CN115996465A - Method and device for node connection allocation based on node data - Google Patents

Abstract

The embodiment of the invention discloses a method and a device for node connection allocation based on node data, wherein the method comprises the following steps: acquiring first functional data of a current node, and determining a child node allocation parameter corresponding to the current node according to the first functional data; acquiring second functional data corresponding to a plurality of sub-nodes of the current node, and judging whether sub-node connection adjustment is needed according to the second functional data and the sub-node allocation parameters; responding to the judging result of the connection adjustment of the child node, and determining an adjustment range according to the child node distribution parameter and the second functional data; and adjusting the child node connected with the current node based on the adjustment range. The scheme can be used for carrying out connection allocation according to the functional data condition of the nodes, improves the overall communication efficiency, and reduces the interference during the communication between the nodes.

Description

Method and device for node connection allocation based on node data

Technical Field

The embodiment of the application relates to the field of communication, in particular to a method and a device for node connection allocation based on node data.

Background

An IAB base station architecture generally includes an IAB master node and a plurality of IAB nodes, where the IAB master node is an IAB-capable base station, and includes CU-CP, CU-UP and DU, and is connected to a core network through an optical fiber to provide access services to UEs and a wireless backhaul link to the IAB nodes. Each IAB node carries two NR functions: an MT for wireless backhaul connection with an upstream IAB node or an IAB master node; a DU for downstream MT access by a UE or other IAB node.

In the related art, a flexible topology configuration scheme is provided for the IAB master node and the IAB node to meet the communication requirement, however, the existing node connection setting mode is mostly allocated based on the load condition of the node, and the mode needs to be improved for the node mechanism of the multifunctional data transmission.

Disclosure of Invention

The embodiment of the invention provides a method and a device for node connection allocation based on node data, which can allocate connection according to the condition of the functional data of nodes, improve the overall communication efficiency and reduce the interference during the communication between the nodes.

In a first aspect, an embodiment of the present invention provides a method for node connection allocation based on node data, where the method includes:

acquiring first functional data of a current node, and determining a child node allocation parameter corresponding to the current node according to the first functional data;

acquiring second functional data corresponding to a plurality of sub-nodes of the current node, and judging whether sub-node connection adjustment is needed according to the second functional data and the sub-node allocation parameters;

responding to the judging result of the connection adjustment of the child node, and determining an adjustment range according to the child node distribution parameter and the second functional data;

and adjusting the child node connected with the current node based on the adjustment range.

Optionally, the determining, according to the first function data, a child node allocation parameter corresponding to the current node includes:

and respectively determining corresponding sub-node allocation parameters under each multiplexing mode according to the first functional data, wherein the sub-node allocation parameters comprise time information and frequency information.

Optionally, the determining whether the adjustment of the connection of the child node is needed according to the second functional data and the child node allocation parameter includes:

according to whether the duty ratio of the parameters of the category corresponding to the child node distribution parameters recorded in the second functional data is larger than a preset value or not;

correspondingly, the response to the judging result of the need of the connection adjustment of the child node comprises the following steps:

and responding to a judgment result that the duty ratio of the parameters of the category corresponding to the child node distribution parameters recorded in the second functional data is larger than the preset value.

Optionally, the determining the adjustment range according to the child node allocation parameter and the second function data includes:

determining available information according to the time information and the frequency information;

and determining an adjustment range according to the available information and the second function data.

Optionally, the adjustment range includes a plurality of adjustment subintervals, and the adjusting the subnode connected to the current node based on the adjustment range includes:

and adjusting the child node connected with the corresponding current node in each adjustment subinterval.

Optionally, the adjusting the child node connected to the corresponding current node in each adjustment subinterval includes:

according to the obtained connection distribution data sent by other nodes, determining the matching connection information of the sub-nodes connected with the corresponding current node in each adjustment sub-interval;

and carrying out connection configuration of the child nodes based on the matched connection information.

