CN114915552B - Digital cable capable of periodically reporting environmental parameters - Google Patents

Abstract

The application discloses a digital cable capable of periodically reporting environmental parameters. The technical scheme of the application comprises the following steps: determining corresponding statistical time length according to current weather information, correspondingly acquiring latest collected operating environment parameters according to the statistical time length, and determining variance and average value of the operating environment parameters; comparing the variance of the operation environment parameters with a preset variance threshold, and adjusting a first reporting period of the operation environment parameters according to the comparison result and the statistical time length; inquiring the mapping relation between the numerical value of the running environment parameter and the second reporting period of the running condition parameter according to the average value of the running environment parameter, and determining the second reporting period; and correspondingly reporting the operation environment parameters and the operation working condition parameters to a system background according to the first reporting period and the second reporting period. By the technical means, the reporting period of various operation parameters is flexibly adjusted according to the whole environment, and the energy consumption of data transmission is saved.

Description

Digital cable capable of periodically reporting environmental parameters

Technical Field

The embodiment of the application relates to the technical field of digital cables, in particular to a digital cable capable of periodically reporting environmental parameters.

Background

With the rapid development of the communication industry in China, the cable is used as a basis for electric energy or signal transmission, and the demand of the cable is increased. At present, in order to better monitor the running state of the cable in real time, better running and maintenance effects on the cable are realized, and the running and maintenance setting of the cable also tends to be intelligent. For example, the digital cable can collect the operation parameters of each position of the cable in real time in the operation process and upload the operation parameters to a system background, and cable faults and daily operation states can be detected by monitoring the operation parameters of each position of the cable in real time, so that more intelligent cable operation maintenance and management are realized.

When the current digital cable uploads parameters, the operation parameters of all the positions of the cable are collected according to a certain periodicity and all the operation parameters are reported to a system background, and the system background receives and manages all the operation parameters uniformly. Because the period of the uploading parameters of the digital cable is fixed, all the operation parameters can be reported according to the fixed period even if the operation parameters collected by the digital cable are basically unchanged under the influence of weather or environment. The parameter reporting mode is large in energy consumption of data transmission, and can easily cause a large amount of operation data to be managed for a long time by a system background, and load pressure is always kept at a high level, so that the working efficiency of the system background is affected.

Disclosure of Invention

The embodiment of the application provides a digital cable capable of reporting environmental parameters periodically, which can flexibly adjust reporting periods of various operation parameters according to the whole environment, save energy consumption of data transmission, reduce load pressure of a system background and solve the technical problem that the existing digital cable cannot flexibly report the operation parameters.

In a first aspect, an embodiment of the present application provides a digital cable for periodically reporting environmental parameters, including:

the environment parameter acquisition module is configured to determine a corresponding statistical time length according to current weather information, correspondingly acquire latest collected operation environment parameters according to the statistical time length, and determine variances and average values of the operation environment parameters, wherein the latest collected operation environment parameters comprise operation environment parameters collected by a current time node and a plurality of previous continuous time nodes;

the first period determining module is configured to compare the variance of the operation environment parameter with a preset variance threshold value, and adjust a first reporting period of the operation environment parameter according to a comparison result and the statistical duration;

the second period determining module is configured to query the mapping relation between the numerical value of the running environment parameter and the second reporting period of the running working condition parameter according to the average value of the running environment parameter, and determine the second reporting period;

and the parameter period reporting module is configured to correspondingly report the operation environment parameters and the operation working condition parameters to a system background according to the first reporting period and the second reporting period.

Further, the first period determining module includes:

a first period setting unit configured to set the statistical duration as the first reporting period when it is determined that the variance of the operating environment parameter is less than or equal to the variance threshold;

and the environment parameter adjusting unit is configured to shorten the statistical time length when the variance of the operation environment parameter is larger than the variance threshold value, and recalculate the variance of the operation environment parameter until the variance of the operation environment parameter is smaller than or equal to the variance threshold value, and set the corresponding statistical time length as the first reporting period.

Further, the second period determining module includes:

a difference calculation unit configured to calculate a difference between the average value and each of the operating environment parameters when the variance of the operating environment parameters is greater than the variance threshold;

the average value optimizing unit is configured to compare the difference value corresponding to each running environment parameter with a preset difference value threshold value, determine the running environment parameter of which the corresponding difference value is smaller than the difference value threshold value, and determine the optimized average value of the running environment parameter of which the corresponding difference value is smaller than the difference value threshold value;

and the second period determining unit is configured to query the mapping relation between the numerical value of the running environment parameter and the second reporting period of the running working condition parameter according to the average value of the running environment parameter, the difference value of which is smaller than the difference value threshold value, and determine the second reporting period.

