WO2018137079A1

WO2018137079A1 - Big data- and robot-based gas leak alarm method and system

Info

Publication number: WO2018137079A1
Application number: PCT/CN2017/072350
Authority: WO
Inventors: 万忠凯
Original assignee: 深圳双创科技发展有限公司
Priority date: 2017-01-24
Filing date: 2017-01-24
Publication date: 2018-08-02

Abstract

A big data- and robot-based gas leak alarm method and system. The present invention is characterized in that: an alarm server acquires a measured gas concentration within each of registered residential buildings in a city, the measured gas concentration being reported by said residential building via an Internet of Things; with respect to each of the residential buildings, if said residential building is determined to have a gas leak in an elevator thereof according to the measured gas concentration therein, a linear distance between position information of each of loudspeaker apparatuses registered in the city and position information of said residential building is computed; and if it is determined that the loudspeaker apparatuses have a target loudspeaker apparatus having a distance to the position information of said residential building less than a specified threshold, then gas leak alarm voice data including the position information and a building name of said residential building having a gas leak is sent to the target loudspeaker apparatus and a monitoring station for playback. The present invention enables a gas leak within a residential building to be recognized in a timely manner, thus preventing serious safety accidents.

Description

Natural gas leakage alarm method and system based on big data and robot

Technical field

The invention relates to the technical field of Internet of things, in particular to a natural gas leakage alarm method and system based on big data and a robot.

Background technique

With the rapid development of urban construction and economic construction, the general improvement of people's living standards and the development of the petrochemical industry, especially since the West-East Gas Pipeline Project was put into operation, natural gas has become the leading energy of urban gas since it is a high-quality and efficient clean energy source. The gas source promotes social and economic development and reduces environmental pollution. In the cities, due to the increasing number of residential buildings using natural gas, the scope is becoming wider and wider. Once natural gas leakage accidents occur in residential buildings, especially in the case of natural gas leakage accidents in residential buildings in the middle of the night, it is often easy to cause serious safety accidents.

Summary of the invention

The embodiment of the invention discloses a natural gas leakage alarm method and system based on big data and a robot, which can enable the outside world to know the natural gas leakage inside a residential building in time to prevent serious safety accidents.

A first aspect of an embodiment of the present invention discloses a natural gas leakage alarm system based on big data and a robot, comprising:

An alarm server for obtaining a natural gas detection concentration of each of the resident buildings reported by the Internet of Things registered by each resident building in a certain city;

The alarm server is further configured to determine, according to the natural gas detection concentration inside the resident building, whether a natural gas leakage occurs inside the resident building for each of the residential buildings, and if so, calculate each registered speaker device of the city Location information and location information of the resident building a straight line distance therebetween; determining whether there is a target speaker device in the respective speaker devices that has a linear distance from the position information of the resident building that is less than a specified threshold, and if so, to the target speaker device and the monitoring station through the Internet of Things Sending a natural gas leak warning voice, the natural gas leak warning voice including location information and building name of the resident building where a natural gas leak occurs;

The target speaker device is configured to play the natural gas leakage alarm voice;

Wherein, sending a natural gas leakage alarm voice to the target speaker device through the Internet of Things includes:

Calling a communication port set by the target speaker device, and determining whether the communication port set by the target speaker device is set with an alarm voice allowable reception period, and if the communication port set by the target speaker device is set with an alarm voice allowable reception period, determining Whether the current time is within the alarm voice allowable reception period, and if so, sending a natural gas leakage alarm voice to the target speaker device through the Internet of Things;

The monitoring station is configured to calculate a linear distance between position information of each robot monitored by the monitoring station and position information of the resident building; the robot is a transportation robot or a traffic command robot or a patrol robot;

The monitoring station is further configured to determine, according to a linear distance between the location information of each of the robots and the location information of the resident building, whether a linear distance between the location information of the resident building and the location information of the resident building is smaller than the first a target robot specifying a threshold, if present, transmitting the natural gas leak alarm voice to the target robot through the Internet of Things;

The monitoring station is further configured to count a total distance value of the target robot traveling on a day;