Optionally, before the adjusting the child node connected to the current node based on the adjusting range, the method further includes:

and receiving connection allocation data sent by other equipment, wherein the connection allocation data comprises a plurality of segmentation intervals and is used for reference when other nodes are connected.

In a second aspect, an embodiment of the present invention further provides an apparatus for node connection allocation based on node data, including:

the distribution parameter determining module is configured to acquire first functional data of a current node, and determine a child node distribution parameter corresponding to the current node according to the first functional data;

the judging module is configured to acquire second functional data corresponding to a plurality of sub-nodes of the current node, and judge whether sub-node connection adjustment is needed according to the second functional data and the sub-node allocation parameters;

an adjustment range determining module configured to determine an adjustment range according to the child node allocation parameter and the second function data in response to a determination result that the child node connection adjustment is required;

and the adjusting module is configured to adjust the child node connected with the current node based on the adjusting range.

In a third aspect, an embodiment of the present invention further provides an apparatus for node connection allocation based on node data, where the apparatus includes:

one or more processors;

means for storing node connection assignments based on the node data, for storing one or more programs,

when the one or more programs are executed by the one or more processors, the one or more processors implement the method for node connection allocation based on node data according to the embodiment of the present invention.

In a fourth aspect, embodiments of the present invention further provide a storage medium containing computer-executable instructions, which when executed by a computer processor, are configured to perform the method for node connection allocation based on node data according to the embodiments of the present invention.

In a fifth aspect, the embodiments of the present application further provide a computer program product, which includes a computer program stored in a computer readable storage medium, from which at least one processor of the apparatus reads and executes the computer program, so that the apparatus performs the method for node connection allocation based on node data according to the embodiments of the present application.

In the embodiment of the invention, the first functional data of the current node is obtained, and the sub-node allocation parameter corresponding to the current node is determined according to the first functional data; acquiring second functional data corresponding to a plurality of sub-nodes of the current node, and judging whether sub-node connection adjustment is needed according to the second functional data and the sub-node allocation parameters; responding to the judging result of the connection adjustment of the child node, and determining an adjustment range according to the child node distribution parameter and the second functional data; and adjusting the child node connected with the current node based on the adjustment range. The scheme can be used for carrying out connection allocation according to the functional data condition of the nodes, improves the overall communication efficiency, and reduces the interference during the communication between the nodes.

Drawings

FIG. 1 is a flowchart of a method for node connection allocation based on node data according to an embodiment of the present invention;

fig. 2 is a flowchart of a method for determining whether a child node connection adjustment is needed according to an embodiment of the present invention;

FIG. 3 is a flowchart of a method for performing sub-node adjustment according to an embodiment of the present invention;

fig. 4 is a block diagram of a device for performing node connection allocation based on node data according to an embodiment of the present invention;

fig. 5 is a schematic structural diagram of an apparatus for performing node connection allocation based on node data according to an embodiment of the present invention.

Detailed Description

Embodiments of the present invention will be described in further detail below with reference to the drawings and examples. It should be understood that the particular embodiments described herein are illustrative only and are not limiting of embodiments of the invention. It should be further noted that, for convenience of description, only some, but not all of the structures related to the embodiments of the present invention are shown in the drawings.

Fig. 1 is a flowchart of a method for performing node connection allocation based on node data according to an embodiment of the present invention, where an embodiment of the present application specifically includes the following steps:

step S101, first functional data of a current node are obtained, and sub-node distribution parameters corresponding to the current node are determined according to the first functional data.

In one embodiment, the current node has different data processing functions, optionally including a data backhaul function for which the current node communicates with its parent node or core network and a data access function for which it communicates with a child node. Optionally, the data recorded in the execution process of the data backhaul function and the data access function are respectively represented by the first functional data and the second functional data.

