CN117692338A - Energy Internet of things data visualization method and system - Google Patents

Abstract

The invention belongs to the energy data visualization processing technology, and provides an energy Internet of things data visualization method and system, wherein the system comprises the following steps: the system comprises a data server, a plurality of acquisition nodes connected with the data server and a display unit connected with the data server; wherein, the data server includes: the system comprises a data processor, a resource management and control module, an adjustment module, a predefined module and a display configuration module; according to the method and the device, the transmission rate of the acquisition nodes is distributed according to the requirements, namely the bandwidths of the corresponding transmission channels are distributed according to the data transmission requirements of the acquisition nodes, so that the acquisition nodes can stably transmit data under the set bandwidths.

Description

Energy Internet of things data visualization method and system

Technical Field

The invention belongs to the technical field of energy Internet of things data visualization, and particularly relates to an energy Internet of things data visualization method and system.

Background

Generally, in an energy data platform, a data server is configured to be capable of meeting the full-load processing capacity of daily data, and therefore, the use of available resources in the data server is allocated as required. In the traditional technology, data transmission is carried out between a general acquisition end and a data server through a TCP protocol, the data bandwidth of the acquisition end is generally not required to be adjusted, when one acquisition end is connected with a plurality of acquisition devices, the acquired data signals are blocked during transmission, so that the data transmission is abnormal, and the corresponding real-time state cannot be acquired in the whole process.

Disclosure of Invention

Accordingly, the present invention is mainly directed to a method and a system for visualizing data of the internet of things.

The invention adopts the following technical scheme:

the data visualization method of the energy Internet of things comprises the following steps:

determining a processing capacity range of a data processor;

controlling an adjusting module to adjust the transmission rate of the data signal transmitted from the acquisition node according to the processing capacity range, predefining the transmission rate, wherein the predefining comprises defining an upper limit value of the transmission rate and a lower limit value of the transmission rate, and a plurality of uniformly set reference values between the upper limit value of the transmission rate and the lower limit value of the transmission rate;

and configuring a display symbol for each reference value, and judging the stability of the transmission rate through recording and displaying the display symbol corresponding to the transmission rate and the distribution state of the display symbol in the transmission period at a display end when the acquisition node transmits a data signal to the data processor.

Further, the processing capacity range of the data processor when the data processor is used for processing data is determined according to the available resources of the data processor and the states of the available resources.

Further, the data processor judges the range of the utilization rate of the available resources according to the state of the available resources, and judges the upper limit value of the data processing capacity and the lower limit value of the data processing capacity according to the range of the utilization rate, thereby obtaining the data processing capacity range.

Further, the acquisition node has:

a communication part which communicates with the data server and is used for acquiring the adjustment instruction sent by the adjustment module;

a control part connected to the communication part for receiving the adjustment instruction, and distributing the bandwidth range of each transmission channel for transmission by the distributor through the adjustment instruction, and limiting the transmission rate of the data signal transmitted from the acquisition node;

and an adaptive compensation unit is arranged in the control part, and is used for monitoring the bandwidth of each transmission channel and forming a compensation setting for adjusting bandwidth fluctuation according to the fluctuation condition of the bandwidth, wherein when the bandwidth is used as a reference by taking the average value of the set bandwidth range as the reference, the bandwidth is close to the lower limit value/the upper limit value of the bandwidth range, and the compensation setting forms a compensation signal so that the control part can adjust the bandwidth window.

Further, the display symbols corresponding to each reference value are set to be different, the obtained reference values are synchronized to a display unit by a monitor, the display unit loads the corresponding display symbols according to the reference values, and the display symbols are correspondingly set in the area, so that the distribution state of the display symbols in the transmission period is obtained.

Further, setting the reference value between the upper limit value of the transmission rate and the lower limit value of the transmission rate, setting a plurality of contour lines in the display unit according to the corresponding reference value, and forming each contour line to correspond to the display symbol, loading the display symbol corresponding to the reference value when the reference value is synchronized to the display unit, and displaying the display symbol on the corresponding contour line to form a display.

Further, when the display unit sets the contour line, the contour line is set by using the time as a reference axis as a transverse reference.

