CN215647384U - Uplink and downlink resource joint distribution device applied to smart power grid - Google Patents

Abstract

The utility model discloses an uplink and downlink resource combined distribution device applied to a smart grid, which comprises an uploading module, wherein the uploading module is remotely connected with a base station receiving point, the base station receiving point is remotely connected with a collecting module, an initializing module is arranged below the collecting module, a processing module is arranged below the initializing module, the processing module is remotely connected with a smart grid control end, and a positioning module is arranged below the smart grid control end; this be applied to uplink and downlink resource joint distribution device of smart power grids can reach and effectively carry out intelligence and carry out uplink and downlink resource joint distribution through setting up upload module, basic station receiving point, collection module, initialization module, processing module, smart power grids control end, orientation module, distribution module, output module, signal base station, wireless transmission, user terminal, be convenient for adapt to the demand of handling the change of uplink and downlink traffic more fast.

Description

Uplink and downlink resource joint distribution device applied to smart power grid

Technical Field

The utility model relates to the technical field of uplink and downlink resource joint distribution devices, in particular to an uplink and downlink resource joint distribution device applied to a smart power grid.

Background

With the increasing number of smart phones and electronic tablet computers, the high-speed wireless multimedia service will show exponential growth, the smart grid is established on the basis of an integrated, high-speed two-way communication network, and the goals of reliability, safety, economy, high efficiency, environmental friendliness and safe use of the grid are realized through the application of advanced sensing and measuring technology, advanced equipment technology, advanced control method and advanced decision support system technology, the main characteristics of the smart grid comprise self-healing, excitation and user inclusion, attack resistance, provision of electric energy quality meeting the requirements of users in the 21 st century, permission of access of various power generation forms, starting of electric power markets and optimized and efficient operation of assets, because uplink and downlink transmission of TDD share the same spectrum resources, and different uplink and downlink configurations give different division ratios of uplink subframes and downlink subframes in the time domain, therefore, uplink transmission resources and downlink transmission resources are divided in a time domain, in the prior art, TDD uplink and downlink configuration is pre-configured through a high-level signaling, is static or semi-static configuration, cannot adapt to a requirement of rapid uplink and downlink traffic change, and is both subframe-level uplink and downlink proportion change, although a dynamic TDD technology can dynamically configure transmission directions of part of uplink subframes to change between uplink and downlink through signaling, only aims at configuration of part of uplink subframes and is subframe-level uplink and downlink proportion change.

The prior art has the following defects or problems:

1. in the prior art, TDD uplink and downlink configuration is pre-configured through high-level signaling, is static or semi-static changing configuration, cannot adapt to fast uplink and downlink traffic volume change requirements, and is both subframe-level uplink and downlink proportion change;

2. although the conventional allocation apparatus can allocate uplink and downlink resources, the allocation efficiency is slow, so that the user often cannot receive the allocated resources quickly, and the uplink transmission rate and the downlink efficiency have certain defects.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an uplink and downlink resource joint distribution device applied to a smart grid aiming at the defects in the prior art so as to solve the problems in the background art.

In order to achieve the purpose, the utility model provides the following technical scheme: the utility model provides an uplink and downlink resource joint distribution device for smart power grids, includes the upload module, upload module remote connection has the basic station receiving point, basic station receiving point remote connection has the collection module, the initialization module is installed to the collection module below, processing module is installed to initialization module below, processing module remote connection has smart power grids control end, positioning module is installed to smart power grids control end below.

As a preferred technical scheme of the utility model, a distribution module is arranged below the positioning module, and an output module is arranged below the distribution module.

As a preferable technical scheme of the utility model, the output module is remotely connected with a signal base station, and wireless transmission is installed below the signal base station.

As a preferred technical scheme of the utility model, the wireless transmission remote connection is connected with a user terminal, and the wireless transmission adopts a five G signal.

As a preferred technical scheme of the utility model, the initialization module adopts a genetic algorithm, and the processing module adopts a genetic algorithm.

As a preferred technical scheme of the utility model, a GPS positioning system and a WIFI positioning system are arranged in the positioning module, and a WIFI receiver is connected to the outside of the user terminal.