In one embodiment, a child node allocation parameter corresponding to the current node is determined according to the first functional data. The child node allocation parameter includes time information and frequency information, and optionally, the determining manner may be: and respectively determining corresponding sub-node allocation parameters under each multiplexing mode according to the first functional data, wherein the sub-node allocation parameters comprise time information and frequency information. The time information and the frequency information may be obtained by counting the time and the frequency of the communication in the first functional data. For example, in the time interval [ a, b ], when the time record in the first function data is [ a1, b1], the obtained time information in the child node allocation parameter is [ a, a 1), (b 1, b ]. Taking the frequency information as an example, assuming that m frequency bands (1, 2,.. M) are included, and that the frequency bands used in the data processing process of the first function data are frequency band 2, frequency band 3, and frequency band 5, the remaining frequency bands in the m frequency bands are used as the frequency information in the sub-node allocation parameter.

Step S102, second function data corresponding to a plurality of sub-nodes of the current node are obtained, and whether sub-node connection adjustment is needed is judged according to the second function data and the sub-node distribution parameters.

In one embodiment, after determining the node allocation parameter of the current node, further obtaining second function data corresponding to a plurality of sub-nodes of the current node, where the second function data is data recorded when the current node communicates with each sub-node. Alternatively, time information and frequency information during the communication may be recorded. And judging whether the connection adjustment of the child node is needed according to the second functional data and the child node distribution parameters.

Optionally, the specific process of determining whether to perform the adjustment of the child node may be: and according to whether the duty ratio of the parameters of the category corresponding to the child node distribution parameters recorded in the second function data is larger than a preset value. Correspondingly, if the adjustment is larger than the preset value, the adjustment is judged to be needed, otherwise, the adjustment is not needed.

And step S103, determining an adjustment range according to the child node allocation parameters and the second functional data in response to the judging result of the need of the child node connection adjustment.

In one embodiment, for the case where the adjustment of the connection of the child node is required, the adjustment range is determined according to the child node allocation parameter and the second functional data. Alternatively, it may be: and determining available information according to the time information and the frequency information, and determining an adjustment range according to the available information and the second function data. In one embodiment, the determined time information and the frequency information may be directly used as the available information, or a subset interval may be selected from the determined time information, and a part of frequency bands may be selected from the determined frequency information as the available information.

In one embodiment, the adjustment range is determined based on the second functional data after the availability information is obtained. For example, the adjustment range may be composed of a plurality of adjustment subintervals. In particular, the determined adjustment sub-interval may be an interval covering the parameter recorded in the second functional data. For example, when the time of communication of one child node recorded in the second function data is [ a2, a3] taking the available information as time information [ a, a 1), (b 1, b ], wherein a2 is greater than a, a3 is less than a1, the corresponding determined adjustment range may be [ a4, a5], wherein a4 is greater than a less than a2, a5 is less than a1 is greater than a3, i.e., [ a2, a3] is the range covered by [ a4, a5], but is within [ a, a 1). Since the current node can access to a plurality of sub-nodes, different adjustment sub-intervals can be obtained for each sub-node according to different situations, and of course, one adjustment sub-interval can generally correspond to a plurality of sub-nodes.

And step S104, adjusting the child node connected with the current node based on the adjustment range.

In one embodiment, after the adjustment range is determined, the child node in the adjustment range is adjusted, and in the case that the adjustment range is inconsistent with the time information and the frequency information in the second functional data, the child node not falling in the adjustment range is not adjusted.

Alternatively, the adjustment mode may be: according to the obtained connection distribution data sent by other nodes, determining the matching connection information of the sub-nodes connected with the corresponding current node in each adjustment sub-interval; and carrying out connection configuration of the child nodes based on the matched connection information.

From the above, first functional data of the current node is obtained, and a child node allocation parameter corresponding to the current node is determined according to the first functional data; acquiring second functional data corresponding to a plurality of sub-nodes of the current node, and judging whether sub-node connection adjustment is needed according to the second functional data and the sub-node allocation parameters; responding to the judging result of the connection adjustment of the child node, and determining an adjustment range according to the child node distribution parameter and the second functional data; and adjusting the child node connected with the current node based on the adjustment range. The scheme can be used for carrying out connection allocation according to the functional data condition of the nodes, improves the overall communication efficiency, and reduces the interference during the communication between the nodes.

