CN112798047B - Environmental data monitoring and collecting method and system for android device - Google Patents

Abstract

The invention discloses an environmental data monitoring and collecting method and system for android equipment, which comprises the following steps: s1: starting a main program and judging whether the operation is authorized or not; s2: after the main program is started, respectively starting a photoelectric sensor process, a fault lamp monitoring process and an indoor and outdoor environment monitoring sensor process; s3: starting a photoelectric sensor process; s4: after a fault lamp monitoring process is started; s5: and starting the process of the indoor and outdoor environment monitoring sensor. The method and the system for monitoring and collecting the environmental data of the android device realize the overall management of various detected data, collect the collected data, analyze the data, display the processed data on a terminal, visually display the current environmental data, store the data, facilitate later statistics and comparison analysis, and alarm workers of abnormal data to timely process the abnormal data.

Description

Environmental data monitoring and collecting method and system for android device

Technical Field

The invention relates to the technical field of environment monitoring systems, in particular to an environment data monitoring and collecting method and system for android equipment.

Background

The environmental data monitoring system can be applied to environmental monitoring of smoking rooms, and as most of smoking room environmental monitoring adopts old PM2.5 sensors, the smoking room environmental monitoring system has many defects due to single data display. For example, the current environmental monitoring of smoking rooms has the following defects: (1) the acquired environmental data are single, and other environmental data except PM2.5, such as carbon dioxide content, TVOC concentration, temperature, humidity and the like, cannot be collected; (2) the data values for PM2.5 are shown only, and the data are not accurate to values after the decimal point. If the numerical value exceeds the normal range, no early warning is given; (3) no statistics are made on the cigarette end data of the smoking room; (4) the method and the system for monitoring and acquiring the environmental data of the android device are provided based on the defects that the corresponding device faults are not pre-warned, so that maintenance personnel cannot timely position and overhaul the faults.

Disclosure of Invention

The invention aims to provide an environmental data monitoring and collecting method and system for android equipment, which are used for realizing the overall management of various detected data, summarizing and collecting the data, analyzing the data, displaying the processed data on a terminal, visually displaying the current environmental data, storing the data, facilitating later statistics and calling out for comparative analysis, and alarming workers to timely process the abnormity due to data abnormity so as to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: an environmental data monitoring and collecting method for an android device comprises the following steps:

s1: starting a main program, judging whether the operation is authorized, if not, popping up an authorization window to obtain operation authority, and if not, receiving the program;

s2: after the main program is started, respectively starting a photoelectric sensor process, a fault lamp monitoring process and an indoor and outdoor environment monitoring sensor process;

s3: after the photoelectric sensor process is started, the photoelectric sensor process comprises the following steps:

s31: judging whether networking is performed or not, and if not: ending the process; the method comprises the following steps: acquiring data of a left photoelectric sensor and a right photoelectric sensor from a service platform;

s32: recording data of the left and right photoelectric sensors, and transmitting the data to a memory for storage and standby;

s33: transmitting the recorded data of the photoelectric sensor to a central processing unit for analysis and processing, and transmitting the data to a display terminal by the central processing unit to display the acquired data in real time;

s34: opening the enabling of the left and right photoelectric sensors, and monitoring the level of the left and right photoelectric sensors;

s35: judging whether the left level value is 0, if so: on the basis of the data of the left photoelectric sensor, integrating the updated data, transmitting the data back to the level monitoring units of the left photoelectric sensor and the right photoelectric sensor, and transmitting the data to the central processing unit for analysis and processing; otherwise: and the data are transmitted back to the level monitoring units of the left and right photoelectric sensors, and whether the monitored level information is transmitted to the background is judged, wherein the judgment is as follows: uploading data to a background; otherwise: ending the process;

s36: judging whether the right level value is 0, if so: on the basis of the data of the right photoelectric sensor, integrating the updated data, transmitting the data back to the level monitoring units of the left photoelectric sensor and the right photoelectric sensor, and transmitting the data to the central processing unit for analysis and processing; otherwise: and the data are transmitted back to the level monitoring units of the left and right photoelectric sensors, and whether the monitored level information is transmitted to the background is judged, wherein the judgment is as follows: uploading data to a background; otherwise: ending the process;

