CN113852796A - Power grid Ka high-flux satellite network timing image uploading method and device - Google Patents

Abstract

The invention discloses a method and a device for uploading a power grid Ka high-flux satellite network timing image, wherein a software framework based on a management platform and a Ka high-flux satellite integrated portable station are provided with a return strategy based on time, equipment and events, so that effective acquisition of routing inspection information can be realized, the utilization efficiency of channel resources is improved, the network timing image uploading can realize centralized control, the return strategy is adjusted in a targeted manner for different field concern factors of environments where power equipment is located, the uploading efficiency and precision of the power grid Ka high-flux satellite network timing image are improved, and the method and the device are high in accuracy, high in speed and good in real-time performance.

Description

Power grid Ka high-flux satellite network timing image uploading method and device

Technical Field

The invention relates to a software development technology of a network management system in the technical field of computers, and also relates to a communication technology related to geographical position information, in particular to a method and a device for uploading timing images of a power grid Ka high-flux satellite network, a readable storage medium and a computer control system.

Background

In the field of power systems, because of the wide distribution and partial remoteness of power service networks, and the fact that ground public network communication networks and private network communication networks cannot completely meet real-time communication requirements, a Ka high-throughput satellite communication network needs to be introduced for supplementary services. The ground public network communication network is mainly a 3G, 4G or 5G wireless communication network. The private network communication network mainly comprises power system carrier communication, 1.4G or 1.8G wireless private network communication and a traditional Ku frequency band satellite communication private network.

Although the 4G/5G wireless public network is better covered in urban areas, a coverage blind area or poor coverage phenomenon usually exists in application scenes such as mountains and mountains, sea-crossing power transmission lines and the like; the construction of a 1.4G or 1.8G wireless private network communication system is still in a primary stage, and the overall coverage rate is not good enough; the traditional Ku frequency band satellite communication system has the inherent characteristics of large equipment volume, high weight, large power consumption, poor portability and expensive communication bandwidth resources.

Therefore, the application of the communication network in the power system is limited no matter the ground public network communication network or the ground private network communication network. In a typical satellite network access scene, an intelligent portable antenna of a satellite network is connected with a plurality of devices through a router, data collected by the devices are reported to a management platform through the intelligent portable antenna, and data analysis and monitoring are carried out through the management platform. However, there are some disadvantages in the existing satellite network access scenario: the geographical condition of power station construction is complex, and a management platform can acquire a large amount of data reported by a plurality of devices, so that network resources are not saved, and communication network faults are easily caused; when the anti-external-damage camera and the sensor for assisting the production of the power system are installed on the iron tower, the data transmission of the anti-external-damage camera and the sensing system is difficult on the iron tower which is not covered by public and private networks, and the waste of communication resources can be caused during the video return; the existing unmanned aerial vehicle can not provide stable high bandwidth and low cost guarantee when data is transmitted back to the command center, and is not beneficial to saving channel resources.

Disclosure of Invention

In order to solve the problems in the background art, a method for uploading timing images of a power grid Ka high-throughput satellite network is provided, when a high-throughput satellite integrated portable station uploads data, the data of specified equipment is reported and returned regularly through an uploading strategy set by a router in the portable station, so that the utilization efficiency of channel resources is improved, and meanwhile, a management platform can also effectively obtain monitoring data returned by an intelligent portable antenna.

The invention relates to a power grid Ka high-flux satellite network timing image uploading method, which comprises the following steps:

s1, acquiring power equipment information through the intelligent portable antenna and integrating the power equipment information into a Ka high-flux satellite network management platform;

s2, acquiring the position information of the electric power equipment through Beidou position positioning, and acquiring the meteorological information of the position of the electric power equipment through meteorological data sensing equipment;

s3 uploading the weather information and the position information to the management platform through a network router in the Ka high-flux satellite integrated portable station;

s4, the management platform sets an image return strategy according to the weather information and the position information; the network router reports and returns the image data of the designated power equipment according to the image returning strategy;

s5, identifying the field concern factors according to the returned image, setting the weight coefficient of the field concern factors, and calculating the state concern degree value according to the field concern factors and the weight coefficient;

s6, adjusting the image return frequency according to the state attention value.

