utilizing one or more of Wi-Fi devices and Bluetooth devices disposed at one or more of a hotel's floor corridor, elevator hall, and hotel entrance and exit.

8. The power control method for hotel rooms according to claim 1, further comprising:

acquiring the position information of the mobile equipment;

when the position information of the mobile equipment is judged to be a hotel area, acquiring the occupancy state of the guest room according to the door state information and the wireless access event of the mobile equipment; the occupied state comprises an occupied state or an unoccupied state;

and when the position information of the mobile equipment is judged not to be in the hotel area, acquiring that the occupancy state of the guest room is an unoccupied state.

9. The method of claim 8, wherein the step of obtaining location information of the mobile device comprises: location information is obtained from location data uploaded by at least one application loaded on the mobile device.

10. The method of claim 1 or 8, wherein the step of determining the power control policy for the hotel room based on the occupancy status comprises:

when the occupied state is judged to be the occupied state, continuously supplying power to the guest room; or

And immediately powering off the guest room, delaying power off or adjusting the power of the HAVC system when the occupied state is judged to be the unoccupied state.

11. A power control system for hotel rooms, comprising:

the door detection module is used for acquiring door state information of the guest room; the door state in the door state information comprises one of an inner lock state, an outer lock state and an unlocked state;

the system comprises an outdoor detection module, a wireless access module and a wireless access module, wherein the outdoor detection module is used for acquiring a wireless access event of the mobile equipment associated with the guest room within a specified position range outside the guest room; the mobile equipment is associated with the guest room by submitting a two-dimensional code identifier to a guest room two-dimensional code controller, wherein the two-dimensional code identifier comprises electronic room card information and mobile equipment identifier information; the mobile equipment identification information is at least one of Wi-Fi information and Bluetooth information; the outdoor detection module is used for acquiring a wireless signal of at least one mobile device within a specified position range outside the guest room, and determining the mobile device associated with the guest room from the at least one mobile device according to the wireless signal so as to acquire a wireless access event of the mobile device associated with the guest room;

the room state detection module is used for acquiring the occupancy state of the guest room according to the door state information and the wireless access event of the mobile equipment; the occupied state comprises an occupied state or an unoccupied state;

and the power control module is used for determining a power control strategy of the guest room according to the occupancy state of the guest room.

12. The electrical power control system of hotel guest room of claim 11, further comprising a guest room association module for associating the electronic room card information and the mobile device identification information with the guest room after the guest room two-dimensional code controller recognizes the two-dimensional code identifier displayed by the mobile device of the user to acquire the electronic room card information and the mobile device identification information in the two-dimensional code identifier and checks and passes the acquired electronic room card information and the pre-stored electronic room card information.

13. The electrical power control system of a hotel room of claim 11, wherein the two-dimensional code identification is generated by an application loaded in the mobile device from the electronic room card information and the mobile device identification information.

14. The electrical power control system of hotel rooms as recited in claim 11, further comprising an electronic room card generating module for sending the electronic room card information to the mobile device of the user by performing an identity check on the user and generating the electronic room card information based on the identity information and the room information of the user after passing the identity check.

15. The power control system of a hotel room of claim 11, wherein the room status detection module is further configured to obtain the location information of the mobile device, to obtain whether the occupied status of the room is an occupied status or an unoccupied status according to the door status information and the wireless access event of the mobile device when the location information of the mobile device is determined to be the hotel area, and to obtain whether the occupied status of the room is an unoccupied status when the location information of the mobile device is determined not to be the hotel area.

16. The electrical power control system of a hotel room of claim 15, wherein the means for obtaining the location information of the mobile device is obtaining the location information via location data uploaded by at least one application program loaded on the mobile device.

17. The power control system of a hotel room as recited in claim 11 or claim 15, wherein the power control module is configured to continuously supply power to the room when the occupancy state is determined to be occupied, or to immediately power off, delay power off, or condition power to the HAVC system when the occupancy state is determined to be unoccupied.

18. A power control system for hotel rooms, comprising:

the door detector is used for acquiring door state information of the guest room; the door detector comprises a first detection device arranged on the door lock outer handle and used for detecting the motion of the door opening handle and a second detection device arranged on the door lock inner handle and used for detecting the motion of the door opening handle;

at least one outdoor detector for acquiring wireless access events of mobile devices associated with the guest room within a specified location range outside the guest room; the mobile equipment is associated with the guest room by submitting a two-dimensional code identifier to a guest room two-dimensional code controller, wherein the two-dimensional code identifier comprises electronic room card information and mobile equipment identifier information; the mobile equipment identification information is at least one of Wi-Fi information and Bluetooth information; the outdoor detector comprises at least one wireless access device arranged at a designated position of the hotel;

the processing device is in communication connection with the at least one door detector and the at least one outdoor detector, and is used for obtaining the occupancy state of the guest room according to the door state information and the wireless access event of the mobile device and determining the power control strategy of the guest room according to the occupancy state of the guest room; the occupied state includes an occupied state or an unoccupied state.

19. The power control system of a hotel room of claim 18, wherein the wireless access device comprises one or more of a Wi-Fi device and a bluetooth device disposed at one or more of a floor corridor, an elevator hall, and an entrance and exit of the hotel.

20. The electrical power control system of hotel rooms as recited in claim 18, wherein said processing device comprises a computer device loaded with a hotel management system.

21. A hospitality management system, comprising:

a memory for storing at least one program;

a processor, coupled to the memory, for executing and implementing the method of hotel room power control as recited in any of claims 1-10 when executing the at least one program.

22. A non-transitory storage medium of a computer device, characterized by storing at least one program which, when executed by a processor, executes and implements the power control method of a hotel room as recited in any one of claims 1 to 10.

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