CN112925299A - Smart hotel terminal monitoring method based on big data - Google Patents
Smart hotel terminal monitoring method based on big data Download PDFInfo
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- G05B—CONTROL OR REGULATING SYSTEMS IN GENERAL; FUNCTIONAL ELEMENTS OF SUCH SYSTEMS; MONITORING OR TESTING ARRANGEMENTS FOR SUCH SYSTEMS OR ELEMENTS
- G05B23/00—Testing or monitoring of control systems or parts thereof
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- G05B23/0205—Electric testing or monitoring by means of a monitoring system capable of detecting and responding to faults
- G05B23/0208—Electric testing or monitoring by means of a monitoring system capable of detecting and responding to faults characterized by the configuration of the monitoring system
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Abstract
The invention relates to a smart hotel terminal monitoring method based on big data, which comprises the following steps: the first terminal detection unit of the management subsystem executes first terminal detection on the intelligent hotel terminal, and when the intelligent hotel terminal is abnormal, the second terminal detection unit executes second terminal detection according to first terminal detection results of the abnormal intelligent hotel terminal in other management subsystems to judge whether the intelligent hotel terminal has a first fault. The first cross validation unit executes first cross validation on the intelligent hotel terminal according to intelligent hotel terminal data associated with the first cross validation strategy and the first cross validation strategy, and when the intelligent hotel terminal is abnormal, the second cross validation unit executes second cross validation according to a first cross validation result of the abnormal intelligent hotel terminal in other management subsystems and the second cross validation strategy so as to judge whether a second fault occurs on the intelligent hotel terminal.
Description
Technical Field
The invention relates to the field of big data and smart hotels, in particular to a smart hotel terminal monitoring method based on big data.
Background
With the rapid development of the internet technology, various industries are changed due to the internet, such as the tourism and trip industries, and the internet changes the tourism and trip industries, on the basis, the internet also affects the traditional hotel industry, and the hotel is changed from the traditional mode to the intelligent hotel mode.
The intelligent hotel means that the hotel has a set of perfect intelligent system, realizes the digital information service technology of the hotel through digitalization and networking, and has the applications of the hotel light control system, the hotel air-conditioning control system and the like.
However, as the intelligent hotel terminals in the intelligent hotel system are multiple, the abnormal situation of the intelligent hotel terminals can occur, the normal work of other intelligent hotel terminals can be influenced when the intelligent hotel terminals break down, the fault detection accuracy of the existing intelligent hotel terminals is not high, the false detection situation can occur, and the user experience of hotel clients is influenced to a great extent.
Disclosure of Invention
Aiming at the defects of the prior art, the invention provides a smart hotel terminal fault detection method based on big data, which comprises the following steps:
s1, each management subsystem in the intelligent hotel management system is initialized to obtain system inspection data of each management subsystem; the system view data includes: and the intelligent hotel terminal list, the intelligent hotel terminal reference value list and the cross-validation strategy of the management subsystem.
S2, a first terminal detection unit in the management subsystem executes first terminal detection on the intelligent hotel terminal according to the intelligent hotel terminal reference value and the intelligent hotel terminal data collected by the intelligent hotel terminal.
S3, when the intelligent hotel terminal is abnormal, the second terminal detection unit of the terminal monitoring module executes second terminal detection according to the first terminal detection result of the abnormal intelligent hotel terminal in other management subsystems, judges whether the intelligent hotel terminal has a first fault, and sends the data of the intelligent hotel terminal and the intelligent hotel terminal which have the first fault to the terminal abnormal processing module and the database of the intelligent hotel terminal monitoring platform.
S4, the first cross-validation unit of the management subsystem selects a first cross-validation strategy for the intelligent hotel terminal according to the system inspection data, and executes first cross-validation on the intelligent hotel terminal according to the intelligent hotel terminal data associated with the first cross-validation strategy and the first cross-validation strategy.
S5, when the intelligent hotel terminal is abnormal, the second cross validation unit of the terminal monitoring module executes second cross validation according to the first cross validation result and the second cross validation strategy of the abnormal intelligent hotel terminal in other management subsystems, judges whether the intelligent hotel terminal has a second fault, and sends the data of the intelligent hotel terminal and the intelligent hotel terminal with the second fault to the terminal abnormal processing module and the database of the intelligent hotel terminal monitoring platform.