The software architecture based on the management platform and the Ka high-throughput satellite integrated portable station are provided with a return strategy based on time, equipment and events, effective acquisition of routing inspection information can be achieved, channel resource utilization efficiency is improved, network timing image uploading can be achieved, centralized management and control can be achieved, the return strategy can be adjusted in a targeted mode for different field concern factors of environments where power equipment is located, uploading efficiency and accuracy of power grid Ka high-throughput satellite network timing images are improved, accuracy is high, speed is high, and real-time performance is good.

The Ka high-flux satellite is a novel communication satellite adopting a Ka frequency band. The Ka frequency band has the characteristics of wide usable bandwidth, less interference and small equipment volume. Therefore, the Ka band broadband satellite communication system can provide a new means for new services such as high-speed satellite communication, gigabit broadband digital transmission, High Definition Television (HDTV), satellite news collection (SNG), VSAT service, direct-to-home (DTH) service, and personal satellite communication.

Specifically, the intelligent portable antenna is connected with a plurality of electric power devices through a router in a satellite network, reports data acquired by the electric power devices to a management platform, and performs data analysis and monitoring through the management platform.

Furthermore, the Beidou position positioning module is arranged in the intelligent portable antenna, acquires position information in real time and draws the position of the equipment in real time by using a map; the meteorological data sensing equipment is arranged in the intelligent portable antenna and used for collecting rainfall, water vapor and oxygen meteorological data of the position of the intelligent portable antenna in real time.

Further, the step of setting an image return strategy by the management platform according to the weather information and the position information comprises: and counting the data reliability under different weather conditions according to the historical image return data, and selecting a weather scene with the optimal return effect for returning by combining the weather forecast of the position of the power equipment.

Further, the step of reporting and returning the image data of the specified power device by the network router according to the image return policy includes: acquiring time node and MAC address information set by the image return strategy; searching for devices online at the time node and devices in a dormant state; waking up the device in the sleep state; and opening the return permission of the MAC address of the searched equipment, and reporting the image data to the management platform by the equipment through the router.

Further, the site concerns include landslide, flood, fire, air volume, temperature and humidity; and selecting field attention factors according to background requirements, selecting landslide, flood, fire and air volume attention factors from ground data collected by the unmanned aerial vehicle, and not selecting temperature and humidity attention factors.

Further, the steps of setting a weight coefficient of the field attention factor, calculating a state attention degree value according to the field attention factor and the weight coefficient, and adjusting the image return frequency according to the state attention degree value include: presetting a quantization standard for the field concern factors, determining corresponding values, calculating a state concern degree value by combining preset weight coefficients,

G＝l*x_l+s*x_s+f*x_f+w*x_w+t*x_t+h*x_h

wherein G is a state attention numerical value, the landslide is l, the flood is s, the fire is f, the air volume is w, the temperature is t, the humidity is h, the landslide weight coefficient is xl, the flood weight coefficient is xs, the fire weight coefficient is xf, the air volume weight coefficient is xw, the temperature weight coefficient is xt, and the humidity weight coefficient is xh;

and if the state attention degree value is larger than the historical state attention degree value, improving the image return frequency, and updating the image return strategy of the power equipment in a linkage manner according to the corresponding relation between the field attention factor and the position of the power equipment.

The invention also provides a device for uploading the timing image of the power grid Ka high-flux satellite network, which comprises:

the device is used for acquiring the information of the electric power equipment through the intelligent portable antenna and integrating the information into a Ka high-flux satellite network management platform;

the device is used for acquiring the position information of the electric power equipment through Beidou position positioning and acquiring the meteorological information of the position of the electric power equipment through meteorological data sensing equipment;

means for uploading said weather information and said location information to said management platform via a network router in a Ka high-throughput satellite-integrated portable station;

the management platform is used for setting an image return strategy according to the meteorological information and the position information; the network router reports and returns the image data of the specified power equipment according to the image returning strategy;

the device is used for identifying the field concern factors according to the returned image, setting the weight coefficient of the field concern factors and calculating a state concern degree value according to the field concern factors and the weight coefficient;

and the device is used for adjusting the image return frequency according to the state attention degree value.

Further, the present invention provides a readable storage medium having a control program stored thereon, characterized in that: when being executed by a processor, the control program realizes the method for uploading the timing images of the power grid Ka high-flux satellite network.

Further, the present invention provides a computer control system, including a storage, a processor, and a control program stored in the storage and executable by the processor, wherein: when the processor executes the control program, the power grid Ka high-flux satellite network timing image uploading method is realized.