As a preferred technical solution of the present invention, a wireless connection end is provided inside the signal base station, and the signal base station is connected with the user terminal through wireless transmission.

Compared with the prior art, the utility model provides an uplink and downlink resource joint distribution device applied to a smart power grid, which has the following beneficial effects:

1. the uplink and downlink resource joint distribution device applied to the smart grid is provided with an uploading module, a base station receiving point, a collection module, an initialization module and a processing module, wherein the position location of a user terminal and antenna beam configuration information are transmitted to the base station receiving point through the uploading module, data information is remotely transmitted to the collection module of the terminal through the base station receiving point to be collected and sorted, the information collection efficiency is conveniently improved, the resource distribution initialization is carried out on the uplink and downlink resources through a genetic algorithm adopted by the initialization module to be conveniently sorted and distributed, and then the genetic algorithm adopted by the processing module is used for carrying out the processes of proper calculation, crossing, variation and iterative convergence on the uplink and downlink resources, wherein compared with the traditional algorithm, the genetic algorithm has the advantages of being capable of quickly obtaining better optimization results, the processed optimal distribution result is transmitted to a control end of the smart power grid for uniform distribution processing, so that the uniform efficiency of transmission is improved, and uplink and downlink resources can be reasonably distributed;

2. the uplink and downlink resource joint distribution device applied to the smart grid is characterized in that a smart grid control end, a positioning module, a distribution module, an output module, a signal base station, wireless transmission and a user terminal are arranged, wherein a processed optimal distribution result is transmitted to the smart grid control end for uniform distribution processing, then the positioning module is used for a GPS or WIFI positioning system to lock the user terminal, so that the position of a user can be conveniently and accurately positioned, thereby avoiding a transmission error, then the optimal distribution is carried out by the distribution module through an optimal result obtained by analyzing uplink and downlink resources by adopting a genetic algorithm, the output module is used for outputting the optimal result and issuing the distribution results of the uplink and downlink resources and frequency resources, then the distribution results are transmitted to the signal base station for signal transfer, and then five G signals adopted by wireless transmission are quickly transmitted to a wireless connector connected with the user terminal, and transmit to user terminal in, this novel can effectively carry out intelligent uplink and downlink resource optimal allocation, effectively improve uplink and downlink resource operation and handle the efficiency of distribution.

Drawings

FIG. 1 is a schematic diagram of a receiving processing structure of the apparatus of the present invention;

FIG. 2 is a schematic diagram of the distribution output structure of the apparatus of the present invention;

FIG. 3 is a diagram illustrating a receiving structure of a user equipment according to the present invention;

FIG. 4 is a schematic view of the overall flow structure of the dispensing device of the present invention.

In the figure: 1. an uploading module; 2. a base station receiving point; 3. a collection module; 4. initializing a module; 5. a processing module; 6. a smart grid control terminal; 7. a positioning module; 8. a distribution module; 9. an output module; 10. a signal base station; 11. wireless transmission; 12. a user terminal.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-4, in this embodiment: the utility model provides a be applied to smart power grids's uplink and downlink resource joint distribution device, includes upload module 1, upload module 1 remote connection has basic station receiving point 2, and 2 remote connections of basic station receiving point have collection module 3, and initialization module 4 is installed to collection module 3 below, and processing module 5 is installed to initialization module 4 below, and processing module 5 remote connection has smart power grids control end 6, and orientation module 7 is installed to smart power grids control end 6 below.