s4: after the fault lamp monitoring process is started, the fault lamp monitoring process comprises the following steps:

s41: turning on a fault lamp monitoring enable, and continuously monitoring state data of the fault lamp;

s42: analyzing and integrating the data of the fault lamp, and transmitting the data after integration to a central processing unit for analysis and processing;

s43: judging whether the monitored fault lamp state data has data fault or not, wherein the fault data comprises the following steps: uploading the fault data to a service platform, and judging whether the fault data is uploaded to a background, wherein the steps are as follows: uploading data to a background; otherwise: finishing the operation; fault-free data: ending the process;

s5: after the indoor and outdoor environment monitoring sensor process is started, the indoor and outdoor environment monitoring process comprises the following steps:

s51: meanwhile, opening an outdoor PM2.5 sensor serial port and an indoor 6-in-1 sensor serial port, and keeping monitoring of sensor data;

s52: monitoring sensor data acquired by a PM2.5 sensor and a 6-in-1 sensor;

s53: acquiring serial port data of an outdoor PM2.5 sensor, converting a byte array into 16-system data, analyzing and integrating the data according to a sensor interface rule, and transmitting the integrated data to a central processing unit for analysis and processing;

s54: acquiring indoor serial port data of the 6-in-1 sensor, converting the byte array into 16-system data, analyzing and integrating the data according to the interface rule of the sensor, and transmitting the integrated data to a central processing unit for analysis and processing.

The invention provides another technical scheme that: a system for monitoring and acquiring environmental data of android equipment comprises a main program starting module, a photoelectric sensor process starting module, a left photoelectric sensor, a right photoelectric sensor, a level judging and recording module, a data integration module, a networking judging module, a data acquiring and recording module, a fault lamp monitoring starting module, a fault lamp monitoring enabling module, a fault lamp state data monitoring module, a fault judging module, a background, an indoor and outdoor environment monitoring sensor process starting module, a PM2.5 sensor, a 6-in-1 sensor, a sensor data monitoring module, a sensor data acquiring, converting and analyzing module and a central processor, wherein the output end of the main program starting module is connected with the input ends of the photoelectric sensor process starting module, the fault lamp monitoring enabling module and the indoor and outdoor environment monitoring sensor process starting module, and the output end of the photoelectric sensor process starting module is connected with the input ends of the left photoelectric sensor and the right photoelectric sensor, the output ends of the left photoelectric sensor and the right photoelectric sensor are connected to the input end of the level judging and recording module, and the output end of the level judging and recording module is connected to the input end of the data integration module; the output end of the fault lamp monitoring starting module is connected to the input end of the fault lamp monitoring enabling module, the output end of the fault lamp monitoring enabling module is connected to the input end of the fault lamp state data monitoring module, the output end of the fault lamp state data monitoring module is connected to the input end of the data integration module, the output end of the data integration module is connected to the input end of the fault judgment module, and the output end of the fault judgment module is connected to the background; the output of indoor outer environmental monitoring sensor process start module is connected to PM2.5 sensor, 6 closes the input of 1 sensor, the PM2.5 sensor, the output that 6 closed 1 sensor is connected to the input that sensor data monitored the module, sensor data monitored the output of module and is connected to the input that sensor data acquireed the analytic module of conversion, sensor data acquireed the output that the analytic module of conversion is connected to the input of data integration module, the output of data integration module is connected to central processing unit.

Preferably, the data collected by the PM2.5 sensor includes carbon dioxide content information, TVOC concentration information, temperature information, humidity information.

Preferably, the sensor data acquisition, conversion and analysis module is configured to acquire detected information, convert the acquired analog signal quantity into a digital quantity, output the digital quantity, and transmit the digital quantity to the data integration module after analysis.

Preferably, the central processing unit is externally connected with a display terminal, and the detected information is displayed in real time through the display terminal.

Preferably, the central processing unit is externally connected with an alarm, and when data abnormality is detected, the alarm gives an alarm to warn maintenance personnel to position in time and overhaul faults.

Preferably, the central processing unit is externally connected with a memory for storing various acquired data.