In order that the invention may be more clearly understood, specific embodiments thereof will be described hereinafter with reference to the accompanying drawings.

Drawings

Fig. 1 is a flowchart of a method for uploading timing images of a power grid Ka high-flux satellite network according to an embodiment of the invention.

Fig. 2 is a high throughput satellite network networking architecture diagram according to an embodiment of the invention.

FIG. 3 is a diagram of a management platform software architecture according to an embodiment of the present invention.

Fig. 4 is a schematic diagram of a communication box functional module of the Ka high-throughput satellite integrated portable station according to the embodiment of the invention.

Fig. 5 is a flowchart illustrating an image return process of the Ka high-throughput satellite integrated portable station according to an embodiment of the present invention.

FIG. 6 is a flowchart illustrating the management platform setting an image return policy according to weather information and location information according to an embodiment of the present invention.

Fig. 7 is a flowchart illustrating an image return policy updating process according to an embodiment of the invention.

Detailed Description

Please refer to fig. 1, which is a flowchart illustrating a timing image uploading method for a power grid Ka high-throughput satellite network according to an embodiment of the present invention.

The invention relates to a power grid Ka high-flux satellite network timing image uploading method, which comprises the following steps:

s1, acquiring power equipment information through the intelligent portable antenna and integrating the power equipment information into a Ka high-flux satellite network management platform;

s2, acquiring the position information of the electric power equipment through Beidou position positioning, and acquiring the meteorological information of the position of the electric power equipment through meteorological data sensing equipment;

s3 uploading the weather information and the position information to the management platform through a network router in the Ka high-flux satellite integrated portable station;

s4, the management platform sets an image return strategy according to the weather information and the position information; the network router reports and returns the image data of the designated power equipment according to the image returning strategy;

s5, identifying the field concern factors according to the returned image, setting the weight coefficient of the field concern factors, and calculating the state concern degree value according to the field concern factors and the weight coefficient;

s6, adjusting the image return frequency according to the state attention value.

According to the invention, the software architecture based on the management platform and the Ka high-throughput satellite integrated portable station are provided with the return strategy based on time, equipment and events, so that effective acquisition of routing inspection information can be realized, the utilization efficiency of channel resources is improved, network timing image uploading is realized, centralized management and control can be realized, the return strategy is adjusted in a targeted manner for different field concern factors of the environments of the power equipment, the uploading efficiency and precision of the power grid Ka high-throughput satellite network timing image are improved, and the method has the advantages of high accuracy, high speed and good real-time property.

Fig. 2 is a high throughput satellite network networking architecture diagram according to an embodiment of the invention.

The management platform of the embodiment is responsible for centralized management and control of network access, equipment and user service equipment of a plurality of Ka high-throughput satellite integrated portable stations. Each different user needs to configure an independent server to deploy an independent information center. The Ka high-flux satellite integrated portable station is connected with a command and scheduling information center of a power grid emergency command center to complete the functions of front satellite network access and command communication. The Ka high-flux satellite communication network provides services such as high-flux satellite communication, safe access, channel management and the like for the high-flux satellite integrated portable station in the practical application scene of the power system; the management platform realizes a satellite network management system and can remotely monitor, manage and maintain network elements in a network. The management platform and the Ka high-flux satellite integrated portable station are connected through a high-flux satellite communication network, and fig. 2 is a networking architecture under a newly-built power station application scene.

Specifically, the intelligent portable antenna is connected with a plurality of electric power devices through a router in a satellite network, reports data acquired by the electric power devices to a management platform, and performs data analysis and monitoring through the management platform. In the management platform, all equipment is managed through a unified interface, and differences of different equipment operation interfaces are invisible to a user; the management platform equipment system of each industry has specificity, such as a public security industry integrated geographic information, Beidou positioning, cluster scheduling, testimony verification and administrative office system, an electric power industry integrated unmanned aerial vehicle, an individual soldier graph transmission and video conference system, and a shipping industry integrated communication-in-motion antenna, a video monitoring and broadband internet access system; the management platform supports remote operation, integrates a geographic information platform and a video platform, and has the advantages of adjustable images, portrayal tracks and accurate vehicle and ship positioning.