Further, the second period determining module further includes:

the period change amount determining unit is configured to determine the change amount of the second reporting period according to the change amounts of the current operation environment parameter and the operation environment parameter of the previous time node when the difference value corresponding to each operation environment parameter is larger than the difference value threshold;

and the second period adjusting unit is configured to adjust the second reporting period according to the variation of the second reporting period.

In a second aspect, an embodiment of the present application provides a method for periodically reporting environmental parameters of a digital cable, including:

determining corresponding statistical time length according to current weather information, correspondingly acquiring latest collected operation environment parameters according to the statistical time length, and determining variance and average value of the operation environment parameters, wherein the latest collected operation environment parameters comprise operation environment parameters collected by a current time node and a plurality of previous continuous time nodes;

comparing the variance of the running environment parameters with a preset variance threshold, and adjusting a first reporting period of the running environment parameters according to a comparison result and the statistical duration;

inquiring the mapping relation between the numerical value of the running environment parameter and the second reporting period of the running working condition parameter according to the average value of the running environment parameter, and determining the second reporting period;

and correspondingly reporting the operation environment parameters and the operation condition parameters to a system background according to the first reporting period and the second reporting period.

Further, comparing the variance of the running environment parameter with a preset variance threshold, and adjusting a first reporting period of the running environment parameter according to a comparison result and the statistical duration, including:

when the variance of the running environment parameter is less than or equal to the variance threshold, setting the statistical duration as the first reporting period;

and when the variance of the running environment parameter is determined to be greater than the variance threshold, shortening the statistical time length, and recalculating the variance of the running environment parameter until the variance of the running environment parameter is less than or equal to the variance threshold, and setting the corresponding statistical time length as the first reporting period.

Further, the step of querying the mapping relationship between the value of the operation environment parameter and the second reporting period of the operation condition parameter according to the average value of the operation environment parameter, and determining the second reporting period includes:

calculating the difference value between the average value and each running environment parameter when the variance of the running environment parameter is larger than the variance threshold;

comparing the difference value corresponding to each running environment parameter with a preset difference value threshold, determining the running environment parameter of which the corresponding difference value is smaller than the difference value threshold, and determining the average value of the running environment parameters of which the corresponding difference value is smaller than the difference value threshold;

and inquiring the mapping relation between the numerical value of the running environment parameter and the second reporting period of the running working condition parameter according to the average value of the running environment parameter of which the difference value is smaller than the difference value threshold value, and determining the second reporting period.

Further, after comparing the difference value corresponding to each operating environment parameter with a preset difference value threshold, the method further includes:

when the difference value corresponding to each operation environment parameter is larger than the difference value threshold value, determining the variation of the second reporting period according to the variation of the current operation environment parameter and the operation environment parameter of the previous time node;

and adjusting the second reporting period according to the variable quantity of the second reporting period.

In a third aspect, an embodiment of the present application provides a digital cable device for periodically reporting an environmental parameter, including:

a memory and one or more processors;

the memory is used for storing one or more programs;

the one or more programs, when executed by the one or more processors, cause the one or more processors to implement the method for periodically reporting environmental parameters for a digital cable as described in the second aspect.

In a fourth aspect, embodiments of the present application provide a storage medium containing computer-executable instructions, which when executed by a computer processor, are configured to perform the method of periodically reporting environmental parameters for a digital cable according to the second aspect.

According to the method and the device, the environmental change rule of the digital cable is analyzed through the current weather information, the statistical duration of the current running environment parameters which are basically unchanged before and after the current running environment parameters is determined, the latest collected running environment parameters are correspondingly obtained based on the statistical duration, the variance and the average value of the running environment parameters are determined, and the variance can represent the fluctuation condition of the running environment parameters in the corresponding time period. Comparing the variance with a preset variance threshold value, determining whether the fluctuation of the operation environment parameter exceeds a stable range, and when the fluctuation of the operation environment parameter exceeds the stable range, indicating that the operation environment parameter has larger data fluctuation in a period of time which should be kept stable, wherein the digital cable may have abnormal operation and other fault conditions. At this time, the first reporting period of the operation environment parameters can be shortened to report the operation environment parameters generating data fluctuation to the system background, so that the system background monitors the operation state of the digital cable through the operation environment parameters, and the digital cable is maintained in time after the abnormality occurs, thereby improving the safety of the digital cable. When the fluctuation of the operation environment parameter is in a stable range, the operation environment parameter is indicated to have little change in data in a period of time when the operation environment parameter should be kept stable, and the digital cable is operated normally with high probability. At this time, the first reporting period of the operation environment parameter can be prolonged, and the operation environment parameter of a certain time node is reported to the system background, so that the system background can confirm the normal operation of the digital cable. The average value of the operation environment parameters can represent the operation environment of the digital cable in a corresponding time period, and as the operation environment can influence the operation working condition of the digital cable, when the operation environment is severe, the data fluctuation of the operation working condition parameters of the digital cable is large, and the digital cable can possibly have fault conditions such as abnormal operation and the like. Therefore, the second reporting period of the operation condition parameters can be determined according to the operation environment, and the operation condition parameters generating data fluctuation are reported to the system background, so that the system background monitors the operation state of the digital cable through the operation environment parameters, and the digital cable is maintained in time after the digital cable is abnormal, and the safety of the digital cable is improved. By the technical means, the reporting period of various operation parameters can be flexibly adjusted according to weather information and operation environments, the reporting period can be properly prolonged while the operation state of the digital cable can be monitored based on the reported operation parameters in the background of the system, the reporting times of the parameters are reduced, the energy consumption of the parameter reporting is saved, and the load pressure of the background of the system is reduced.