And S6, the terminal exception handling module processes the fault by using a predefined process, generates a fault report and sends the fault report to hotel management personnel, wherein the fault comprises a first fault and a second fault.
According to a preferred embodiment, step S1 includes:
s1.1, a preprocessing unit in each management subsystem establishes communication connection between the management subsystem and each intelligent hotel terminal in the management subsystem, and predefines an intelligent hotel terminal reference value for each intelligent hotel terminal; the reference value of the intelligent hotel terminal is a numerical range of the intelligent hotel terminal in normal work;
s1.2, predefining a cross validation strategy for each management subsystem by a preprocessing unit according to the polymerization degree between each intelligent hotel terminal in the management subsystem;
and S1.3, analyzing and processing the intelligent hotel terminal, the intelligent hotel terminal reference value and the cross-validation strategy of each management subsystem by the preprocessing unit to obtain system inspection data of each management subsystem, and storing the system inspection data into a database of each management subsystem.
According to a preferred embodiment, the management subsystem comprises: the system comprises a safety management subsystem, a guest room control subsystem, a guest room order subsystem and a member order subsystem.
According to a preferred embodiment, step S4 includes:
s4.1, selecting a first cross validation strategy for the intelligent hotel terminal by the first cross validation unit according to the system inspection data;
s4.2, the first cross validation unit acquires smart hotel terminal data associated with the first cross validation strategy, and executes first cross validation according to the first cross validation strategy and the smart hotel terminal data to obtain a first cross validation result;
and S4.3, the first cross validation unit judges whether the intelligent hotel terminal is abnormal or not based on the first cross validation result, and stores the abnormal intelligent hotel terminal, the intelligent hotel terminal data and the first cross validation strategy in a database of the management subsystem.
According to a preferred embodiment, the first terminal detection unit compares the terminal data of the smart hotel with a terminal reference value of the smart hotel and determines whether the terminal of the smart hotel is abnormal.
According to a preferred embodiment, the second terminal detection is that the second terminal detection unit obtains a first fault identification value according to a first terminal detection result of the abnormal intelligent hotel terminal in the other management subsystem, compares the first fault identification value with a first fault threshold value, and when the first fault identification value is greater than the first fault threshold value, the intelligent hotel terminal has a first fault; the first fault threshold is set according to user requirements.
According to a preferred embodiment, the cross-validation strategy is used for cross-validating each smart hotel terminal according to the polymerization degree between the smart hotel terminals of the management subsystem; the first cross-validation strategy is a cross-validation strategy related to the detected intelligent hotel terminal in the cross-validation strategies.
According to a preferred embodiment, the second cross validation is that the second cross validation unit obtains a second fault identification value according to a first cross validation result of the abnormal intelligent hotel terminal in the other management subsystem and a second cross validation policy, compares the second fault identification value with a second fault threshold value, and when the second fault identification value is greater than the second fault threshold value, the intelligent hotel terminal has a second fault; the second fault threshold value is set according to the requirements of a user; the second cross validation strategy is predefined by the second cross validation units according to the polymerization degree among the management subsystems.
According to a preferred embodiment, if the second terminal detects that no fault is found, the second terminal detecting unit determines that the first terminal is abnormal in the detecting process, and sends a feedback message of the abnormal detection of the first terminal to the corresponding management subsystem.
According to a preferred embodiment, if the second cross validation process does not find a fault, the second cross validation unit determines that the first cross validation process is abnormal, and sends a feedback message of the first cross validation abnormality to the corresponding management subsystem.
According to a preferred embodiment, step S3 further includes: the second terminal detection unit calculates a first fault identification value according to a first terminal detection result of the abnormal intelligent hotel terminal in the other management subsystems,
wherein s is a first fault identification value, n is the number of management subsystems related to the intelligent hotel terminal, i is an index of the management subsystems, and r isiA first terminal detection result u of the intelligent hotel terminal in the ith management subsystemiAnd identifying the fault coefficient of the intelligent hotel terminal in the ith management subsystem.