Preferably, the level values of the left photosensor data and the right photosensor data are determined according to a trigger signal generated by detecting the cigarette butt.

Compared with the prior art, the invention has the beneficial effects that: according to the method and the system for monitoring and acquiring the environmental data of the android device, the PM2.5 sensor and the 6-in-1 sensor can be used for detecting the environmental data such as carbon dioxide content, TVOC concentration, temperature and humidity, analyzing and integrating the detected data and transmitting the data to the central processing unit for processing, when the data are detected to be abnormal, the alarm can be controlled in time to alarm and warn maintenance personnel to locate and overhaul faults in time, meanwhile, cigarette butt data in a smoking room can be counted, and the use condition of the smoking room is monitored; the whole realization is to all kinds of data overall management that detect, gathers the data collection to data analysis, data after the processing show at the terminal, and is audio-visual shows current environmental data, saves data, and the statistics is called out after the convenience and is carried out contrastive analysis, but the data anomaly staff that reports to the police in time handles unusually.

Drawings

FIG. 1 is a topology diagram of the present invention;

FIG. 2 is a functional block diagram of the present invention;

FIG. 3 is a CPU diagram of the present invention;

FIG. 4 is a circuit diagram of the operation of the alarm of the present invention;

FIG. 5 is a memory circuit diagram of the present invention;

FIG. 6 is a circuit diagram of the display terminal of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and 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, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, an environmental data monitoring and collecting method for an android device includes the following steps:

the first step is as follows: starting a main program, judging whether the operation is authorized, if not, popping up an authorization window to obtain operation authority, and if not, receiving the program;

a second part: after the main program is started, respectively starting a photoelectric sensor process, a fault lamp monitoring process and an indoor and outdoor environment monitoring sensor process;

the third step: after the photoelectric sensor process is started, the photoelectric sensor process comprises the following steps:

firstly, judging whether networking is performed or not, and if not: ending the process; the method comprises the following steps: acquiring data of a left photoelectric sensor and a right photoelectric sensor from a service platform;

then recording data of the left and right photoelectric sensors, and transmitting the data to a memory for storage and standby;

transmitting the recorded data of the photoelectric sensor to a central processing unit for analysis and processing, and transmitting the data to a display terminal by the central processing unit to display the acquired data in real time;

then, the left and right photoelectric sensors are turned on to enable, and the level of the left and right photoelectric sensors is monitored;

then, whether the left level value is 0 is judged, and the following steps are carried out: on the basis of the data of the left photoelectric sensor, integrating the updated data, transmitting the data back to the level monitoring units of the left photoelectric sensor and the right photoelectric sensor, and transmitting the data to the central processing unit for analysis and processing; otherwise: and the data are transmitted back to the level monitoring units of the left and right photoelectric sensors, and whether the monitored level information is transmitted to the background is judged, wherein the judgment is as follows: uploading data to a background; otherwise: ending the process;

and finally, judging whether the right level value is 0 or not, if so, determining that: on the basis of the data of the right photoelectric sensor, integrating the updated data, transmitting the data back to the level monitoring units of the left photoelectric sensor and the right photoelectric sensor, and transmitting the data to the central processing unit for analysis and processing; otherwise: and the data are transmitted back to the level monitoring units of the left and right photoelectric sensors, and whether the monitored level information is transmitted to the background is judged, wherein the judgment is as follows: uploading data to a background; otherwise: ending the process;

the fourth step: after the fault lamp monitoring process is started, the fault lamp monitoring process comprises the following steps:

firstly, turning on a fault lamp monitoring enable, and continuously monitoring state data of the fault lamp;

then analyzing and integrating the data of the fault lamp, and transmitting the data to a central processing unit for analysis and processing after the data are integrated;

and finally, judging whether the monitored fault lamp state data has data faults or not, wherein the data of the faults are as follows: uploading the fault data to a service platform, and judging whether the fault data is uploaded to a background, wherein the steps are as follows: uploading data to a background; otherwise: finishing the operation; fault-free data: ending the process;

the fifth step: after the indoor and outdoor environment monitoring sensor process is started, the indoor and outdoor environment monitoring process comprises the following steps:

firstly, simultaneously opening an outdoor PM2.5 sensor serial port and an indoor 6-in-1 sensor serial port, and keeping monitoring of sensor data;

then monitoring sensor data acquired by a PM2.5 sensor and a 6-in-1 sensor;

acquiring serial port data of an outdoor PM2.5 sensor, converting the byte array into 16-system data, analyzing and integrating the data according to the interface rule of the sensor, and transmitting the integrated data to a central processing unit for analysis and processing;

and finally, acquiring indoor serial port data of the 6-in-1 sensor, converting the byte array into 16-system data, analyzing and integrating the data according to the interface rule of the sensor, and transmitting the integrated data to a central processing unit for analysis and processing.