Drawings

Fig. 1 is a schematic structural diagram of a digital cable for periodically reporting environmental parameters according to an embodiment of the present application;

FIG. 2 is a flowchart of a method for reporting environmental parameters periodically for a digital cable according to an embodiment of the present application;

fig. 3 is a flowchart for adjusting a first reporting period according to an embodiment of the present application;

fig. 4 is a flowchart of acquiring a second reporting period provided in an embodiment of the present application;

FIG. 5 is a flowchart of determining a second reporting period according to current operating environment parameters provided by an embodiment of the present application;

fig. 6 is a schematic structural diagram of a digital cable apparatus for periodically reporting environmental parameters according to an embodiment of the present application.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the present application more apparent, the following detailed description of specific embodiments thereof is given with reference to the accompanying drawings. It is to be understood that the specific embodiments described herein are merely illustrative of the application and not limiting thereof. It should be further noted that, for convenience of description, only some, but not all of the matters related to the present application are shown in the accompanying drawings. Before discussing exemplary embodiments in more detail, it should be mentioned that some exemplary embodiments are described as processes or methods depicted as flowcharts. Although a flowchart depicts operations (or steps) as a sequential process, many of the operations can be performed in parallel, concurrently, or at the same time. Furthermore, the order of the operations may be rearranged. The process may be terminated when its operations are completed, but may have additional steps not included in the figures. The processes may correspond to methods, functions, procedures, subroutines, and the like.

The digital cable capable of reporting environmental parameters periodically provided by the embodiment of the application aims at flexibly adjusting reporting periods of various operating parameters through weather information and operating environments, and reducing energy consumption of parameter reporting and load pressure of a system background while ensuring that the system background can monitor the operating state of the digital cable according to the reporting parameters. For the traditional digital cable, the operation parameters of each position of the cable are collected according to a certain periodicity and all reported to a system background, and the system background receives and manages all the operation parameters uniformly. Because the period of the uploading parameters of the digital cable is fixed, all the operation parameters can be reported according to the fixed period even if the operation parameters collected by the digital cable are basically unchanged under the influence of weather or environment. The parameter reporting mode is large in energy consumption of data transmission, and can easily cause a large amount of operation data to be managed for a long time by a system background, and load pressure is always kept at a high level, so that the working efficiency of the system background is affected. Based on the above, the embodiment of the application provides a digital cable capable of periodically reporting environmental parameters, so as to solve the technical problem that the existing digital cable cannot flexibly report operating parameters.

Fig. 1 is a schematic structural diagram of a digital cable for periodically reporting environmental parameters according to an embodiment of the present application. As shown in fig. 1, the digital cable for reporting environmental parameters periodically includes an environmental parameter acquisition module 11, a first period determination module 12, a second period determination module 13, and a parameter period reporting module 14.

In this embodiment, the environmental parameter obtaining module is configured to determine a corresponding statistical duration according to current weather information, correspondingly obtain a latest collected operating environmental parameter according to the statistical duration, and determine a variance and an average value of the operating environmental parameter, where the latest collected operating environmental parameter includes operating environmental parameters collected by a current time node and a plurality of previous continuous time nodes; the first period determining module is configured to compare the variance of the operation environment parameter with a preset variance threshold value, and adjust a first reporting period of the operation environment parameter according to a comparison result and a statistical duration; the second period determining module is configured to query the mapping relation between the numerical value of the running environment parameter and the second reporting period of the running working condition parameter according to the average value of the running environment parameter, and determine the second reporting period; and the parameter period reporting module is configured to correspondingly report the operation environment parameters and the operation working condition parameters to the system background according to the first reporting period and the second reporting period.