The invention has the following beneficial effects:
according to the invention, whether the intelligent hotel terminal has a fault is detected through double terminal verification, so that the fault detection accuracy of the intelligent hotel terminal is greatly improved, the first terminal detection process is reversely detected through second terminal detection, the abnormal first terminal detection process is timely processed, and the fault misjudgment condition caused by the abnormal first terminal detection process is avoided. In addition, the invention executes double cross validation on the intelligent hotel terminal, executes first cross validation through the polymerization degree of the intelligent hotel terminal among the management subsystems, and executes second cross validation on the terminal with abnormal first cross validation, thereby greatly improving the accuracy of the cross validation.
Drawings
Fig. 1 is a flowchart of a big data-based smart hotel terminal fault detection method according to an exemplary embodiment;
fig. 2 is a block diagram of a smart hotel terminal fault detection system for implementing the method of the present invention according to an exemplary embodiment;
fig. 3 is a block diagram of a management subsystem according to an exemplary embodiment.
Detailed Description
Reference will now be made in detail to the exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, like numbers in different drawings represent the same or similar elements unless otherwise indicated. The embodiments described in the following exemplary embodiments do not represent all embodiments consistent with the present invention. Rather, they are merely examples of apparatus and methods consistent with certain aspects of the invention, as detailed in the appended claims.
The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used in this specification and the appended claims, the singular forms "a", "an", and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise. It should also be understood that the term "and/or" as used herein refers to and encompasses any and all possible combinations of one or more of the associated listed items.
It is to be understood that although the terms first, second, third, etc. may be used herein to describe various information, these information should not be limited to these terms. These terms are only used to distinguish one type of information from another. For example, first information may also be referred to as second information, and similarly, second information may also be referred to as first information, without departing from the scope of the present invention. The word "if" as used herein may be interpreted as "at … …" or "when … …" or "in response to a determination", depending on the context.
Referring to fig. 1, in one embodiment, a big data based smart hotel terminal fault detection method may include:
s1, each management subsystem in the intelligent hotel management system is initialized to obtain system inspection data of each management subsystem; the system inspection data is used for detecting whether the intelligent hotel terminal has a fault; the system view data includes: and the intelligent hotel terminal list, the intelligent hotel terminal reference value list and the cross-validation strategy of the management subsystem.
Optionally, the smart hotel terminal list of the management subsystem is a terminal name and terminal identification information of the smart hotel terminal included in the management subsystem; the intelligent hotel terminal reference value list is a reference value and a corresponding terminal name of each intelligent hotel terminal in the management subsystem.
Preferably, the management subsystem includes, but is not limited to, a security management subsystem, a room control subsystem, a room ordering subsystem, and a member ordering subsystem.
Preferably, the intelligent hotel terminal is various terminal devices which are deployed in the hotel environment to realize the application function of the intelligent hotel and provide the intelligent hotel service in a coordinated manner, and the terminal devices comprise a door lock, a television, a refrigerator, an air conditioner, a lamp, a curtain, a temperature sensor, a humidity sensor, a harmful gas sensor, a sound sensor, an image sensor, an alarm, a smoke sensor and a fire alarm.
According to the intelligent hotel management system and the intelligent hotel management method, each intelligent hotel terminal in the intelligent hotel management system is detected through system inspection data, and when the intelligent hotel terminal breaks down, a predefined process is used or a manager is informed to solve the fault. The situations that the guest check-in experience is poor and the personal safety of the guest and hotel workers is affected due to the fact that the intelligent hotel terminal fault cannot be found and solved in time are avoided.
Specifically, step S1 includes:
s1.1, the preprocessing units in the management subsystems establish communication connection between the management subsystems and the intelligent hotel terminals in the management subsystems, and pre-define intelligent hotel terminal reference values for the intelligent hotel terminals.
Preferably, the intelligent hotel terminal reference value is used for executing first terminal detection on the intelligent hotel terminal, and each intelligent hotel terminal reference value is a value range of each intelligent hotel terminal effective in normal working.