The monitoring station is further configured to determine that the total distance value is greater than a minimum distance value of the preset allowed wealth management, and if yes, query a target daily interest rate weighting coefficient corresponding to the total distance value; wherein the total distance value In proportion to the magnitude of the target daily interest rate weighting factor;

The monitoring station is further configured to report the user identifier corresponding to the target robot and the target daily interest rate weighting coefficient to the processing center;

The processing center is further configured to identify, according to the user identifier, a financial account corresponding to the user identifier;

The processing center is further configured to adjust a daily interest rate of the current day according to the target daily interest rate weighting coefficient, and obtain an actual daily interest rate of the current day, wherein the actual daily interest rate of the current day is greater than the daily interest rate of the current day;

The processing center is further configured to calculate, according to the actual daily interest rate of the current day and the immediate amount in the wealth management account, the current day value added corresponding to the financial account.

As an optional implementation manner, in the first aspect of the embodiment of the present invention:

The alarm server is further configured to: when it is determined that there is no target speaker device in the respective speaker device that has a linear distance from the location information of the resident building that is less than a specified threshold, the Internet is registered to the city through the Internet of Things. Each security rover sends a natural gas leakage alarm message; the natural gas leakage alarm information includes location information and a building name of the resident building where the natural gas leakage occurs;

Each of the security flow stations is configured to output the natural gas leakage alarm information.

Among them, sending natural gas leakage alarm information to the registered public security stations of the city through the Internet of Things includes:

Calling the communication port set by each of the registered security stations of the city, and determining whether the communication port set by each of the registered security stations of the city is provided with an alarm allowable reception period, if the respective registered public security flows of the city The communication port set by the station is provided with an alarm permission receiving period, and it is determined whether the current time is within the alarm allowed receiving period, and if so, the natural gas leakage alarm information is sent to each of the registered public security stations of the city through the Internet of Things.

The natural gas leakage alarm voice further includes the number of residents entering the interior of the resident building where the natural gas leakage occurs; the natural gas leakage warning information further includes the number of residents entering the resident building of the natural gas leakage.

The natural gas leak warning voice further includes a natural gas leak location inside the resident building where the natural gas leak occurs; the natural gas leak warning information further includes a natural gas leak location inside the resident building where the natural gas leak occurs.

The processing center is further configured to: after determining, according to the user identifier, the financial account corresponding to the user identifier, determine whether the instantaneous amount in the financial account exceeds a preset minimum threshold for allowing additional value, if And performing the step of adjusting the daily interest rate of the current day according to the target daily interest rate weighting factor to obtain the actual daily interest rate of the current day; if not, calculating according to the daily interest rate of the current day and the immediate amount in the wealth management account number The value of the current day value corresponding to the financial account.

A second aspect of the embodiments of the present invention discloses a natural gas leakage alarm method based on big data and a robot, the method comprising:

The alarm server acquires the natural gas detection concentration of the inside of each resident building reported by the residential building in a certain city through the Internet of Things;

The alarm server determines, for each of the resident buildings, whether a natural gas leakage occurs inside the resident building according to a natural gas detection concentration inside the resident building, and if so, calculating location information of each speaker device registered in the city and a linear distance between the location information of the resident building; determining whether there is a target speaker device in the respective speaker devices that has a linear distance from the location information of the resident building that is less than a specified threshold, and if present, through the Internet of Things The target speaker device and the monitoring station transmit a natural gas leakage alarm voice, the natural gas leakage alarm voice including location information and a building name of the resident building where a natural gas leak occurs;

The target speaker device plays the natural gas leakage alarm voice;

Calling a communication port set by the target speaker device, and determining whether the communication port set by the target speaker device is set with an alarm voice allowable reception period, if the target speaker device is set The communication port is set with an alarm voice permission receiving period, and determines whether the current time is located in the alarm voice permission receiving period, and if so, sends a natural gas leakage alarm voice to the target speaker device through the Internet of Things;

The monitoring station calculates a linear distance between the position information of each robot monitored by the monitoring station and the position information of the resident building; the robot is a transportation robot or a traffic command robot or a patrol robot;