According to the method, the device and the system, the statistical duration of the running environment parameters which are basically unchanged before and after the running environment parameters is determined through the current weather information, the fluctuation condition of the running environment parameters which are correspondingly collected in the statistical duration is analyzed, and when the fluctuation of the running environment parameters is large, the first reporting period is shortened to report the running environment parameters which generate data fluctuation to the system background, so that the monitoring capability of the system background to the digital cable is improved. And when the fluctuation of the operation environment parameters is smaller, the first reporting period is prolonged to report the operation environment parameters of a certain time node to the system background so as to inform the system background that the digital cable is operating normally. And analyzing the operation environment of the digital cable in the statistical time length, shortening the second reporting period to report the operation condition parameters of the digital cable to the system background when the operation environment is worse and the digital cable is easy to be abnormal, so that the system background can timely generate the abnormal state of the digital cable based on the operation condition parameters, further timely maintain the digital cable and ensure the safety of the digital cable.

On the basis of the foregoing embodiments, fig. 2 is a flowchart of a method for periodically reporting environmental parameters of a digital cable according to an embodiment of the present application, where the method for periodically reporting environmental parameters provided in the present embodiment may be executed by the digital cable for periodically reporting environmental parameters, where the digital cable may be implemented by software and/or hardware, and the digital cable may be configured by two or more physical entities or may be configured by one physical entity. In general, the digital cable may be a processing device such as a routing device, a wireless communication module, or the like that connects sensors at various locations.

The following description will take a digital cable for periodically reporting environmental parameters as an example of a main body for executing the method for periodically reporting environmental parameters. Referring to fig. 2, the method for reporting environmental parameters in a period specifically includes:

s210, determining corresponding statistical time length according to current weather information, correspondingly acquiring latest collected operation environment parameters according to the statistical time length, and determining variance and average value of the operation environment parameters, wherein the latest collected operation environment parameters comprise operation environment parameters collected by a current time node and a plurality of previous continuous time nodes.

The weather information can be understood as information such as wind level, rainfall, illumination intensity, season and time of the place where the digital cable is located, and the information can be collected by a weather server and transmitted to a system background, and sent to each digital cable by the system background. The system background refers to intelligent equipment with strong calculation capability for managing and controlling all operation parameters reported by the digital cable, such as a server and the like. The system background can analyze the running state of the corresponding digital cable according to the running parameters reported by each digital cable, so that the running state of the digital cable is monitored in real time, and the problem that the safety of the digital cable cannot be timely maintained when the digital cable is in an abnormal state is avoided.

The operation environment parameters are understood to be parameters of the reaction operation environment collected by the digital cable, such as temperature parameters, humidity parameters and the like. In one embodiment, the temperature parameter of the digital cable changes slowly due to weather effects, such as rain, on the operating environment of the digital cable; on sunny days, the temperature of the digital cable changes rapidly. The change rule of various operation environment parameters in corresponding time periods can be analyzed in advance based on weather information collected by historic, and the statistical time length of the data of each operation environment parameter in each time period in each season is counted. For example, the digital cable is kept at a temperature of substantially 5 degrees celsius in the early morning of winter if the rain temperature is kept longer. And generating a corresponding statistical table according to the statistical time length of each operation parameter in each period of each season. In this embodiment, when weather information issued by the system background is received, the statistical table is queried to obtain statistical duration of each operation environment parameter. It should be noted that, the statistical duration of different operation environment parameters is different, for example, in rainy days, the temperature parameter of the digital cable changes slowly, but the humidity parameter changes rapidly.

Illustratively, the operating environment parameters are collected by corresponding sensors, such as temperature parameters are collected by temperature sensors and humidity parameters are collected by humidity sensors. The sensor collects corresponding running environment parameters in a real-time collection period, the running environment parameters are transmitted to the digital cable, the digital cable takes a current time node as a starting time node of a statistical period, takes a time node which is spaced from the current time node by a statistical time length as an ending time node of the statistical period, and obtains the running environment parameters collected by a plurality of continuous time nodes in the statistical period. For example, when the current time node is T1 and the statistical duration is Δt, the collected operating environment parameters from T1 to (T1- Δt) are obtained. Calculating an average value of the operation environment parameters collected in the statistical period, and calculating the variance of the operation environment parameters collected in the statistical period according to the average value and the numerical value of each operation environment parameter, so as to represent the fluctuation condition of the operation environment parameters in the statistical period through the variance and represent the condition of the operation environment in the statistical period through the average value.

S220, comparing the variance of the operation environment parameters with a preset variance threshold, and adjusting a first reporting period of the operation environment parameters according to the comparison result and the statistical time length.

The variance threshold is understood to be the maximum variance value of the operating environment parameters when the fluctuations lie within a stable range. In this embodiment, fig. 3 is a flowchart for adjusting the first reporting period provided in the embodiment of the present application. As shown in fig. 3, the step of adjusting the first reporting period specifically includes S2201-S2202:

s2201, when the variance of the operation environment parameter is less than or equal to the variance threshold, setting the statistical duration as a first reporting period.