Preferably, the different management subsystems comprise different intelligent hotel terminals. Specifically, hotel management personnel set up the wisdom hotel terminal that each management subsystem contains to set up the identification information of wisdom hotel terminal in the management subsystem, preprocessing unit establishes communication connection with wisdom hotel terminal according to identification information, and the wisdom hotel terminal data of wisdom hotel terminal collection are transmitted through communication connection, the identification information of wisdom hotel terminal is used for carrying out unique sign to wisdom hotel terminal.
Preferably, the guest room control subsystem comprises intelligent hotel terminals such as door locks, televisions, refrigerators, air conditioners, lamps, curtains, humidifiers, temperature sensors and humidity sensors.
S1.2, the preprocessing unit predefines cross-validation strategies for each management subsystem according to the polymerization degree between intelligent hotel terminals in the management subsystem.
Preferably, the cross-validation strategy is used for cross-validating each intelligent hotel terminal according to the polymerization degree between the intelligent hotel terminals in the management subsystem.
Preferably, the polymerization degree is a degree of mutual influence of the smart hotel terminals, and may be preset or calculated by a computer according to a certain rule.
And S1.3, analyzing and processing the intelligent hotel terminal, the intelligent hotel terminal reference value and the cross-validation strategy of each management subsystem by the preprocessing unit to obtain system inspection data of each management subsystem, and storing the system inspection data into a database of each management subsystem.
S2, a first terminal detection unit in the management subsystem executes first terminal detection according to the intelligent hotel terminal reference value and the intelligent hotel terminal data collected by the intelligent hotel terminal, judges whether the intelligent hotel terminal is abnormal or not according to a first terminal detection result, and sends the abnormal intelligent hotel terminal and the abnormal intelligent hotel terminal data to a terminal monitoring module; the reference value of the intelligent hotel terminal is the numerical range of the intelligent hotel terminal in normal working.
Preferably, the first terminal detection unit compares the terminal data of the smart hotel with the reference value of the terminal of the smart hotel to obtain a first terminal detection result, and judges whether the terminal of the smart hotel is abnormal or not according to the first terminal detection result. For example, if the terminal data of the smart hotel exceeds the terminal reference value of the smart hotel, the terminal of the smart hotel is judged to be abnormal.
Optionally, the reference value of the air conditioner is 16-30 degrees, and if the first terminal detection unit in the guest room control subsystem receives data sent by a certain air conditioner and displays that the current operating temperature of the air conditioner is 40 degrees, at this time, the first terminal detection unit in the guest room control subsystem compares the reference value of the air conditioner with the operating temperature sent by the air conditioner to find that the operating temperature of the air conditioner exceeds the reference value of the air conditioner, and then the first terminal detection unit judges that the air conditioner is abnormal.
Preferably, the intelligent hotel terminal with the abnormity and the intelligent hotel terminal data are stored in a database of the management subsystem.
S3, a second terminal detection unit of the terminal monitoring module executes second terminal detection according to a first terminal detection result of the abnormal intelligent hotel terminal in other management subsystems, judges whether the intelligent hotel terminal has a first fault according to the second terminal detection result, and sends the data of the intelligent hotel terminal and the intelligent hotel terminal with the first fault to a database of the intelligent hotel terminal monitoring platform.
Preferably, the second terminal detection unit obtains a first fault identification value according to a first terminal detection result of the abnormal smart hotel terminal in the other management subsystems, compares the first fault identification value with a first fault threshold value, and determines that the smart hotel terminal has a first fault when the first fault identification value is greater than the first fault threshold value. The first failure threshold is set according to the requirement of a user, and the threshold can be percentage or numerical value.
Specifically, the obtaining, by the second terminal detection unit, the first fault identification value according to the first terminal detection result of the abnormal smart hotel terminal in the other management subsystem includes:
the second terminal detection unit obtains a first fault detection vector of the abnormal intelligent hotel terminal according to a first terminal detection result of the abnormal intelligent hotel terminal in the other management subsystems
R=[r1,r2,…,rn]
Wherein r isnThe method comprises the steps that a first terminal detection result of the intelligent hotel terminal in the nth management subsystem is represented by numerical values 0 and 1, the first terminal detection result is 0 and represents that no abnormity occurs, if the first terminal detection result is 1, abnormity occurs, n is the number of management subsystems related to the intelligent hotel terminal, and the numerical value of n is smaller than or equal to the number of the management subsystems in the intelligent hotel management system.