Referring to fig. 2-6, another technical solution provided by the present invention: a system for monitoring and acquiring environmental data of android equipment comprises a main program starting module, a photoelectric sensor process starting module, a left photoelectric sensor, a right photoelectric sensor, a level judging and recording module, a data integration module, a networking judging module, a data acquiring and recording module, a fault lamp monitoring starting module, a fault lamp monitoring enabling module, a fault lamp state data monitoring module, a fault judging module, a background, an indoor and outdoor environment monitoring sensor process starting module, a PM2.5 sensor, a 6-in-1 sensor, a sensor data monitoring module, a sensor data acquiring, converting and analyzing module and a central processor, wherein the output end of the main program starting module is connected with the input ends of the photoelectric sensor process starting module, the fault lamp monitoring enabling module and the indoor and outdoor environment monitoring sensor process starting module, and the output end of the photoelectric sensor process starting module is connected with the input ends of the left photoelectric sensor and the right photoelectric sensor, the output ends of the left photoelectric sensor and the right photoelectric sensor are connected to the input end of the level judging and recording module, and the output end of the level judging and recording module is connected to the input end of the data integration module; the output end of the fault lamp monitoring starting module is connected to the input end of the fault lamp monitoring enabling module, the output end of the fault lamp monitoring enabling module is connected to the input end of the fault lamp state data monitoring module, the output end of the fault lamp state data monitoring module is connected to the input end of the data integration module, the output end of the data integration module is connected to the input end of the fault judgment module, and the output end of the fault judgment module is connected to the background; the output of indoor outer environmental monitoring sensor process start module is connected to PM2.5 sensor, 6 closes the input of 1 sensor, the PM2.5 sensor, the output that 6 closed 1 sensor is connected to the input that sensor data monitored the module, sensor data monitored the output of module and is connected to the input that sensor data acquireed the analytic module of conversion, sensor data acquireed the output that the analytic module of conversion is connected to the input of data integration module, the output of data integration module is connected to central processing unit.

As a further scheme of the invention: the data that PM2.5 sensor collected include carbon dioxide content information, TVOC concentration information, temperature information, humidity information, and detectable carbon dioxide content information, TVOC concentration information, temperature information, humidity information transmit central processing unit to handle to show through display terminal.

As a further scheme of the invention: the sensor data acquisition, conversion and analysis module is used for acquiring detected information, converting the acquired analog signal quantity into digital quantity for output, and transmitting the digital quantity to the data integration module after analysis.

As a further scheme of the invention: the central processing unit is externally connected with a display terminal, and detected information is displayed in real time through the display terminal.

As a further scheme of the invention: the central processing unit is externally connected with an alarm, and when data abnormality is detected, the alarm gives an alarm to warn maintenance personnel to position in time and overhaul faults.

As a further scheme of the invention: the central processing unit is externally connected with a memory for storing various acquired data.

As a further scheme of the invention: the level values of the left photosensor data and the right photosensor data are judged according to a trigger signal generated when the cigarette butt is detected.