The invention also provides an energy Internet of things data visualization system, which comprises:

the system comprises a data server, a plurality of acquisition nodes connected with the data server and a display unit connected with the data server;

wherein, the data server includes:

a data processor;

the resource management and control module is connected with the data processor and used for determining the processing capacity range of the data processor when the data processor processes the data according to the available resources of the data processor and the states of the available resources;

the adjusting module is connected with the resource management and control module and is used for controlling the adjusting module to adjust the transmission rate of the data signals transmitted from the acquisition node according to the processing capacity range;

the predefining module is connected with the adjusting module and predefines the transmission rate, and the predefining content comprises an upper limit value of the defined transmission rate, a lower limit value of the defined transmission rate and a plurality of uniformly set reference values between the upper limit value of the transmission rate and the lower limit value of the transmission rate;

the display configuration module is connected with the predefined module, configures a display symbol for each reference value, and enables the stability of the transmission rate to be judged through the distribution state by recording and displaying the display symbol corresponding to the transmission rate and the distribution state of the display symbol in the transmission period at the display end when the acquisition node transmits the data signal to the data processor.

Further, the resource management and control module judges the range of the utilization rate of the available resources according to the state of the available resources, judges the upper limit value of the data processing capacity and the lower limit value of the data processing capacity according to the range of the utilization rate, and acquires the data processing capacity range.

According to the method and the device, the transmission rate of the acquisition node is distributed according to the requirement of data transmission of the acquisition node, namely, the bandwidth of the corresponding transmission channel is distributed according to the requirement of the data transmission of the acquisition node, so that the acquisition node can stably transmit data under the set bandwidth, data accumulation can not occur on one hand, and the processing delay of a data server end can not be caused on the other hand, and abnormal states of the acquisition node can not be monitored timely.

Meanwhile, when bandwidth allocation is carried out by the acquisition node, a plurality of independent transmission channels are established according to the accessed acquisition equipment, the maximum bandwidth required by each transmission channel is judged according to the type, acquisition frequency and the like of data signals in basic information of the acquisition equipment, and further bandwidth configuration is carried out according to the processing capacity range of the data server under the condition that the bandwidth required by the transmission channel is determined. The method meets the transmission requirement and the processing capacity requirement of the data server.

The data transmission rate of each transmission channel in each acquisition node can be obtained in real time through the display unit, the distribution state of the transmission rate on each time node is known in real time, and the stability of the transmission rate is judged through the distribution state.

Drawings

The following drawings are illustrative of the invention and are not intended to limit the scope of the invention, in which:

FIG. 1 is a flow chart of the method of the present invention.

Fig. 2 is a schematic diagram of the framework of the present invention.

Detailed Description

The present invention will be further described in detail with reference to the following specific examples, which are given by way of illustration, in order to make the objects, technical solutions, design methods and advantages of the present invention more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

Example 1:

referring to fig. 1, the invention provides an energy internet of things data visualization method, which comprises the following steps:

determining a processing capacity range of a data processor;

controlling an adjusting module to adjust the transmission rate of the data signal transmitted from the acquisition node according to the processing capacity range, predefining the transmission rate, wherein the predefining comprises defining an upper limit value of the transmission rate and a lower limit value of the transmission rate, and a plurality of uniformly set reference values between the upper limit value of the transmission rate and the lower limit value of the transmission rate;

and configuring a display symbol for each reference value, and judging the stability of the transmission rate through recording and displaying the display symbol corresponding to the transmission rate and the distribution state of the display symbol in the transmission period at a display end when the acquisition node transmits a data signal to the data processor.

In the above, the processing capacity range of the data processor when performing data processing is determined according to the available resources of the data processor and the state of the available resources.

In the above, the data processor may determine a range of available resource usage according to a state of available resources, and may determine an upper limit value of data processing capability and a lower limit value of data processing capability through the range of usage, thereby obtaining the data processing capability range. According to the method and the device, the transmission rate of the acquisition node is distributed according to the requirement of data transmission of the acquisition node, namely, the bandwidth of the corresponding transmission channel is distributed according to the requirement of the data transmission of the acquisition node, so that the acquisition node can stably transmit data under the set bandwidth, data accumulation can not occur on one hand, and the processing delay of a data server end can not be caused on the other hand, and abnormal states of the acquisition node can not be monitored in time.

In the above, the collection node has:

a communication part which communicates with the data server and is used for acquiring the adjustment instruction sent by the adjustment module;

a control part connected to the communication part for receiving the adjustment instruction, and distributing the bandwidth range of each transmission channel for transmission by the distributor through the adjustment instruction so as to limit the transmission rate of the data signal transmitted from the acquisition node;

and an adaptive compensation unit is arranged in the control part, and is used for monitoring the bandwidth of each transmission channel and forming a compensation setting for adjusting bandwidth fluctuation according to the fluctuation condition of the bandwidth, wherein when the bandwidth is used as a reference by taking the average value of the set bandwidth range as the reference, the bandwidth is close to the lower limit value/the upper limit value of the bandwidth range, and the compensation setting forms a compensation signal so that the control part can adjust the bandwidth window.