For example, when the variance of the operating environment parameter is less than or equal to the variance threshold, it is indicated that the fluctuation of the corresponding operating environment parameter within the statistical period is within a stable range, i.e., the value of the operating environment parameter within the statistical period remains substantially unchanged. Because the running environment parameters basically remain unchanged in the statistical period, the running environment parameters of any time node are reported to the system background, and the system background can also determine the running environment of the digital cable in the corresponding statistical period. And setting the statistical time length as a first reporting period of the operation environment parameters, so as to report the operation environment parameters of a certain time node in each statistical time period to a system background through the first reporting period.

It can be understood that when the statistical duration is longer, setting the first reporting period as the first statistical duration can effectively prolong the first reporting period, shorten the reporting times of the operation environment parameters, reduce the reporting energy consumption of the operation environment parameters, and lighten the load pressure of a system background.

S2202, when the variance of the operation environment parameter is determined to be larger than the variance threshold, shortening the statistical time length, and recalculate the variance of the operation environment parameter until the variance of the operation environment parameter is smaller than or equal to the variance threshold, setting the corresponding statistical time length as a first reporting period.

When the variance of the operation environment parameter is greater than the variance threshold, it is determined that the fluctuation of the operation environment parameter corresponding to the statistical period exceeds the stable range, which indicates that the operation environment parameter has larger data fluctuation in the period of time that should remain stable, and the current weather information is inaccurate or the digital cable has abnormal operation, and the variance of the operation environment parameter in the statistical period cannot be used as a criterion of the data fluctuation. Therefore, the statistical time length can be shortened, the fluctuation condition of the operation environment parameters is analyzed again according to the latest obtained statistical time length, the stable time length of the operation environment parameters is determined, and the stable time length is further used as a first reporting period.

In this embodiment, assuming that the predetermined statistical time period is Δt, the shortened statistical time period is Δt ', the operating environment parameters within T1 to (T1- Δt ') are acquired from the current time node T1 and the shortened statistical time period Δt ', and the variance of the operating environment parameters is calculated. Comparing the variance obtained by current calculation with a variance threshold, if the variance obtained by current calculation is smaller than or equal to the variance threshold, taking the shortened statistical time length delta T' as a first reporting period, otherwise, continuing to shorten the statistical time length, and re-acquiring the operation environment parameters and calculating the corresponding variance.

In an embodiment, a period threshold is preset, and when the statistical duration is smaller than or equal to the period threshold, the period threshold may be set as the first reporting period. It can be understood that the period threshold is the shortest reporting period determined according to experience, and the running environment parameters are reported to the system background through the shortest reporting period, so that the system background can be ensured to monitor the running state of the digital cable in real time.

S230, inquiring a mapping relation between the numerical value of the operation environment parameter and the second reporting period of the operation condition parameter according to the average value of the operation environment parameter, and determining the second reporting period.

By way of example, operating condition parameters may be understood as parameters reflecting the operating state of the digital cable from which the operating state of the digital cable, such as voltage, current, impedance, power, etc., may be analyzed. Because the operation environment can influence the operation working condition of the digital cable, the more severe operation environment can easily increase the fault rate of the digital cable, for example, the digital cable is easy to run abnormally under a high-temperature environment, and the digital cable is not easy to run abnormally under normal temperature. Under the condition that the digital cable is easy to run abnormally, the digital cable needs to report the running condition parameters to the system background frequently, so that the system background monitors the running state of the digital cable in real time, and workers are arranged to maintain in time after the digital cable is abnormal. In contrast, under the condition that the digital cable is not easy to send abnormal operation, the digital cable does not need to report the operation condition parameters to the system background frequently, and only needs to inform the system background that the digital cable is safely operated. Therefore, this embodiment proposes that, in advance, according to the influence degree of the abnormal operation of the digital cable corresponding to the operation environment parameter, a mapping relation table of the second reporting period of the operation environment parameter and the operation condition parameter is correspondingly generated. And inquiring the mapping relation table according to the average value of the running environment parameters to obtain a second reporting period of the corresponding running condition parameters.

In an embodiment, when the data fluctuation of the operation environment parameter is large, the average value of the operation environment parameter cannot accurately represent the operation environment of the digital cable in the corresponding statistical period, so that the embodiment can optimize the average value of the operation environment parameter to determine a more accurate operation environment. In this embodiment, fig. 4 is a flowchart of acquiring the second reporting period provided in the embodiment of the present application. As shown in fig. 4, the step of obtaining the second reporting period specifically includes S2301-S2303:

s2301, when the variance of the running environment parameters is larger than the variance threshold, calculating the difference between the average value and each running environment parameter.