The monitoring station determines, according to a linear distance between the position information of each robot and the position information of the resident building, whether there is a target that the linear distance between the position information of the resident building is less than the first specified threshold The robot, if present, transmits the natural gas leak alarm voice to the target robot through the Internet of Things;

The monitoring station counts the total distance value of the target robot traveling on the same day;

The monitoring station determines that the total distance value is greater than a minimum distance value of the preset allowed wealth management, and if yes, queries a target daily interest rate weighting coefficient corresponding to the total distance value; wherein the total distance value and the target The size of the daily interest rate weighting coefficient is proportional to the relationship;

The monitoring station reports the user identifier corresponding to the target robot and the target daily interest rate weighting coefficient to the processing center;

The processing center identifies, according to the user identifier, a financial account corresponding to the user identifier;

The processing center adjusts the daily interest rate of the current day according to the target daily interest rate weighting coefficient, and obtains the actual daily interest rate of the current day, and the actual daily interest rate of the current day is greater than the daily interest rate of the current day;

The processing center calculates the current day value added corresponding to the wealth management account according to the actual daily interest rate of the current day and the instant amount in the wealth management account.

As an optional implementation manner, in a second aspect of the embodiments of the present invention, the method further includes:

When the alarm server determines that there is no target speaker device in the respective speaker devices that has a linear distance from the position information of the resident building that is less than a specified threshold, Each of the registered security stations of the city sends a natural gas leakage alarm message; the natural gas leakage warning information includes location information and a building name of the resident building where the natural gas leakage occurs;

The respective security flow stations output the natural gas leakage alarm information.

As an optional implementation manner, in the second aspect of the embodiment of the present invention:

After the processing center identifies the financial account corresponding to the user identifier according to the user identifier, and the processing center adjusts the daily interest rate of the current day according to the target daily interest rate weighting coefficient, and obtains the actual daily interest rate of the current day, The method also includes:

The processing center determines whether the instant amount in the wealth management account exceeds a preset minimum amount threshold for allowing additional value added, and if so, performing the said weighting coefficient according to the target daily interest rate The daily interest rate of the whole day, the step of obtaining the actual daily interest rate of the current day; if not, the daily value added corresponding to the wealth management account is calculated according to the daily interest rate of the current day and the immediate amount in the wealth management account.

Compared with the prior art, the embodiment of the invention has the following beneficial effects:

In the embodiment of the present invention, the alarm server acquires the natural gas detection concentration of each resident building reported by the residential building in a certain city through the Internet of Things; for each resident building, the resident is judged according to the natural gas detection concentration inside the resident building. When a natural gas leak occurs in the elevator of the building, a linear distance between the location information of each of the registered speaker devices of the city and the location information of the resident building is calculated; when it is judged that there is a position information of the resident building with the location information of the resident building When the linear distance is less than the target speaker device of the specified threshold, the natural gas leakage alarm voice including the location information and the building name of the residential building where the natural gas leakage occurs is transmitted to the target speaker device and the monitoring station through the Internet of Things; the target speaker is set to play the natural gas leakage alarm voice. Let the outside world know in time that natural gas leakage occurs inside a residential building to prevent serious safety accidents. In addition, the financial account corresponding to the user identifier corresponding to the target robot can be used for financial management, and the target robot is encouraged to participate in the natural gas leakage alarm.

DRAWINGS

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings to be used in the embodiments will be briefly described below. It is obvious that the drawings in the following description are only some embodiments of the present invention. Those skilled in the art can also obtain other drawings based on these drawings without paying any creative work.

1 is a schematic structural diagram of a natural gas leakage alarm system based on big data and a robot disclosed in an embodiment of the present invention;

2 is a schematic flow chart of a natural gas leakage alarm method based on big data and a robot disclosed in an embodiment of the present invention.

detailed description

The technical solutions in the embodiments of the present invention are clearly and completely described in the following with reference to the accompanying drawings in the embodiments of the present invention. It is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments obtained by those skilled in the art based on the embodiments of the present invention without creative efforts are within the scope of the present invention.

The embodiment of the invention discloses a natural gas leakage alarm method and system based on big data and a robot, which can enable the outside world to know the natural gas leakage of the elevator of a residential building in time to prevent the life of the trapped person from being dangerous. The details are described below separately.