When the bandwidth allocation is carried out by the acquisition node, a plurality of independent transmission channels are established according to the accessed acquisition equipment, the maximum bandwidth required by each transmission channel is judged according to the type, acquisition frequency and the like of the data signal in the basic information of the acquisition equipment, and further bandwidth configuration is carried out according to the processing capacity range of the data server under the condition that the bandwidth required by the transmission channel is determined. The method meets the transmission requirement and the processing capacity requirement of the data server.

In the above, a TCP network protocol is adopted between the collection node and the data server for data transmission.

In the above, when the bandwidth is referred to as an average value of the set bandwidth range, the bandwidth gradually decreases along the average value and approaches a lower limit value of the bandwidth range, and the compensation setting forms a compensation signal so that the control section increases the bandwidth window.

In the above, when the bandwidth is referred to as an average value of the set bandwidth range, the bandwidth gradually rises along the average value and approaches an upper limit value of the bandwidth range, and the compensation setting forms a compensation signal so that the control section lowers the bandwidth window.

In the above description, the bandwidth window mainly refers to a sliding window, and the port response capability during data transmission is adjusted through the sliding window, so as to reduce delay. The method mainly aims at increasing the transmission capacity by increasing the sliding window when the bandwidth transmission capacity is reduced but data blockage does not occur, and correspondingly, when the bandwidth is fully satisfied, the sliding window needs to be released, so that the sliding window can form dynamic allocation.

In the above, the size of the transmission rate of the data signal transmitted from the acquisition node is set by the bandwidth range, the upper limit value of the transmission rate is set by the upper limit value of the bandwidth range, and the lower limit value of the transmission rate is set by the lower limit value of the bandwidth range.

In the above, the display symbol corresponding to each reference value is set to be different, and the obtained reference value is synchronized to the display unit by the monitor, and the display unit loads the corresponding display symbol according to the reference value, and sets the display symbol corresponding to the display symbol in the region, so as to obtain the distribution state of the display symbol during the transmission period.

In the above, the reference value is set between the upper limit value of the transmission rate and the lower limit value of the transmission rate, a plurality of contour lines are set in the display unit according to the correspondence of the reference value, each contour line is corresponding to the display symbol, when the reference value is synchronized to the display unit, the display symbol is loaded corresponding to the reference value, and the display symbol is displayed on the corresponding contour line to form a display.

In the above, when the display unit sets the contour line, the contour line transverse reference is set by taking time as a reference axis.

The data transmission rate of each transmission channel in each acquisition node can be obtained in real time through the display unit, the distribution state of the transmission rate on each time node is known in real time, and the stability of the transmission rate is judged through the distribution state.

Example 2:

referring to fig. 2, the present invention further provides an energy internet of things data visualization system, including:

the system comprises a data server, a plurality of acquisition nodes connected with the data server and a display unit connected with the data server;

wherein, the data server includes:

a data processor;

the resource management and control module is connected with the data processor and used for determining the processing capacity range of the data processor when the data processor processes the data according to the available resources of the data processor and the states of the available resources;

the adjusting module is connected with the resource management and control module and is used for controlling the adjusting module to adjust the transmission rate of the data signals transmitted from the acquisition node according to the processing capacity range;

the predefining module is connected with the adjusting module and predefines the transmission rate, and the predefining content comprises an upper limit value of the defined transmission rate, a lower limit value of the defined transmission rate and a plurality of uniformly set reference values between the upper limit value of the transmission rate and the lower limit value of the transmission rate;

the display configuration module is connected with the predefined module, configures a display symbol for each reference value, and enables the stability of the transmission rate to be judged through the distribution state by recording and displaying the display symbol corresponding to the transmission rate and the distribution state of the display symbol in the transmission period at the display end when the acquisition node transmits the data signal to the data processor.

Further, the resource management and control module judges the range of the utilization rate of the available resources according to the state of the available resources, and judges the upper limit value of the data processing capacity and the lower limit value of the data processing capacity according to the range of the utilization rate, so that the data processing capacity range is obtained.