Furthermore, the Beidou position positioning module is arranged in the intelligent portable antenna, acquires position information in real time and draws the position of the equipment in real time by using a map; the meteorological data sensing equipment is arranged in the intelligent portable antenna and used for collecting rainfall, water vapor and oxygen meteorological data of the position of the intelligent portable antenna in real time. The Beidou position positioning module of the embodiment adopts a Beidou satellite navigation system, is a global satellite positioning and communication system (BDS) developed by China, and is a satellite navigation system which is the third mature after American Global Positioning System (GPS) and Russian GLONASS. The system consists of a space end, a ground end and a user end, can provide high-precision and high-reliability positioning, navigation and time service for various users all day long in the world, has short message communication capacity, and initially has regional navigation, positioning and time service capacity.

FIG. 3 is a diagram of a management platform software architecture according to an embodiment of the present invention.

The management platform setting an image return strategy according to the weather information and the position information comprises the following steps: and counting the data reliability under different weather conditions according to the historical image return data, and selecting a weather scene with the optimal return effect for returning by combining the weather forecast of the position of the power equipment. The smaller the environmental noise interference caused by weather conditions is, the better the return effect is.

Fig. 4 is a schematic diagram of a communication box functional module of the Ka high-throughput satellite integrated portable station according to the embodiment of the invention. The method is suitable for various application scenes of the power system, can be repeatedly used in application scenes of different time and different places, and saves investment.

Fig. 5 is a flowchart illustrating an image return process of the Ka high-throughput satellite integrated portable station according to an embodiment of the present invention.

FIG. 6 is a flowchart illustrating the management platform setting an image return policy according to weather information and location information according to an embodiment of the present invention.

Fig. 7 is a flowchart illustrating an image return policy updating process according to an embodiment of the invention.

The step that the network router reports and returns the image data of the appointed power equipment according to the image return strategy comprises the following steps: acquiring time node and MAC address information set by the image return strategy; searching for devices online at the time node and devices in a dormant state; waking up the device in the sleep state; and opening the return permission of the MAC address of the searched equipment, and reporting the image data to the management platform by the equipment through the router.

Further, the site concerns include landslide, flood, fire, air volume, temperature and humidity; and selecting field attention factors according to background requirements, selecting landslide, flood, fire and air volume attention factors from ground data collected by the unmanned aerial vehicle, and not selecting temperature and humidity attention factors.

Further, the steps of setting a weight coefficient of the field attention factor, calculating a state attention degree value according to the field attention factor and the weight coefficient, and adjusting the image return frequency according to the state attention degree value include: presetting a quantization standard for the field concern factors, determining corresponding values, calculating a state concern degree value by combining preset weight coefficients,

G＝l*x_l+s*x_s+f*x_f+w*x_w+t*x_t+h*x_h

wherein G is a state attention numerical value, the landslide is l, the flood is s, the fire is f, the air volume is w, the temperature is t, the humidity is h, the landslide weight coefficient is xl, the flood weight coefficient is xs, the fire weight coefficient is xf, the air volume weight coefficient is xw, the temperature weight coefficient is xt, and the humidity weight coefficient is xh;

and if the state attention degree value is larger than the historical state attention degree value, improving the image return frequency, and updating the image return strategy of the power equipment in a linkage manner according to the corresponding relation between the field attention factor and the position of the power equipment.

Compared with the prior art, the software architecture based on the management platform and the Ka high-throughput satellite integrated portable station set the return strategy based on time, equipment and events, can effectively acquire routing inspection information, improve the utilization efficiency of channel resources, upload network timing images, realize centralized management and control, pertinently adjust the return strategy for field concerns of different environments of the power equipment, and cannot generate a large amount of communication data to cause resource waste, so that the applicability is wider.

The present invention is not limited to the above-described embodiments, and various modifications and variations of the present invention are included in the scope of the claims and the equivalent technology of the present invention if they do not depart from the spirit and scope of the present invention.

Claims (10)

1. A timing image uploading method for a power grid Ka high-flux satellite network comprises the following steps:

acquiring power equipment information through an intelligent portable antenna and integrating the power equipment information into a Ka high-flux satellite network management platform;

the method comprises the steps that position information of the electric power equipment is obtained through a Beidou position positioning module, and meteorological information of the position of the electric power equipment is obtained through meteorological data sensing equipment;

uploading the weather information and the position information to the management platform through a network router in a Ka high-flux satellite integrated portable station;

the management platform sets an image return strategy according to the meteorological information and the position information; the network router reports and returns the image data of the designated power equipment according to the image returning strategy;

identifying field attention factors according to the returned image, setting weight coefficients of the field attention factors, and calculating a state attention degree value according to the field attention factors and the weight coefficients;

and adjusting the image return frequency according to the state attention degree value.