A second terminal detection unit acquires a first fault coefficient vector of the abnormal intelligent hotel terminal
U=[u1,u2,…,un]
Wherein n is the number of management subsystems related to the intelligent hotel terminal, unAnd identifying the fault coefficient of the intelligent hotel terminal in the nth management subsystem.
The second terminal detecting unit calculates a first failure identification value s based on the first failure detection vector and the first failure coefficient vector,
wherein n is the number of management subsystems related to the intelligent hotel terminal, i is the index of the management subsystems, riA first terminal detection result u of the intelligent hotel terminal in the ith management subsystemiAnd identifying the fault coefficient of the intelligent hotel terminal in the ith management subsystem.
The second terminal detection unit obtains a first fault identification value according to the first terminal detection result of the abnormal intelligent hotel terminal in other management subsystems to judge whether the intelligent hotel terminal has a first fault, fault detection is carried out on the same intelligent hotel terminal by combining the detection results of the multiple management subsystems, the accuracy of fault detection is greatly improved, and the condition of fault misinformation caused by the fault of the management subsystem is also avoided.
Optionally, when a first terminal detection is performed on a certain air conditioner in the guest room control subsystem, the air conditioner is found to be abnormal, the first terminal detection unit sends identification information of the air conditioner with the abnormal detection and temperature data collected by the air conditioner to the second terminal detection unit, the second terminal detection unit receives first terminal detection results of the air conditioner in other management subsystems according to the identification information of the air conditioner, the second terminal detection unit performs a second terminal detection on the first terminal detection results of the air conditioner according to the received other management subsystems to obtain a first fault identification value, the first fault identification value may be a probability value that the air conditioner is abnormal when performing a first terminal verification in other management systems, and the first fault identification value is compared with a preset first fault threshold value, and when the first fault identification value is larger than the first fault threshold value, judging that the air conditioner has a first fault.
Optionally, if no fault is detected by the second terminal, the second terminal detecting unit determines that the first terminal is abnormal in the detecting process and sends a feedback message indicating that the first terminal is abnormal in the detecting process to the corresponding management subsystem, and the management subsystem performs inspection and repair on software and hardware related to the detecting process of the first terminal according to the feedback message.
According to the invention, whether the intelligent hotel terminal has the first fault is detected through double terminal detection, so that the accuracy of the first fault detection of the intelligent hotel terminal is greatly improved, the first terminal detection process is reversely detected through second terminal detection, and when the first terminal detection process is abnormal, a feedback message of the abnormality of the first terminal detection process is timely sent to the corresponding management subsystem for abnormal processing, so that the condition that the accuracy of the terminal fault detection is reduced due to the abnormality of the first terminal detection process is avoided.
S4, selecting a first cross validation strategy for the intelligent hotel terminal according to the system inspection data by a first cross validation unit of the management subsystem, executing first cross validation on the intelligent hotel terminal according to the intelligent hotel terminal data associated with the first cross validation strategy and the first cross validation strategy, judging whether the intelligent hotel terminal is abnormal according to a first cross validation result, and sending the abnormal intelligent hotel terminal and the abnormal intelligent hotel terminal data to the terminal monitoring module.
Specifically, S4 includes:
s4.1, selecting a first cross validation strategy for the intelligent hotel terminal by the first cross validation unit according to the system inspection data;
s4.2, the first cross validation unit obtains smart hotel terminal data associated with the first cross validation strategy, and executes first cross validation according to the first cross validation strategy and the smart hotel terminal data to obtain a first cross validation result;
and S4.3, the first cross validation unit judges whether the intelligent hotel terminal is abnormal or not based on the first cross validation result, and stores the abnormal intelligent hotel terminal, the intelligent hotel terminal data and the first cross validation strategy in a database of the management subsystem.
The cross-validation strategy is used for cross-validating each intelligent hotel terminal according to the polymerization degree between the intelligent hotel terminals of the management subsystem; the first cross-validation strategy is a cross-validation strategy related to the detected intelligent hotel terminal in the cross-validation strategies.