According to the method and the system for monitoring and acquiring the environmental data of the android device, the number of cigarette ends is detected through the left photoelectric sensor and the right photoelectric sensor, when the cigarette ends are detected, a level signal is generated, at the moment, the number of the detected cigarette ends is updated by +1 on the basis of original data, the detected data are integrated and then transmitted to the data integration module for processing, the processed data are transmitted to the central processing unit for processing, the central processing unit transmits the obtained cigarette end information to the memory for storage, and transmits the cigarette end information to the display terminal for displaying the detected information in real time; the fault lamp monitoring enabling module detects the power supply state of the lamp, when the power is off, the enabling of the lamp is changed, at the moment, the fault lamp state data monitoring module can detect the enabling change, namely the power-on state, and transmits the detected information to the data integration module for processing, and then transmits the processed information to the central processing unit for processing, and the central processing unit transmits the obtained cigarette end information to the memory for storage and transmits the information to the display terminal for displaying the detected information in real time; the PM2.5 sensor and the 6-in-1 sensor detect information of indoor and outdoor air, the detected information is acquired through the sensor data acquisition, conversion and analysis module, the acquired analog signal quantity is converted into digital quantity to be output, the digital quantity is transmitted to the data integration module after being analyzed, the digital quantity is transmitted to the central processing unit for processing after being processed, the central processing unit transmits the obtained cigarette end information to the storage device for storage, and the cigarette end information is transmitted to the display terminal to display the detected information in real time; when data abnormality is detected, the central processing unit sends an instruction to the alarm, and the alarm gives an alarm to warn maintenance personnel to position and overhaul faults in time.

In summary, according to the method and system for monitoring and acquiring the environmental data of the android device, the PM2.5 sensor and the 6-in-1 sensor can be used for detecting the environmental data such as carbon dioxide content, TVOC concentration, temperature and humidity, analyzing and integrating the detected data, transmitting the data to the central processing unit for processing, controlling the alarm to alarm and warn maintenance personnel to locate and repair faults in time when the data are detected to be abnormal, counting the cigarette end data in the smoking room and monitoring the use condition of the smoking room; the whole realization is to all kinds of data overall management that detect, gathers the data collection to data analysis, data after the processing show at the terminal, and is audio-visual shows current environmental data, saves data, and the statistics is called out after the convenience and is carried out contrastive analysis, but the data anomaly staff that reports to the police in time handles unusually.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (7)

1. An environmental data monitoring and collecting method for android equipment is characterized by comprising the following steps:

s1: starting a main program, judging whether the operation is authorized, if not, popping up an authorization window to obtain operation authority, and if not, receiving the program;

s2: after the main program is started, respectively starting a photoelectric sensor process, a fault lamp monitoring process and an indoor and outdoor environment monitoring sensor process;

s3: after the photoelectric sensor process is started, the photoelectric sensor process comprises the following steps:

s31: judging whether networking is performed or not, and if not: ending the process; the method comprises the following steps: acquiring data of a left photoelectric sensor and a right photoelectric sensor from a service platform;

s32: recording data of the left and right photoelectric sensors, and transmitting the data to a memory for storage and standby;

s33: transmitting the recorded data of the photoelectric sensor to a central processing unit for analysis and processing, and transmitting the data to a display terminal by the central processing unit to display the acquired data in real time;

s34: opening the enabling of the left and right photoelectric sensors, and monitoring the level of the left and right photoelectric sensors;

s35: judging whether the left level value is 0, if so: on the basis of the data of the left photoelectric sensor, integrating the updated data, transmitting the data back to the level monitoring units of the left photoelectric sensor and the right photoelectric sensor, and transmitting the data to the central processing unit for analysis and processing; otherwise: and the data are transmitted back to the left and right photoelectric sensor level monitoring units, and whether the monitored level information uploads the data to a background is judged, wherein the judgment is as follows: uploading data to a background; otherwise: ending the process;

s36: judging whether the right level value is 0, if so: on the basis of the data of the right photoelectric sensor, integrating the updated data, transmitting the data back to the level monitoring units of the left photoelectric sensor and the right photoelectric sensor, and transmitting the data to the central processing unit for analysis and processing; otherwise: and the data are transmitted back to the left and right photoelectric sensor level monitoring units, and whether the monitored level information uploads the data to a background is judged, wherein the judgment is as follows: uploading data to a background; otherwise: ending the process;

s4: after the fault lamp monitoring process is started, the fault lamp monitoring process comprises the following steps:

s41: turning on a fault lamp monitoring enable, and continuously monitoring state data of the fault lamp;

s42: analyzing and integrating the data of the fault lamp, and transmitting the data after integration to a central processing unit for analysis and processing;