Fig. 2 is a flowchart of a method for determining whether a child node connection adjustment is needed according to an embodiment of the present invention, where, as shown in fig. 2, the method includes:

step 201, first functional data of a current node are acquired, and corresponding sub-node allocation parameters in each multiplexing mode are respectively determined according to the first functional data, wherein the sub-node allocation parameters comprise time information and frequency information.

Step S202, second function data corresponding to a plurality of sub-nodes of the current node are obtained, and whether the duty ratio of the parameters of the category corresponding to the sub-node distribution parameters recorded in the second function data is larger than a preset value or not is judged.

In one embodiment, the judging condition for judging whether the adjustment of the connection of the sub-node is needed may be that whether the duty ratio of the parameters of the category corresponding to the sub-node allocation parameter recorded in the second function data is larger than a preset value is determined. Taking the sub-node allocation parameter as time information as an example, accumulating the communication duration between the second function data of each sub-node and the current node, and assuming that the total duration of the time information is t1 and the duration obtained by accumulation is t2 in a fixed period, calculating the duty ratio in a t2/t1 mode, and comparing the duty ratio with a preset value to judge whether adjustment of sub-node connection is needed. Optionally, when the node connection is greater than the preset value, the node connection is adjusted, and when the node connection is not greater than the preset value, the node connection is not adjusted. Taking the sub-node allocation parameter as the frequency information as an example, assuming that p1 total frequency bands are included in the frequency information, at this time, counting the total frequency bands used in the second functional data of the sub-node of the node, assuming that p2 is used, at this time, calculating the ratio of p2/p1, and comparing the calculated ratio with a preset value, wherein the preset value can be a value set specifically for frequency, and the preset value in the example of the time information can be a value set specifically for time. And when the p2/p1 is larger than a preset value, adjusting the connection of the child nodes, otherwise, not adjusting.

And step 203, determining an adjustment range according to the sub-node allocation parameters and the second functional data in response to a judgment result that the duty ratio of the parameters of the category corresponding to the sub-node allocation parameters recorded in the second functional data is larger than the preset value.

And step S204, adjusting the child node connected with the current node based on the adjustment range.

According to the above, the first functional data of the current node is obtained, and the sub-node allocation parameter corresponding to the current node is determined according to the first functional data; acquiring second functional data corresponding to a plurality of sub-nodes of the current node, and judging whether sub-node connection adjustment is needed according to the second functional data and the sub-node allocation parameters; responding to the judging result of the connection adjustment of the child node, and determining an adjustment range according to the child node distribution parameter and the second functional data; and adjusting the child node connected with the current node based on the adjustment range. The scheme can be used for carrying out connection allocation according to the functional data condition of the nodes, improves the overall communication efficiency, and reduces the interference during the communication between the nodes.

Fig. 3 is a flowchart of a method for adjusting a child node according to an embodiment of the present invention, where, as shown in fig. 3, the method includes:

step 301, obtaining first functional data of a current node, and determining a child node allocation parameter corresponding to the current node according to the first functional data.

Step S302, second function data corresponding to a plurality of sub-nodes of the current node are obtained, and whether sub-node connection adjustment is needed is judged according to the second function data and the sub-node distribution parameters.

Step S303, in response to the judging result of the connection adjustment of the child node, an adjustment range is determined according to the child node allocation parameter and the second functional data, wherein the adjustment range comprises a plurality of adjustment subintervals.

Step S304, receiving connection allocation data sent by other devices, wherein the connection allocation data comprises a plurality of segmentation intervals and is used for reference when other nodes are connected.