Optionally, the first cross validation unit performs a first cross validation on the electricity meter in the guest room control subsystem, and selects a first cross validation policy for the guest room electricity meter according to the system inspection data of the guest room control subsystem, for example, the cross validation policy for the guest room electricity meter is that the air conditioner, the television and the refrigerator perform cross validation, when the air conditioner, the television and the refrigerator are not in operation, the guest room electricity meter indicates that the electricity consumption of the guest room is very high, which indicates that the guest room electricity meter is abnormal, and at this time, the identification information of the guest room electricity meter, the data of the guest room electricity meter and the first cross validation policy which are abnormal are stored in the database.
S5, executing second cross validation by a second cross validation unit of the terminal monitoring module according to a first cross validation result and a second cross validation strategy of the abnormal intelligent hotel terminal in other management subsystems, judging whether a second fault occurs in the intelligent hotel terminal according to the second cross validation result, and sending the data of the intelligent hotel terminal and the intelligent hotel terminal with the second fault to a database of the intelligent hotel terminal monitoring platform.
Specifically, the second cross validation is that the second cross validation unit obtains a second fault identification value according to a first cross validation result and a second cross validation policy of the abnormal smart hotel terminal in the other management subsystems, compares the second fault identification value with a second fault threshold value, and determines that the smart hotel terminal has a second fault when the second fault identification value is greater than the second fault threshold value.
Optionally, the second failure threshold is set according to a user requirement; the second cross validation strategy is predefined by the second cross validation units according to the polymerization degree among the management subsystems.
In one embodiment, when a first cross validation is performed on a certain room electric meter in a room control subsystem, the room electric meter is found to be abnormal, the first cross validation unit sends identification information of the room electric meter with the abnormal detection and electricity consumption data collected by the room electric meter to a second cross validation unit, the second cross validation unit receives a first cross validation result of the room electric meter in other management subsystems according to the identification information of the room electric meter, the second cross validation unit performs a second cross validation on the first cross validation result of the room electric meter according to the received other management subsystems to obtain a second fault identification value, the second fault identification value can be a probability value that the room electric meter is abnormal when the first cross validation is performed in other management systems, the second fault identification value is compared with a preset second fault threshold value, and when the second fault identification value is larger than the second fault threshold value, and judging that the air conditioner has a second fault.
If the second cross validation fails, the second cross validation unit judges that the first cross validation process is abnormal and sends a feedback message of the first cross validation abnormality to the corresponding management subsystem, and the management subsystem checks and repairs the software hardware related to the first terminal detection process according to the feedback message.
According to the invention, whether the intelligent hotel terminal has the second fault is detected through double cross validation, the accuracy of the second fault detection of the intelligent hotel terminal is greatly improved, the cross validation process of the first end is reversely detected through the second cross validation, and when the first cross validation process is abnormal, a feedback message of the abnormality of the first cross validation process is timely sent to the corresponding management subsystem for abnormal processing, so that the situation that the accuracy of the second fault detection of the terminal is reduced due to the abnormality of the first cross validation process is avoided.
And S6, the intelligent hotel terminal which is about to have the first fault or the second fault processes the fault by using a predefined process, generates a fault report and sends the fault report to the hotel management personnel. The fault report includes the type of fault that occurred, the cause of the fault, etc.
Preferably, a communication connection exists between the management subsystems in the intelligent hotel management system.
According to the invention, whether the intelligent hotel terminal has a fault is detected through double terminal verification, so that the fault detection accuracy of the intelligent hotel terminal is greatly improved, the first terminal detection process is reversely detected through second terminal detection, the abnormal first terminal detection process is timely processed, and the fault misjudgment condition caused by the abnormal first terminal detection process is avoided. In addition, the invention executes double cross validation on the intelligent hotel terminal, executes first cross validation through the polymerization degree of the intelligent hotel terminal among the management subsystems, and executes second cross validation on the terminal with abnormal first cross validation. The accuracy of cross validation is greatly improved.