s43: judging whether the monitored fault lamp state data has data fault or not, wherein the fault data comprises the following steps: uploading the fault data to a service platform, and judging whether the fault data is uploaded to a background, wherein the steps are as follows: uploading data to a background; otherwise: ending the process; fault-free data: ending the process;

s5: after the indoor and outdoor environment monitoring sensor process is started, the indoor and outdoor environment monitoring process comprises the following steps:

s51: meanwhile, opening an outdoor PM2.5 sensor serial port and an indoor 6-in-1 sensor serial port, and keeping monitoring of sensor data;

s52: monitoring sensor data acquired by a PM2.5 sensor and a 6-in-1 sensor;

s53: acquiring serial port data of an outdoor PM2.5 sensor, converting a byte array into 16-system data, analyzing and integrating the data according to a sensor interface rule, and transmitting the integrated data to a central processing unit for analysis and processing;

s54: acquiring indoor serial port data of a 6-in-1 sensor, converting the byte array into 16-system data, analyzing and integrating the data according to a sensor interface rule, and transmitting the integrated data to a central processing unit for analysis and processing;

and the level values of the left photoelectric sensor data and the right photoelectric sensor data are judged according to the trigger signal generated by detecting the cigarette butts.

2. The system of claim 1, comprising a main program starting module, a photoelectric sensor process starting module, a left photoelectric sensor, a right photoelectric sensor, a level judging and recording module, a data integration module, a networking judging module, a data acquiring and recording module, a fault lamp monitoring starting module, a fault lamp monitoring enabling module, a fault lamp state data monitoring module, a fault judging module, a background, an indoor and outdoor environment monitoring sensor process starting module, a PM2.5 sensor, a 6-in-1 sensor, a sensor data monitoring module, a sensor data acquiring, converting and analyzing module and a central processor, wherein the output end of the main program starting module is connected with the input ends of the photoelectric sensor process starting module, the fault lamp monitoring enabling module and the indoor and outdoor environment monitoring sensor process starting module, the output end of the photoelectric sensor process starting module is connected to the input ends of the left photoelectric sensor and the right photoelectric sensor, the output ends of the left photoelectric sensor and the right photoelectric sensor are connected to the input end of the level judging and recording module, and the output end of the level judging and recording module is connected to the input end of the data integration module; the output end of the fault lamp monitoring starting module is connected to the input end of the fault lamp monitoring enabling module, the output end of the fault lamp monitoring enabling module is connected to the input end of the fault lamp state data monitoring module, the output end of the fault lamp state data monitoring module is connected to the input end of the data integration module, the output end of the data integration module is connected to the input end of the fault judgment module, and the output end of the fault judgment module is connected to the background; the output of indoor outer environmental monitoring sensor process start module is connected to PM2.5 sensor, 6 closes the input of 1 sensor, the PM2.5 sensor, the output that 6 closed 1 sensor is connected to the input that sensor data monitored the module, sensor data monitored the output of module and is connected to the input that sensor data acquireed the analytic module of conversion, sensor data acquireed the output that the analytic module of conversion is connected to the input of data integration module, the output of data integration module is connected to central processing unit.

3. The system of claim 2, wherein the environmental data monitoring and collection method for the android device comprises: the data collected by the PM2.5 sensor comprises carbon dioxide content information, TVOC concentration information, temperature information and humidity information.

4. The system of claim 2, wherein the environmental data monitoring and collection method for the android device comprises: the sensor data acquisition, conversion and analysis module is used for acquiring detected information, converting the acquired analog signal quantity into digital quantity for output, and transmitting the digital quantity to the data integration module after analysis.

5. The system of claim 2, wherein the environmental data monitoring and collection method for the android device comprises: the central processing unit is externally connected with a display terminal, and detected information is displayed in real time through the display terminal.

6. The system of claim 2, wherein the environmental data monitoring and collection method for the android device comprises: the central processing unit is externally connected with an alarm, and when data abnormality is detected, the alarm gives an alarm to warn maintenance personnel to position in time and overhaul faults.

7. The system of claim 2, wherein the environmental data monitoring and collection method for the android device comprises: the central processing unit is externally connected with a memory and used for storing various acquired data.

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