In this embodiment, an allocation module 8 is installed below the positioning module 7, an output module 9 is installed below the allocation module 8, wherein the positioning module 7 is used for positioning the uploading terminal by using a GPS or WIFI positioning system, the allocation module 8 is used for allocating optimal allocation by using an optimal result obtained by analyzing uplink and downlink resources by using a genetic algorithm, the output module 9 is used for outputting the optimal result and issuing the allocation result of the uplink and downlink resources and the frequency resources, the output module 9 is remotely connected with a signal base station 10, a wireless transmission 11 is installed below the signal base station 10, wherein the signal base station 10 performs the function of information transfer to facilitate transitional wireless transmission, the wireless transmission 11 uses a five-G transmission signal for rapid transmission, the issuing efficiency can be improved, the wireless transmission 11 is remotely connected with a user terminal 12, and the wireless transmission 11 uses a five-G signal, wherein the user terminal 12 can receive the transmitted signal, or the wireless signal inside the user terminal 12 can be fed back to the signal base station 10 through the wireless transmission 11, the initialization module 4 adopts a genetic algorithm, the processing module 5 adopts a genetic algorithm, wherein the initialization module 4 is used for allocating and initializing the uplink and downlink resources through the genetic algorithm, and the processing module 5 can also calculate, cross, mutate, iterate and converge the fitness of the genetic algorithm, in addition, compared with the traditional algorithm, the genetic algorithm has the advantages of being capable of acquiring better optimization results faster, a GPS positioning system and a WIFI positioning system are arranged inside the positioning module 7, a WIFI receiver is connected outside the user terminal 12, wherein the GPS positioning system and the WIFI positioning system can accurately position the feedback user to transmit the uplink and downlink resources, and the WIFI receiver can receive and transmit the allocated uplink and downlink resources, the signal base station 10 is provided with a wireless connection inside, and the signal base station 10 is connected with a user terminal 12 through a wireless transmission 11, wherein the wireless connection can carry out remote signal transmission.

The working principle and the using process of the utility model are as follows: the utility model relates to an uplink and downlink resource joint distribution device for smart power grids is when using, at first carry the position location of self and antenna beam configuration information on base station receiving point 2 through uploading module 1 through user terminal 12, collect the arrangement on collecting module 3 of terminal is carried to data message long-range through base station receiving point 2, the genetic algorithm that rethread initialization module 4 adopted carries out resource allocation initialization to uplink and downlink resource, conveniently arrange the distribution in order, the genetic algorithm that adopts by processing module 5 carries out moderate degree calculation, alternately, the process of variation, iterative convergence to uplink and downlink resource again, transmit the best distribution result of handling to smart power grids control end 6 and carry out the unified distribution processing, afterwards, carry out GPS or WIFI positioning system by orientation module 7 and lock user terminal 12, distribute through distribution module 8 and carry out the best branch through adopting the best result that genetic algorithm analysis uplink and downlink resource reachs The distribution is carried out, and output module 9 outputs the optimal result and issues the distribution result of uplink and downlink resources and frequency resources, then the distribution result is conveyed to signal base station 10 for signal transfer, and the five G signals adopted by wireless transmission 11 are quickly conveyed to the wireless connector connected with user terminal 12 and are transmitted to user terminal 12.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the utility model. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (7)

1. The utility model provides an upward and downward resource joint distribution device for smart power grids which characterized in that: including uploading module (1), upload module (1) remote connection has base station receiving point (2), base station receiving point (2) remote connection has collection module (3), initialization module (4) are installed to collection module (3) below, processing module (5) are installed to initialization module (4) below, processing module (5) remote connection has smart power grids control end (6), orientation module (7) are installed to smart power grids control end (6) below.

2. The device for jointly allocating uplink and downlink resources applied to the smart grid according to claim 1, wherein: distribution module (8) are installed to orientation module (7) below, output module (9) are installed to distribution module (8) below.

3. The device for jointly allocating uplink and downlink resources applied to the smart grid according to claim 2, wherein: the remote control system is characterized in that the output module (9) is remotely connected with a signal base station (10), and a wireless transmission device (11) is arranged below the signal base station (10).

4. The device for jointly allocating uplink and downlink resources applied to the smart grid according to claim 3, wherein: the wireless transmission (11) is remotely connected with a user terminal (12), and the wireless transmission (11) adopts a five-G signal.

5. The device for jointly allocating uplink and downlink resources applied to the smart grid according to claim 1, wherein: the initialization module (4) adopts a genetic algorithm, and the processing module (5) adopts a genetic algorithm.

6. The device for jointly allocating uplink and downlink resources applied to the smart grid according to claim 4, wherein: the positioning module (7) is internally provided with a GPS positioning system and a WIFI positioning system, and the user terminal (12) is externally connected with a WIFI receiver.

7. The device for jointly allocating uplink and downlink resources applied to the smart grid according to claim 4, wherein: the signal base station (10) is internally provided with a wireless connecting end, and the signal base station (10) is connected with a user terminal (12) through wireless transmission (11).

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