Please refer to FIG. 1. FIG. 1 is a schematic structural diagram of a natural gas leakage alarm system based on big data and a robot disclosed in an embodiment of the present invention. As shown in Figure 1, the big data and robot based natural gas leakage alarm system can include:

The alarm server 101 is configured to acquire the natural gas detection concentration of the inside of each resident building reported by the residential building in a certain city through the Internet of Things;

The alarm server 101 is further configured to determine, according to the natural gas detection concentration inside the resident building, whether a natural gas leakage occurs inside the resident building for each of the residential buildings, and if so, calculate each registered speaker of the city. a linear distance between the location information of the device and the location information of the resident building; determining whether there is a target speaker device 102 in the respective speaker devices that has a linear distance from the location information of the resident building that is less than a specified threshold, if There is, a natural gas leakage alarm voice is transmitted to the target speaker device 102 and the monitoring station 200 through the Internet of Things, the natural gas leakage alarm voice including location information and a building name of the resident building where a natural gas leak occurs;

The target speaker device 102 is configured to play the natural gas leakage alarm voice;

Calling a communication port set by the target speaker device, and determining the target speaker device setting Whether the communication port set is provided with an alarm voice permission receiving period, and if the communication port set by the target speaker device is provided with an alarm voice permission receiving period, it is determined whether the current time is located in the alarm voice allowed receiving period, and if so, The network sends a natural gas leak alarm voice to the target speaker device.

The monitoring station 200 is configured to calculate a linear distance between position information of each robot monitored by the monitoring station and position information of the resident building; the robot is a transportation robot or a traffic command robot or a patrol robot ;

The monitoring station 200 is further configured to determine, according to a linear distance between the location information of each of the robots and the location information of the resident building, whether a linear distance between the location information of the resident building and the location information of the resident building is less than a target robot of a specified threshold, if present, transmitting the natural gas leak alarm voice to the target robot through the Internet of Things;

The monitoring station 200 is further configured to count a total distance value of the target robot traveling on a day;

The monitoring station 200 is further configured to determine that the total distance value is greater than a minimum distance value of the preset allowed wealth management, and if yes, query a target daily interest rate weighting coefficient corresponding to the total distance value; wherein the total distance The value is proportional to the magnitude of the target daily interest rate weighting factor;

The monitoring station 200 is further configured to report the user identifier corresponding to the target robot and the target daily interest rate weighting coefficient to the processing center 300;

The processing center 300 is further configured to identify, according to the user identifier, a financial account corresponding to the user identifier;

The processing center 300 is further configured to adjust a daily interest rate of the current day according to the target daily interest rate weighting coefficient, and obtain an actual daily interest rate of the current day, where the actual daily interest rate of the current day is greater than the daily interest rate of the current day;

The processing center 300 is further configured to calculate, according to the actual daily interest rate of the current day and the immediate amount in the wealth management account, the current day value added corresponding to the financial account.

As an alternative embodiment, the natural gas based on big data and robot shown in Figure 1 In the leak alarm system:

The alarm server 101 is further configured to: when it is determined that the target speaker device 102 that the linear distance between the location information of the resident building and the location information of the resident building is less than a specified threshold, the Internet of Things has been The registered security traffic stations 103 send natural gas leakage alarm information; the natural gas leakage alarm information includes location information and building names of the residential building where natural gas leakage occurs;

Each of the security flow stations 103 is configured to output the natural gas leakage alarm information.

In an optional implementation manner, the natural gas leakage alarm voice further includes a number of residents entering the interior of the resident building where a natural gas leak occurs; the natural gas leakage warning information further includes the resident building where the natural gas leakage occurs. The number of residents entering the card internally.

In an optional embodiment, the natural gas leakage alarm voice further includes a natural gas leakage location inside the resident building where the natural gas leakage occurs; the natural gas leakage alarm information further includes the resident of the natural gas leakage The location of natural gas leaks inside the building.