In the above, the collection node has:

a communication part which communicates with the data server and is used for acquiring the adjustment instruction sent by the adjustment module;

a control part connected to the communication part for receiving the adjustment instruction, and distributing the bandwidth range of each transmission channel for transmission by the distributor through the adjustment instruction so as to limit the transmission rate of the data signal transmitted from the acquisition node;

and an adaptive compensation unit is arranged in the control part, and is used for monitoring the bandwidth of each transmission channel and forming a compensation setting for adjusting bandwidth fluctuation according to the fluctuation condition of the bandwidth, wherein when the bandwidth is used as a reference by taking the average value of the set bandwidth range as the reference, the bandwidth is close to the lower limit value/the upper limit value of the bandwidth range, and the compensation setting forms a compensation signal so that the control part can adjust the bandwidth window.

When the bandwidth allocation is carried out by the acquisition node, a plurality of independent transmission channels are established according to the accessed acquisition equipment, the maximum bandwidth required by each transmission channel is judged according to the type, acquisition frequency and the like of the data signal in the basic information of the acquisition equipment, and further bandwidth configuration is carried out according to the processing capacity range of the data server under the condition that the bandwidth required by the transmission channel is determined. The method meets the transmission requirement and the processing capacity requirement of the data server.

In the above, a TCP network protocol is adopted between the collection node and the data server for data transmission.

In the above, when the bandwidth is referred to as an average value of the set bandwidth range, the bandwidth gradually decreases along the average value and approaches a lower limit value of the bandwidth range, and the compensation setting forms a compensation signal so that the control section increases the bandwidth window.

In the above, when the bandwidth is referred to as an average value of the set bandwidth range, the bandwidth gradually rises along the average value and approaches an upper limit value of the bandwidth range, and the compensation setting forms a compensation signal so that the control section lowers the bandwidth window.

In the above description, the bandwidth window mainly refers to a sliding window, and the port response capability during data transmission is adjusted through the sliding window, so as to reduce delay. The method mainly aims at increasing the transmission capacity by increasing the sliding window when the bandwidth transmission capacity is reduced but data blockage does not occur, and correspondingly, when the bandwidth is fully satisfied, the sliding window needs to be released, so that the sliding window can form dynamic allocation.

In the above, the size of the transmission rate of the data signal transmitted from the acquisition node is set by the bandwidth range, the upper limit value of the transmission rate is set by the upper limit value of the bandwidth range, and the lower limit value of the transmission rate is set by the lower limit value of the bandwidth range.

In the above, the display symbol corresponding to each reference value is set to be different, and the obtained reference value is synchronized to the display unit by the monitor, and the display unit loads the corresponding display symbol according to the reference value, and sets the display symbol corresponding to the display symbol in the region, so as to obtain the distribution state of the display symbol during the transmission period.

In the above, the reference value is set between the upper limit value of the transmission rate and the lower limit value of the transmission rate, a plurality of contour lines are set in the display unit according to the correspondence of the reference value, each contour line is corresponding to the display symbol, when the reference value is synchronized to the display unit, the display symbol is loaded corresponding to the reference value, and the display symbol is displayed on the corresponding contour line to form a display.

In the above, when the display unit sets the contour line, the contour line transverse reference is set by taking time as a reference axis.

The data transmission rate of each transmission channel in each acquisition node can be obtained in real time through the display unit, the distribution state of the transmission rate on each time node is known in real time, and the stability of the transmission rate is judged through the distribution state.

According to the method and the device, the transmission rate of the acquisition node is distributed according to the requirement of data transmission of the acquisition node, namely, the bandwidth of the corresponding transmission channel is distributed according to the requirement of the data transmission of the acquisition node, so that the acquisition node can stably transmit data under the set bandwidth, data accumulation can not occur on one hand, and the processing delay of a data server end can not be caused on the other hand, and abnormal states of the acquisition node can not be monitored timely.

Meanwhile, when bandwidth allocation is carried out by the acquisition node, a plurality of independent transmission channels are established according to the accessed acquisition equipment, the maximum bandwidth required by each transmission channel is judged according to the type, acquisition frequency and the like of data signals in basic information of the acquisition equipment, and further bandwidth configuration is carried out according to the processing capacity range of the data server under the condition that the bandwidth required by the transmission channel is determined. The method meets the transmission requirement and the processing capacity requirement of the data server.

The data transmission rate of each transmission channel in each acquisition node can be obtained in real time through the display unit, the distribution state of the transmission rate on each time node is known in real time, and the stability of the transmission rate is judged through the distribution state.