Referring to fig. 2, in an embodiment, the smart hotel terminal fault detection system includes a smart hotel management system, a smart hotel terminal monitoring system, and a smart hotel terminal, where the smart hotel management system, the smart hotel terminal monitoring system, and the smart hotel terminal have communication connections respectively;
the intelligent hotel terminal is various terminal devices which are deployed in the hotel environment to realize the application function of the intelligent hotel and provide the intelligent hotel service in a coordinated mode, and comprises a door lock, a television, a refrigerator, an air conditioner, a lamp, a curtain, a temperature sensor, a humidity sensor, a harmful gas sensor, a sound sensor, an image sensor, an alarm, a smoke sensor and a fire alarm.
Management subsystems include, but are not limited to, a security management subsystem, a room control subsystem, a room ordering subsystem, and a member ordering subsystem.
The management subsystem is used for executing first terminal detection on the intelligent hotel terminal according to the intelligent hotel terminal reference value and the intelligent hotel terminal data collected by the intelligent hotel terminal.
The management subsystem is used for executing first cross-validation on the intelligent hotel terminals according to the intelligent hotel terminal data associated with the first cross-validation strategy and the first cross-validation strategy.
Wisdom hotel terminal monitoring system includes: the system comprises a terminal monitoring module, a terminal exception handling module and a database.
The terminal monitoring module is configured to execute second terminal detection according to a first terminal detection result of the abnormal intelligent hotel terminal in the other management subsystems so as to judge whether a first fault occurs to the intelligent hotel terminal.
And the terminal monitoring module is configured to execute second cross-validation according to the first cross-validation result and the second cross-validation strategy of the abnormal intelligent hotel terminal in the other management subsystem so as to judge whether a second fault occurs to the intelligent hotel terminal.
The terminal exception handling module is configured to handle the fault using a predefined process and generate a fault report, and then send the fault report to hotel management personnel, the fault including the first fault and the second fault.
Referring to fig. 3, in one embodiment, the management subsystem includes: the system comprises a preprocessing unit, a first terminal detection unit, a first cross validation unit and a database.
The preprocessing unit is configured to establish communication connection between the management subsystem and each intelligent hotel terminal in the management subsystem, and predefine intelligent hotel terminal reference values for each intelligent hotel terminal.
The preprocessing unit is further configured to predefine a cross-validation strategy for each management subsystem according to the polymerization degree between each intelligent hotel terminal in the management subsystem, and process the cross-validation strategy and the intelligent hotel terminal reference value to obtain system inspection data.
The first terminal detection unit is configured to compare the smart hotel terminal data with the smart hotel terminal reference value to determine whether the smart hotel terminal is abnormal.
The first cross-validation unit is configured to select a first cross-validation policy for the smart hotel terminal based on the system inspection data and perform a first cross-validation based on the first cross-validation policy and associated smart hotel terminal data to determine whether the smart hotel terminal is abnormal.
In one embodiment, the terminal monitoring module includes: a second terminal detection unit and a second cross validation unit.
The second terminal detection unit is configured to execute second terminal detection according to the first terminal detection result of the abnormal intelligent hotel terminal in the other management subsystem so as to judge whether the intelligent hotel terminal has a first fault.
The second cross-validation unit is configured to execute second cross-validation according to the first cross-validation result of the abnormal intelligent hotel terminal in the other management subsystem and a second cross-validation strategy to judge whether a second fault occurs to the intelligent hotel terminal.
The above description is only for the specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present invention, and all the changes or substitutions should be covered within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.