As an alternative embodiment, in the system shown in Figure 1:

The processing center 300 is further configured to: after determining, according to the user identifier, the financial account corresponding to the user identifier, determine whether the instant amount in the financial account exceeds a preset minimum threshold for allowing additional value, if Exceeding, performing the adjustment according to the target daily interest rate weighting factor The daily interest rate of the day, the step of obtaining the actual daily interest rate of the current day; if not, the daily value added corresponding to the wealth management account is calculated according to the daily interest rate of the current day and the immediate amount in the wealth management account.

In the big data and robot-based natural gas leakage alarm system shown in Figure 1, the alarm server obtains the natural gas detection concentration of each resident building reported by the residential building in a certain city through the Internet of Things; for each resident building, Calculating the linear distance between the location information of each registered speaker device and the location information of the resident building when determining the natural gas leakage of the elevator of the resident building according to the natural gas detection concentration inside the resident building; when judging each speaker device When there is a target speaker device in which the linear distance between the position information of the resident building is less than a specified threshold, the natural gas leakage of the location information and the building name of the resident building including the natural gas leakage is transmitted to the target speaker device and the monitoring station through the Internet of Things. Alarm voice; the target speaker is set to play the natural gas leak alarm voice. Let the outside world know in time that natural gas leakage occurs inside a residential building to prevent serious safety accidents. In addition, the financial account corresponding to the user identifier corresponding to the target robot can be used for financial management, and the target robot is encouraged to participate in the natural gas leakage alarm.

Please refer to FIG. 2. FIG. 2 is a schematic flowchart diagram of a natural gas leakage alarm method based on big data and a robot disclosed in an embodiment of the present invention. As shown in FIG. 2, the big data and robot based natural gas leakage alarm method may include:

201. The alarm server acquires the natural gas detection concentration of each resident building reported by the residential building in a certain city through the Internet of Things.

202. The alarm server determines, for each of the resident buildings, whether a natural gas leakage occurs inside the resident building according to a natural gas detection concentration inside the resident building, and if yes, calculating a location of each speaker device registered in the city. a linear distance between the information and the location information of the resident building; determining whether there is a target speaker device in the respective speaker devices that has a linear distance from the location information of the resident building that is less than a specified threshold, if present, Networking The target speaker device and the monitoring station transmit a natural gas leak alarm voice including location information and building name of the resident building where the natural gas leak occurred.

203. The target speaker device plays the natural gas leakage alarm voice.

Calling a communication port set by the target speaker device, and determining whether the communication port set by the target speaker device is set with an alarm voice allowable reception period, and if the communication port set by the target speaker device is set with an alarm voice allowable reception period, determining Whether the current time is within the alarm voice allowable reception period, and if so, the natural gas leakage alarm voice is transmitted to the target speaker device through the Internet of Things.

204. The monitoring station calculates a linear distance between position information of each robot monitored by the monitoring station and position information of the resident building; the robot is a transportation robot or a traffic command robot or a patrol robot; The monitoring station determines, according to the linear distance between the position information of each robot and the position information of the resident building, whether there is a target robot whose linear distance from the position information of the resident building is less than a first specified threshold And if present, transmitting the natural gas leak alarm voice to the target robot through the Internet of Things.

205. The monitoring station collects a total distance value of the target robot traveling on a day; the monitoring station determines that the total distance value is greater than a minimum distance value of the preset allowed financial management, and if yes, queries the total distance value corresponding to a target daily interest rate weighting coefficient; wherein the total distance value is proportional to the size of the target daily interest rate weighting coefficient; the monitoring station reports the user identifier corresponding to the target robot and the target daily interest rate weighting coefficient To the processing center.

206. The processing center identifies, according to the user identifier, a financial account corresponding to the user identifier; the processing center adjusts a daily interest rate of the current day according to the target daily interest rate weighting coefficient, and obtains an actual daily interest rate of the current day. The actual daily interest rate of the current day is greater than the daily interest rate of the current day; the processing center calculates the financial management account according to the actual daily interest rate of the current day and the immediate amount in the wealth management account number. The corresponding amount of the day's value added.