For example, when the individual operating environment parameters fluctuate widely, the operating environment parameters with smaller data fluctuations can be selected by the difference between the average value and the operating environment parameters.

S2302, comparing the difference value corresponding to each running environment parameter with a preset difference value threshold, determining the running environment parameter with the corresponding difference value smaller than the difference value threshold, and determining the average value of the running environment parameters with the corresponding difference value smaller than the difference value threshold.

The difference threshold is understood to be the maximum error allowed by the operating environment parameters. For example, when the difference between the running environment parameter and the average value is smaller than the difference threshold, the running environment parameter is indicated to be within an allowable error range, and the running environment parameter can be used for representing the running environment of the digital cable, and when the difference between the running environment parameter and the average value is larger than the difference threshold, the running environment parameter is indicated to be beyond the error range and cannot be used for representing the running environment of the digital cable. In this embodiment, after determining the operation environment parameters with the difference value smaller than the difference value threshold, an average value of the corresponding operation environment parameters is calculated, so as to obtain an optimized average value, and the optimized average value can more accurately represent the operation environment of the digital cable in the corresponding statistical period.

S2303, according to the average value of the operation environment parameters with the difference value smaller than the difference value threshold, inquiring the mapping relation between the value of the operation environment parameter and the second reporting period of the operation condition parameter, and determining the second reporting period.

The mapping relation table of the second reporting period of the operating environment parameter and the operating condition parameter is queried according to the optimized average value, and the corresponding second reporting period is obtained.

In another embodiment, if the difference between each running environment parameter and the average value in the statistical period is greater than the difference threshold, a second reporting period is determined according to the current running environment parameter. In this embodiment, fig. 5 is a flowchart of determining a second reporting period according to the current operating environment parameter provided in the embodiment of the present application. As shown in fig. 5, the step of determining the second reporting period according to the current operating environment parameter specifically includes S2304-S2305:

s2304, when the difference value corresponding to each operation environment parameter is larger than the difference value threshold, determining the variation of the second reporting period according to the variation of the current operation environment parameter and the operation environment parameter of the previous time node.

S2305, adjusting the second reporting period according to the variation of the second reporting period.

The second reporting period of the operating condition parameter is adaptively adjusted when the operating environment changes, and a mapping relation between the variable quantity of the operating environment parameter and the variable quantity of the second reporting period can be determined through linear calculation according to a mapping relation table of the operating environment parameter and the second reporting period, so that a corresponding variable quantity relation table is generated. Inquiring a change amount relation table according to the change amounts of the currently collected operation environment parameters and the operation environment parameters collected by the previous time node, determining the change amounts of the current second reporting period and the previous second reporting period, and further determining the current second reporting period according to the change amounts of the second reporting period.

It should be noted that different operating condition parameters correspond to a second reporting period.

S240, reporting the operation environment parameters and the operation working condition parameters to a system background correspondingly according to the first reporting period and the second reporting period.

The digital cable reports the corresponding operation environment parameters to the system background according to the first reporting period of each operation environment parameter. And similarly, the digital cable reports each operation condition parameter to the system background according to the second reporting period of the operation condition parameter. And the system background monitors the operation state of the digital cable according to the operation environment parameters and the operation condition parameters.

In summary, according to the digital cable and the method for periodically reporting environmental parameters, provided by the embodiment of the application, environmental change rules of the digital cable are analyzed through current weather information, statistical time lengths of the current running environmental parameters which are basically unchanged before and after the current running environmental parameters are determined, the latest collected running environmental parameters are correspondingly obtained based on the statistical time lengths, variances and average values of the running environmental parameters are determined, and the variances can represent fluctuation conditions of the running environmental parameters in corresponding time periods. Comparing the variance with a preset variance threshold value, determining whether the fluctuation of the operation environment parameter exceeds a stable range, and when the fluctuation of the operation environment parameter exceeds the stable range, indicating that the operation environment parameter has larger data fluctuation in a period of time which should be kept stable, wherein the digital cable may have abnormal operation and other fault conditions. At this time, the first reporting period of the operation environment parameters can be shortened to report the operation environment parameters generating data fluctuation to the system background, so that the system background monitors the operation state of the digital cable through the operation environment parameters, and the digital cable is maintained in time after the abnormality occurs, thereby improving the safety of the digital cable. When the fluctuation of the operation environment parameter is in a stable range, the operation environment parameter is indicated to have little change in data in a period of time when the operation environment parameter should be kept stable, and the digital cable is operated normally with high probability. At this time, the first reporting period of the operation environment parameter can be prolonged, and the operation environment parameter of a certain time node is reported to the system background, so that the system background can confirm the normal operation of the digital cable. The average value of the operation environment parameters can represent the operation environment of the digital cable in a corresponding time period, and as the operation environment can influence the operation working condition of the digital cable, when the operation environment is severe, the data fluctuation of the operation working condition parameters of the digital cable is large, and the digital cable can possibly have fault conditions such as abnormal operation and the like. Therefore, the second reporting period of the operation condition parameters can be determined according to the operation environment, and the operation condition parameters generating data fluctuation are reported to the system background, so that the system background monitors the operation state of the digital cable through the operation environment parameters, and the digital cable is maintained in time after the digital cable is abnormal, and the safety of the digital cable is improved. By the technical means, the reporting period of various operation parameters can be flexibly adjusted according to weather information and operation environments, the reporting period can be properly prolonged while the operation state of the digital cable can be monitored based on the reported operation parameters in the background of the system, the reporting times of the parameters are reduced, the energy consumption of the parameter reporting is saved, and the load pressure of the background of the system is reduced.