Claims (9)
1. A smart hotel terminal monitoring method based on big data is characterized by comprising the following steps:
initializing each management subsystem in the intelligent hotel management system to obtain system inspection data of each management subsystem; the system inspection data comprises a smart hotel terminal list of the management subsystem, a smart hotel terminal reference value list and a cross-validation strategy; the management subsystem includes: the system comprises a safety management subsystem, a guest room control subsystem, a guest room order subsystem and a member order subsystem;
a first terminal detection unit of the management subsystem executes first terminal detection on the intelligent hotel terminal according to the intelligent hotel terminal reference value and the intelligent hotel terminal data collected by the intelligent hotel terminal, and then judges whether the intelligent hotel terminal is abnormal or not according to a first terminal detection result;
when the intelligent hotel terminal is abnormal, the data of the abnormal intelligent hotel terminal and the abnormal intelligent hotel terminal are sent to a terminal monitoring module;
a second terminal detection unit of the terminal monitoring module executes second terminal detection according to a first terminal detection result of the abnormal intelligent hotel terminal in other management subsystems so as to judge whether the intelligent hotel terminal has a first fault;
a first cross validation unit of the management subsystem selects a first cross validation strategy for the intelligent hotel terminal according to the system inspection data, and executes first cross validation on the intelligent hotel terminal according to intelligent hotel terminal data associated with the first cross validation strategy and the first cross validation strategy;
when the intelligent hotel terminal is abnormal, a second cross validation unit of the terminal monitoring module executes second cross validation according to a first cross validation result and a second cross validation strategy of the abnormal intelligent hotel terminal in other management subsystems so as to judge whether a second fault occurs in the intelligent hotel terminal;
and the terminal exception handling module processes the fault by using a predefined process and generates a fault report, and then sends the fault report to hotel management personnel.
2. The method of claim 1, wherein the smart hotel terminal is a terminal device deployed in a hotel environment to implement smart hotel application functions and cooperatively provide smart hotel services, and the terminal device comprises a door lock, a television, a refrigerator, an air conditioner, a lamp, a curtain, a temperature sensor, a humidity sensor, a smoke sensor, a fire alarm, and the like.
3. The method of claim 1 or 2, wherein initializing each management subsystem in the intelligent hotel management system to obtain system view data of each management subsystem comprises:
the preprocessing unit of each management subsystem establishes communication connection between the management subsystem and each intelligent hotel terminal in the management subsystem, and predefines a intelligent hotel terminal reference value for each intelligent hotel terminal; the reference value of the intelligent hotel terminal is a numerical range of the intelligent hotel terminal in normal work;
the preprocessing unit predefines cross-validation strategies for each management subsystem according to the polymerization degree between the intelligent hotel terminals in the management subsystem;
and the preprocessing unit analyzes and processes the intelligent hotel terminal, the intelligent hotel terminal reference value and the cross-validation strategy of each management subsystem to obtain system inspection data of each management subsystem and stores the system inspection data into a database of each management subsystem.
4. The method of claim 3, wherein the first cross-validation unit selects a first cross-validation policy for the smart hotel terminal based on the system view data;
a first cross validation unit acquires smart hotel terminal data associated with the first cross validation strategy and executes first cross validation according to the first cross validation strategy and the smart hotel terminal data to obtain a first cross validation result;
and the first cross validation unit judges whether the intelligent hotel terminal is abnormal or not according to the first cross validation result, and stores the abnormal intelligent hotel terminal, the intelligent hotel terminal data and the first cross validation strategy in a database of the management subsystem.
5. The method of claim 4, wherein the first terminal detection is that the first terminal detection unit compares the smart hotel terminal data with a smart hotel terminal reference value to determine whether the smart hotel terminal is abnormal.
6. The method according to one of claims 1 to 5, wherein the second terminal detection is that the second terminal detection unit obtains a first failure evaluation value according to the first terminal detection result of the abnormal wisdom hotel terminal in the other management subsystem, and compares the first failure evaluation value with a first failure threshold value.
7. The method of claim 6, wherein the second terminal detecting unit calculates a first failure identification value according to the first terminal detecting result of the abnormal intelligent hotel terminal in the other management subsystem,
wherein s is a first fault identification value, n is the number of management subsystems related to the intelligent hotel terminal, i is an index of the management subsystems, and r isiA first terminal detection result u of the intelligent hotel terminal in the ith management subsystemiAnd identifying the fault coefficient of the intelligent hotel terminal in the ith management subsystem.
8. The method of claim 7, wherein the second cross-validation is that the second cross-validation unit obtains a second fault identification value according to the first cross-validation result of the abnormal intelligent hotel terminal in the other management subsystem and the second cross-validation policy, and compares the second fault identification value with a second fault threshold value.
9. The method of claim 8, wherein when the second cross-validation fails, the second cross-validation unit determines that the first cross-validation process is abnormal and sends a feedback message of the abnormality of the first cross-validation to the corresponding management subsystem.
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