As an optional implementation manner, in the big data and robot based natural gas leakage alarm method shown in FIG. 2, the method further includes:

The alarm server determines, when the respective speaker devices do not have a target speaker device whose linear distance between the position information of the resident building is less than a specified threshold, and the registered public security stations of the city through the Internet of Things Sending a natural gas leakage alarm message; the natural gas leakage warning information includes location information and a building name of the resident building where a natural gas leak occurs;

As an optional implementation manner, in the big data and robot based natural gas leakage alarm method shown in FIG. 2, the natural gas leakage alarm voice further includes the number of residents entering the resident building by the natural gas leakage; The natural gas leakage warning information further includes the number of residents entering the interior of the resident building where the natural gas leakage occurs.

As an optional implementation manner, in the big data and robot based natural gas leakage warning method shown in FIG. 2, the natural gas leakage alarm voice further includes a natural gas leakage position inside the resident building where the natural gas leakage occurs. The natural gas leakage warning information further includes a natural gas leakage location inside the resident building where the natural gas leakage occurs.

As an optional implementation manner, in the method shown in FIG. 2, the processing center is according to the a user identifier, after identifying the financial account corresponding to the user identifier, and the processing center adjusts the daily interest rate of the current day according to the target daily interest rate weighting coefficient, and obtains the instant in the wealth management account before obtaining the actual daily interest rate of the current day. Whether the amount exceeds a preset minimum amount threshold for allowing additional value increase, and if so, performing the step of adjusting the daily interest rate according to the target daily interest rate weighting factor to obtain the actual daily interest rate of the day; if not, according to the The daily interest rate of the current day and the instant amount in the wealth management account number are calculated, and the current day value added amount corresponding to the wealth management account number is calculated.

In the big data and robot-based natural gas leakage warning method shown in FIG. 2, the alarm server acquires the natural gas detection concentration of each resident building reported by the residential building in a certain city through the Internet of Things; for each resident building, Calculating the linear distance between the location information of each registered speaker device and the location information of the resident building when determining the natural gas leakage of the elevator of the resident building according to the natural gas detection concentration inside the resident building; when judging each speaker device When there is a target speaker device in which the linear distance between the position information of the resident building is less than a specified threshold, the natural gas leakage of the location information and the building name of the resident building including the natural gas leakage is transmitted to the target speaker device and the monitoring station through the Internet of Things. Alarm voice; the target speaker is set to play the natural gas leak alarm voice. Let the outside world know in time that natural gas leakage occurs inside a residential building to prevent serious safety accidents. In addition, the financial account corresponding to the user identifier corresponding to the target robot can be used for financial management, and the target robot is encouraged to participate in the natural gas leakage alarm.

One of ordinary skill in the art can understand that all or part of the various methods of the above embodiments can be completed by a program to instruct related hardware, the program can be stored in a computer readable storage medium, and the storage medium includes read only Read-Only Memory (ROM), Random Access Memory (RAM), Programmable Read-Only Memory (PROM), Erasable Programmable Read Only Memory (EPROM) ), One-time Programmable Read-Only Memory (OTPROM), Electronically-Erasable Programmable Read-Only Memory (EEPROM), read-only light Compact Disc Read-Only Memory (CD-ROM) or other optical disc storage, magnetic disk storage, magnetic tape storage, or any other medium readable by a computer that can be used to carry or store data.

The method and system for natural gas leakage alarm based on big data and robot disclosed in the embodiment of the present invention are described in detail. The principle and implementation of the present invention are described in the following. The description of the above embodiment is only The method for understanding the present invention and its core idea; at the same time, for those of ordinary skill in the art, according to the idea of the present invention, there will be changes in specific embodiments and application scopes. The description should not be construed as limiting the invention.