On the basis of the foregoing embodiment, an embodiment of the present application provides a digital cable device for periodically reporting environmental parameters, with reference to fig. 6, where the digital cable device for periodically reporting environmental parameters includes: processor 31, memory 32, communication module 33, input device 34 and output device 35. The number of processors in the digital cable device that periodically reports the environmental parameter may be one or more, and the number of memories in the digital cable device that periodically reports the environmental parameter may be one or more. The processor 31, memory 32, communication module 33, input device 34 and output device 35 of the digital cable device that periodically reports environmental parameters may be connected by a bus or other means.

The memory 32 is used as a computer readable storage medium for storing a software program, a computer executable program, and a module, such as program instructions/modules corresponding to the method for periodically reporting environmental parameters of a digital cable according to any embodiment of the present application. The memory may mainly include a memory program area and a memory data area, wherein the memory program area may store an operating system, at least one application program required for a function; the storage data area may store data created according to the use of the device, etc. In addition, the memory may include high-speed random access memory, and may also include non-volatile memory, such as at least one magnetic disk storage device, flash memory device, or other non-volatile solid-state storage device. In some examples, the memory may further include memory remotely located with respect to the processor, the remote memory being connectable to the device through a network. Examples of such networks include, but are not limited to, the internet, intranets, local area networks, mobile communication networks, and combinations thereof.

The communication module 33 is used for data transmission.

The processor 31 executes various functional applications of the device and data processing by running software programs, instructions and modules stored in the memory, i.e. implements the above-described method for periodically reporting environmental parameters of the digital cable.

The input means 34 may be used to receive entered numeric or character information and to generate key signal inputs related to user settings and function control of the device. The output means 35 may comprise a display device such as a display screen.

The digital cable device for periodically reporting the environmental parameters can be used for executing the method for periodically reporting the environmental parameters of the digital cable provided by the embodiment, and has corresponding functions and beneficial effects.

The embodiments of the present application also provide a storage medium containing computer-executable instructions, which when executed by a computer processor, are configured to perform a method for periodically reporting environmental parameters of a digital cable, the method for periodically reporting environmental parameters comprising: determining corresponding statistical time length according to current weather information, correspondingly acquiring latest collected operating environment parameters according to the statistical time length, and determining variance and average value of the operating environment parameters; comparing the variance of the operation environment parameters with a preset variance threshold, and adjusting a first reporting period of the operation environment parameters according to the comparison result and the statistical time length; inquiring the mapping relation between the numerical value of the running environment parameter and the second reporting period of the running condition parameter according to the average value of the running environment parameter, and determining the second reporting period; and correspondingly reporting the operation environment parameters and the operation working condition parameters to a system background according to the first reporting period and the second reporting period.

Storage media-any of various types of memory devices or storage devices. The term "storage medium" is intended to include: mounting media such as CD-ROM, floppy disk or tape devices; computer system memory or random access memory such as DRAM, DDR RAM, SRAM, EDO RAM, lanbas (Rambus) RAM, etc.; nonvolatile memory such as flash memory, magnetic media (e.g., hard disk or optical storage); registers or other similar types of memory elements, etc. The storage medium may also include other types of memory or combinations thereof. In addition, the storage medium may be located in a first computer system in which the program is executed, or may be located in a second, different computer system connected to the first computer system through a network such as the internet. The second computer system may provide program instructions to the first computer for execution. The term "storage medium" may include two or more storage media residing in different locations (e.g., in different computer systems connected by a network). The storage medium may store program instructions (e.g., embodied as a computer program) executable by one or more processors.

Of course, the storage medium containing the computer executable instructions provided in the embodiments of the present application is not limited to the method for periodically reporting environmental parameters of the digital cable, and may also perform the related operations in the method for periodically reporting environmental parameters of the digital cable provided in any embodiment of the present application.