The foregoing description of embodiments of the invention has been presented for purposes of illustration and description, and is not intended to be exhaustive or limited to the embodiments disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art without departing from the scope and spirit of the various embodiments described. The terminology used herein was chosen in order to best explain the principles of the embodiments, the practical application, or the technical improvements in the marketplace, or to enable others of ordinary skill in the art to understand the embodiments disclosed herein.

Claims (9)

1. The energy Internet of things data visualization method is characterized by comprising the following steps of:

determining a processing capacity range of a data processor;

controlling an adjusting module to adjust the transmission rate of the data signal transmitted from the acquisition node according to the processing capacity range, predefining the transmission rate, wherein the predefining comprises defining an upper limit value of the transmission rate and a lower limit value of the transmission rate, and a plurality of uniformly set reference values between the upper limit value of the transmission rate and the lower limit value of the transmission rate;

and configuring a display symbol for each reference value, and judging the stability of the transmission rate through recording and displaying the display symbol corresponding to the transmission rate and the distribution state of the display symbol in the transmission period at a display end when the acquisition node transmits a data signal to the data processor.

2. The method for visualizing data in an energy internet of things according to claim 1, wherein the processing capacity range of the data processor when performing data processing is determined according to available resources of the data processor and states of the available resources.

3. The method for visualizing data on an energy internet of things according to claim 1 or 2, wherein the data processor determines a range of available resource usage according to a state of available resources, and determines an upper limit value of data processing capability and a lower limit value of data processing capability through the range of usage, thereby obtaining the data processing capability range.

4. The method for visualizing data in an energy internet of things according to claim 1, wherein said acquisition node has:

a communication part which communicates with the data server and is used for acquiring the adjustment instruction sent by the adjustment module;

a control part connected to the communication part for receiving the adjustment instruction, and distributing the bandwidth range of each transmission channel for transmission by the distributor through the adjustment instruction, and limiting the transmission rate of the data signal transmitted from the acquisition node;

and an adaptive compensation unit is arranged in the control part, and is used for monitoring the bandwidth of each transmission channel and forming a compensation setting for adjusting bandwidth fluctuation according to the fluctuation condition of the bandwidth, wherein when the bandwidth is used as a reference by taking the average value of the set bandwidth range as the reference, the bandwidth is close to the lower limit value/the upper limit value of the bandwidth range, and the compensation setting forms a compensation signal so that the control part can adjust the bandwidth window.

5. The method for visualizing data on internet of things according to claim 1, wherein the display symbols corresponding to each reference value are set to be different, and the obtained reference values are synchronized to a display unit by a monitor, and the display unit loads the corresponding display symbols according to the reference values and sets the display symbols in the region corresponding to the display symbols, so as to obtain the distribution state of the display symbols during transmission.

6. The method according to claim 5, wherein the reference value is set between an upper limit value of the transmission rate and a lower limit value of the transmission rate, a plurality of contour lines are set in the display unit according to the correspondence of the reference value, each contour line is formed to correspond to the display symbol, and when the reference value is synchronized to the display unit, the display symbol is loaded corresponding to the reference value, and the display symbol is displayed on the corresponding contour line to form a display.

7. The method for visualizing data in an energy internet of things according to claim 6, wherein when the display unit sets a contour line, the contour line is set by referring to a time reference axis in a lateral direction.

8. Energy thing networking data visualization system, its characterized in that includes:

the system comprises a data server, a plurality of acquisition nodes connected with the data server and a display unit connected with the data server;

wherein, the data server includes:

a data processor;

the resource management and control module is connected with the data processor and used for determining the processing capacity range of the data processor when the data processor processes the data according to the available resources of the data processor and the states of the available resources;

the adjusting module is connected with the resource management and control module and is used for controlling the adjusting module to adjust the transmission rate of the data signals transmitted from the acquisition node according to the processing capacity range;

the predefining module is connected with the adjusting module and predefines the transmission rate, and the predefining content comprises an upper limit value of the defined transmission rate, a lower limit value of the defined transmission rate and a plurality of uniformly set reference values between the upper limit value of the transmission rate and the lower limit value of the transmission rate;

the display configuration module is connected with the predefined module, configures a display symbol for each reference value, and enables the stability of the transmission rate to be judged through the distribution state by recording and displaying the display symbol corresponding to the transmission rate and the distribution state of the display symbol in the transmission period at the display end when the acquisition node transmits the data signal to the data processor.

9. The energy internet of things data visualization system according to claim 8, wherein the resource management and control module determines a range of available resource usage according to a state of available resources, and determines an upper limit value of data processing capacity and a lower limit value of data processing capacity according to the range of the usage, and obtains the data processing capacity range.