Claims

A natural gas leakage alarm system based on big data and a robot, characterized in that it comprises:

An alarm server for obtaining a natural gas detection concentration of each of the resident buildings reported by the Internet of Things registered by each resident building in a certain city;

The alarm server is further configured to determine, according to the natural gas detection concentration inside the resident building, whether a natural gas leakage occurs inside the resident building for each of the residential buildings, and if so, calculate each registered speaker device of the city a linear distance between the location information and the location information of the resident building; determining whether there is a target speaker device in the respective speaker devices that has a linear distance from the location information of the resident building that is less than a specified threshold, if present, Transmitting a natural gas leakage alarm voice to the target speaker device and the monitoring station through the Internet of Things, the natural gas leakage alarm voice including location information and a building name of the resident building where a natural gas leak occurs;

The target speaker device is configured to play the natural gas leakage alarm voice;

The monitoring station is configured to calculate a linear distance between position information of each robot monitored by the monitoring station and position information of the resident building; the robot is a transportation robot or a traffic command robot or a patrol robot;

The monitoring station is further configured to determine, according to a linear distance between the location information of each of the robots and the location information of the resident building, whether a linear distance between the location information of the resident building and the location information of the resident building is smaller than the first a target robot specifying a threshold, if present, transmitting the natural gas leak alarm voice to the target robot through the Internet of Things;

The monitoring station is further configured to count a total distance value of the target robot traveling on a day;

The monitoring station is further configured to determine that the total distance value is greater than a minimum distance value of the preset allowed wealth management, and if yes, query a target daily interest rate weighting coefficient corresponding to the total distance value; wherein the total distance value In proportion to the magnitude of the target daily interest rate weighting factor;

The monitoring station is further configured to use a user identifier corresponding to the target robot and the target daily interest rate The weighting factor is reported to the processing center;

The processing center is further configured to identify, according to the user identifier, a financial account corresponding to the user identifier;

The processing center is further configured to adjust a daily interest rate of the current day according to the target daily interest rate weighting coefficient, and obtain an actual daily interest rate of the current day, wherein the actual daily interest rate of the current day is greater than the daily interest rate of the current day;

The processing center is further configured to calculate, according to the actual daily interest rate of the current day and the immediate amount in the wealth management account, the current day value added corresponding to the financial account.
The big data and robot based natural gas leakage alarm system according to claim 1, wherein:

The alarm server is further configured to: when it is determined that there is no target speaker device in the respective speaker device that has a linear distance from the location information of the resident building that is less than a specified threshold, the Internet is registered to the city through the Internet of Things. Each security rover sends a natural gas leakage alarm message; the natural gas leakage alarm information includes location information and a building name of the resident building where the natural gas leakage occurs;

Each of the security flow stations is configured to output the natural gas leakage alarm information;

Among them, sending natural gas leakage alarm information to the registered public security stations of the city through the Internet of Things includes:

Calling the communication port set by each of the registered security stations of the city, and determining whether the communication port set by each of the registered security stations of the city is provided with an alarm allowable reception period, if the respective registered public security flows of the city The communication port set by the station is provided with an alarm permission receiving period, and it is determined whether the current time is within the alarm allowed receiving period, and if so, the natural gas leakage alarm information is sent to each of the registered public security stations of the city through the Internet of Things.
The big data and robot based natural gas leakage alarm system according to claim 2, wherein the natural gas leakage alarm voice further includes a number of residents entering the resident building by natural gas leakage; the natural gas leakage alarm The information also includes the occurrence of natural gas leakage The number of residents entering the leaked inside of the resident building.
The big data and robot based natural gas leakage alarm system according to claim 3, wherein said natural gas leakage alarm voice further comprises said natural gas leakage location inside said resident building where natural gas leakage occurs; said natural gas leakage The alarm message also includes a natural gas leak location within the resident building where the natural gas leak occurred.
The robot-based safety warning system according to any one of claims 1 to 4, characterized in that:

The processing center is further configured to: after determining, according to the user identifier, the financial account corresponding to the user identifier, determine whether the instantaneous amount in the financial account exceeds a preset minimum threshold for allowing additional value, if And performing the step of adjusting the daily interest rate of the current day according to the target daily interest rate weighting factor to obtain the actual daily interest rate of the current day; if not, calculating according to the daily interest rate of the current day and the immediate amount in the wealth management account number The value of the current day value corresponding to the financial account.
A natural gas leakage warning method based on big data and a robot, characterized in that the method comprises:

The alarm server acquires the natural gas detection concentration of the inside of each resident building reported by the residential building in a certain city through the Internet of Things;