The digital cable, the storage medium and the digital cable device for reporting environmental parameters in the foregoing embodiments may execute the method for reporting environmental parameters of the digital cable provided in any embodiment of the present application, and technical details not described in detail in the foregoing embodiments may refer to the method for reporting environmental parameters of the digital cable provided in any embodiment of the present application.

The foregoing description is only of the preferred embodiments of the present application and the technical principles employed. The present application is not limited to the specific embodiments described herein, but is capable of numerous obvious changes, rearrangements and substitutions as will now become apparent to those skilled in the art without departing from the scope of the present application. Therefore, while the present application has been described in connection with the above embodiments, the present application is not limited to the above embodiments, but may include many other equivalent embodiments without departing from the spirit of the present application, and the scope of the present application is determined by the scope of the claims.

Claims (4)

1. A digital cable for periodically reporting environmental parameters, comprising:

the environment parameter acquisition module is configured to determine a corresponding statistical time length according to current weather information, correspondingly acquire latest collected operation environment parameters according to the statistical time length, and determine variances and average values of the operation environment parameters, wherein the latest collected operation environment parameters comprise operation environment parameters collected by a current time node and a plurality of previous continuous time nodes;

the first period determining module is configured to set the statistical duration as a first reporting period when determining that the variance of the running environment parameter is smaller than or equal to a preset variance threshold; when the variance of the running environment parameter is determined to be greater than the variance threshold, shortening the statistical time length, and recalculating the variance of the running environment parameter until the variance of the running environment parameter is less than or equal to the variance threshold, setting the corresponding statistical time length as the first reporting period;

a second period determination module configured to calculate a difference value of an average value of the operating environment parameters and each operating environment parameter when the variance of the operating environment parameters is greater than the variance threshold; comparing the difference value corresponding to each running environment parameter with a preset difference value threshold, determining the running environment parameter of which the corresponding difference value is smaller than the difference value threshold, and determining the optimized average value of the running environment parameters of which the corresponding difference value is smaller than the difference value threshold; inquiring the mapping relation between the numerical value of the running environment parameter and a second reporting period of the running working condition parameter according to the optimized average value of the running environment parameter, the difference value of which is smaller than the difference value threshold, and determining the second reporting period; when the difference value corresponding to each operation environment parameter is larger than the difference value threshold value, determining the variation of the second reporting period according to the variation of the current operation environment parameter and the operation environment parameter of the previous time node; adjusting the second reporting period according to the variable quantity of the second reporting period;

and the parameter period reporting module is configured to correspondingly report the operation environment parameters and the operation working condition parameters to a system background according to the first reporting period and the second reporting period.

2. A method for periodically reporting environmental parameters of a digital cable, comprising:

determining corresponding statistical time length according to current weather information, correspondingly acquiring latest collected operation environment parameters according to the statistical time length, and determining variance and average value of the operation environment parameters, wherein the latest collected operation environment parameters comprise operation environment parameters collected by a current time node and a plurality of previous continuous time nodes;

when the variance of the running environment parameter is less than or equal to a preset variance threshold, setting the statistical duration as a first reporting period; when the variance of the running environment parameter is determined to be greater than the variance threshold, shortening the statistical time length, and recalculating the variance of the running environment parameter until the variance of the running environment parameter is less than or equal to the variance threshold, setting the corresponding statistical time length as the first reporting period;

when the variance of the running environment parameters is larger than the variance threshold, calculating the difference value between the average value of the running environment parameters and each running environment parameter; comparing the difference value corresponding to each running environment parameter with a preset difference value threshold, determining the running environment parameter of which the corresponding difference value is smaller than the difference value threshold, and determining the optimized average value of the running environment parameters of which the corresponding difference value is smaller than the difference value threshold; inquiring the mapping relation between the numerical value of the running environment parameter and a second reporting period of the running working condition parameter according to the optimized average value of the running environment parameter, the difference value of which is smaller than the difference value threshold, and determining the second reporting period; when the difference value corresponding to each operation environment parameter is larger than the difference value threshold value, determining the variation of the second reporting period according to the variation of the current operation environment parameter and the operation environment parameter of the previous time node; adjusting the second reporting period according to the variable quantity of the second reporting period;

and correspondingly reporting the operation environment parameters and the operation condition parameters to a system background according to the first reporting period and the second reporting period.

3. A digital cable device for periodically reporting environmental parameters, comprising:

a memory and one or more processors;

the memory is used for storing one or more programs;

the one or more programs, when executed by the one or more processors, cause the one or more processors to implement the method for periodically reporting environmental parameters for a digital cable as recited in claim 1.

4. A storage medium containing computer executable instructions which, when executed by a computer processor, are for performing the method of periodically reporting environmental parameters of a digital cable as claimed in claim 1.

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