2. The method for uploading the timing image of the Ka high-flux satellite network of the power grid according to claim 1, wherein the method comprises the following steps: the intelligent portable antenna is connected with the plurality of electric power equipment through the router in the satellite network, reports the data acquired by the electric power equipment to the management platform, and performs data analysis and monitoring through the management platform.

3. The method for uploading the timing image of the Ka high-flux satellite network of the power grid according to claim 1, wherein the method comprises the following steps: the Beidou position positioning module is arranged in the intelligent portable antenna, acquires position information in real time and draws the position of equipment in real time by using a map; the meteorological data sensing equipment is arranged in the intelligent portable antenna and used for collecting rainfall, water vapor and oxygen meteorological data of the position of the intelligent portable antenna in real time.

4. The method according to claim 1, wherein the step of setting an image feedback strategy by the management platform according to the weather information and the location information comprises: and counting the data reliability under different weather conditions according to the historical image return data, and selecting a weather scene with the optimal return effect for returning by combining the weather forecast of the position of the power equipment.

5. The method for uploading timing images of the power grid Ka high-throughput satellite network according to claim 1, wherein the step of reporting and returning the image data of the specified power equipment by the network router according to the image return policy comprises: acquiring time node and MAC address information set by the image return strategy; searching for devices online at the time node and devices in a dormant state; waking up the device in the sleep state; and opening the return permission of the MAC address of the searched equipment, and reporting the image data to the management platform by the equipment through the router.

6. The method for uploading the timing image of the Ka high-flux satellite network of the power grid according to claim 1, wherein the method comprises the following steps: the field concern factors include landslide, flood, fire, air volume, temperature and humidity; and selecting field attention factors according to background requirements, selecting landslide, flood, fire and air volume attention factors from ground data collected by the unmanned aerial vehicle, and not selecting temperature and humidity attention factors.

7. The method for uploading the timing images of the Ka high-flux satellite network of the power grid according to claim 6, wherein the steps of setting a weight coefficient of a field concern factor, calculating a state concern degree value according to the field concern factor and the weight coefficient, and adjusting the image return frequency according to the state concern degree value comprise: presetting a quantization standard for the field concern factors, determining corresponding values, calculating a state concern degree value by combining preset weight coefficients,

G＝l*x_l+s*x_s+f*x_f+w*x_w+t*x_t+h*x_h

wherein G is a state attention value, the landslide is l, the flood is s, the fire is f, the air volume is w, the temperature is t, the humidity is h, and the landslide weight coefficient is x_lThe flood weight coefficient is x_sThe fire weight coefficient is x_fThe weight coefficient of the air volume is x_wA temperature weight coefficient of x_tHumidity weight coefficient of x_h；

And if the state attention degree value is larger than the historical state attention degree value, improving the image return frequency, and updating the image return strategy of the power equipment in a linkage manner according to the corresponding relation between the field attention factor and the position of the power equipment.

8. A timing image uploading device for a power grid Ka high-flux satellite network comprises:

the device is used for acquiring the information of the electric power equipment through the intelligent portable antenna and integrating the information into a Ka high-flux satellite network management platform;

the device is used for acquiring the position information of the electric power equipment through Beidou position positioning and acquiring the meteorological information of the position of the electric power equipment through meteorological data sensing equipment;

means for uploading said weather information and said location information to said management platform via a network router in a Ka high-throughput satellite-integrated portable station;

the management platform is used for setting an image return strategy according to the meteorological information and the position information; the network router reports and returns the image data of the specified power equipment according to the image returning strategy;

the device is used for identifying the field concern factors according to the returned image, setting the weight coefficient of the field concern factors and calculating a state concern degree value according to the field concern factors and the weight coefficient;

and the device is used for adjusting the image return frequency according to the state attention degree value.

9. A readable storage medium having a control program stored thereon, characterized in that: the control program is executed by a processor to realize the power grid Ka high-flux satellite network timing image uploading method as claimed in any one of claims 1 to 7.

10. A computer control system comprising a memory, a processor, and a control program stored in said memory and executable by said processor, characterized in that: the processor executes the control program to realize the power grid Ka high-throughput satellite network timing image uploading method as claimed in any one of claims 1 to 7.

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