The alarm server determines, for each of the resident buildings, whether a natural gas leakage occurs inside the resident building according to a natural gas detection concentration inside the resident building, and if so, calculating location information of each speaker device registered in the city and a linear distance between the location information of the resident building; determining whether there is a target speaker device in the respective speaker devices that has a linear distance from the location information of the resident building that is less than a specified threshold, and if present, through the Internet of Things The target speaker device and the monitoring station transmit a natural gas leakage alarm voice, the natural gas leakage alarm voice including location information and a building name of the resident building where a natural gas leak occurs;

The target speaker device plays the natural gas leakage alarm voice;

The monitoring station calculates a linear distance between the position information of each robot monitored by the monitoring station and the position information of the resident building; the robot is a transportation robot or a traffic command robot or a patrol robot;

The monitoring station determines, according to a linear distance between the position information of each robot and the position information of the resident building, whether there is a target that the linear distance between the position information of the resident building is less than the first specified threshold The robot, if present, transmits the natural gas leak alarm voice to the target robot through the Internet of Things;

The monitoring station counts the total distance value of the target robot traveling on the same day;

The monitoring station determines that the total distance value is greater than a minimum distance value of the preset allowed wealth management, and if yes, queries a target daily interest rate weighting coefficient corresponding to the total distance value; wherein the total distance value and the target The size of the daily interest rate weighting coefficient is proportional to the relationship;

The monitoring station reports the user identifier corresponding to the target robot and the target daily interest rate weighting coefficient to the processing center;

The processing center identifies, according to the user identifier, a financial account corresponding to the user identifier;

The processing center adjusts the daily interest rate of the current day according to the target daily interest rate weighting coefficient, and obtains the actual daily interest rate of the current day, and the actual daily interest rate of the current day is greater than the daily interest rate of the current day;

The processing center calculates the current day value added corresponding to the wealth management account according to the actual daily interest rate of the current day and the instant amount in the wealth management account.
The big data and robot based natural gas leakage warning method according to claim 6, wherein the method further comprises:

The alarm server determines, when the respective speaker devices do not have a target speaker device whose linear distance between the position information of the resident building is less than a specified threshold, and the registered public security stations of the city through the Internet of Things Sending a natural gas leakage alarm message; the natural gas leakage warning information includes location information and a building name of the resident building where a natural gas leak occurs;

The respective security flow stations output the natural gas leakage alarm information;

Among them, sending natural gas leakage alarm information to the registered public security stations of the city through the Internet of Things includes:

Calling the communication port set by each of the registered security stations of the city, and determining whether the communication port set by each of the registered security stations of the city is provided with an alarm allowable reception period, if the respective registered public security flows of the city The communication port set by the station is provided with an alarm permission receiving period, and it is determined whether the current time is within the alarm allowed receiving period, and if so, the natural gas leakage alarm information is sent to each of the registered public security stations of the city through the Internet of Things.
The big data and robot based natural gas leakage warning method according to claim 7, wherein the natural gas leakage alarm voice further includes a number of residents entering the resident building by the natural gas leakage; the natural gas leakage alarm The information also includes the number of residents entering the interior of the resident building where the natural gas leak occurred.
The big data and robot based natural gas leakage warning method according to claim 8, wherein the natural gas leakage alarm voice further comprises a natural gas leakage position inside the resident building where the natural gas leakage occurs; the natural gas leakage The alarm message also includes a natural gas leak location within the resident building where the natural gas leak occurred.
The big data and robot-based natural gas leakage alarm method according to any one of claims 6 to 9, wherein the processing center identifies the financial account corresponding to the user identifier according to the user identifier, and The processing center further adjusts the daily interest rate of the current day according to the target daily interest rate weighting factor, and obtains the actual daily interest rate of the current day, the method further includes:

The processing center determines whether the instant amount in the wealth management account exceeds a preset minimum amount threshold for allowing additional value added, and if so, performing the daily interest rate adjusted according to the target daily interest rate weighting coefficient to obtain the current day's interest rate The step of the actual daily interest rate; if not exceeded, calculating the daily value added amount corresponding to the wealth management account according to the daily interest rate of the current day and the immediate amount in the wealth management account number amount.