In one embodiment, the other devices serve as optional connection nodes, and send relevant connection allocation data to the current node, where the connection allocation data includes a plurality of segment intervals, that is, sub-nodes located in the segment intervals may be allocated to corresponding other devices when they perform data communication.

Step S305, determining matching connection information of the sub-nodes connected with the current node corresponding to each adjustment sub-interval according to the obtained connection allocation data sent by other nodes, and performing connection configuration of the sub-nodes based on the matching connection information.

In one embodiment, after obtaining connection allocation data sent by other nodes, corresponding matching connection information is obtained for the corresponding current node connected sub-node in each current adjustment sub-interval, where the matching connection information records relevant configuration information of the specific connection device of the sub-node to be adjusted to connect. Alternatively, the device corresponding to the transmission period covering the child node to be adjusted in the connection allocation data may be determined as the connection device to be adjusted by the child node, if there are multiple devices, one device is selected randomly, and then connection configuration of the child node is performed based on the matching connection information.

According to the above, the first functional data of the current node is obtained, and the sub-node allocation parameter corresponding to the current node is determined according to the first functional data; acquiring second functional data corresponding to a plurality of sub-nodes of the current node, and judging whether sub-node connection adjustment is needed according to the second functional data and the sub-node allocation parameters; responding to the judging result of the connection adjustment of the child node, and determining an adjustment range according to the child node distribution parameter and the second functional data; and adjusting the child node connected with the current node based on the adjustment range. The scheme can be used for carrying out connection allocation according to the functional data condition of the nodes, improves the overall communication efficiency, and reduces the interference during the communication between the nodes.

Fig. 4 is a block diagram of a device for performing node connection allocation based on node data according to an embodiment of the present invention, where the device for performing node connection allocation based on node data is configured to perform the method for performing node connection allocation based on node data according to the foregoing data receiving end embodiment, and the method includes corresponding functional modules and beneficial effects of the execution method. As shown in fig. 4, the device for allocating node connection based on node data specifically includes: the allocation parameter determining module 101 is configured to acquire first functional data of a current node, and determine a child node allocation parameter corresponding to the current node according to the first functional data;

the judging module 102 is configured to acquire second functional data corresponding to a plurality of sub-nodes of the current node, and judge whether sub-node connection adjustment is needed according to the second functional data and the sub-node allocation parameters;

an adjustment range determining module 103 configured to determine an adjustment range according to the child node allocation parameter and the second function data in response to a determination result that the child node connection adjustment is required;

and the adjustment module 104 is configured to adjust the child node connected with the current node based on the adjustment range.

According to the scheme, first functional data of the current node are obtained, and the sub-node allocation parameters corresponding to the current node are determined according to the first functional data; acquiring second functional data corresponding to a plurality of sub-nodes of the current node, and judging whether sub-node connection adjustment is needed according to the second functional data and the sub-node allocation parameters; responding to the judging result of the connection adjustment of the child node, and determining an adjustment range according to the child node distribution parameter and the second functional data; and adjusting the child node connected with the current node based on the adjustment range. The scheme can be used for carrying out connection allocation according to the functional data condition of the nodes, improves the overall communication efficiency, and reduces the interference during the communication between the nodes. Wherein the functions performed by the respective unit modules further include the following:

in one possible embodiment, the determining, according to the first function data, a child node allocation parameter corresponding to the current node includes:

and respectively determining corresponding sub-node allocation parameters under each multiplexing mode according to the first functional data, wherein the sub-node allocation parameters comprise time information and frequency information.

In a possible embodiment, the determining whether the adjustment of the connection of the child node is needed according to the second function data and the child node allocation parameter includes:

according to whether the duty ratio of the parameters of the category corresponding to the child node distribution parameters recorded in the second functional data is larger than a preset value or not;

correspondingly, the response to the judging result of the need of the connection adjustment of the child node comprises the following steps:

and responding to a judgment result that the duty ratio of the parameters of the category corresponding to the child node distribution parameters recorded in the second functional data is larger than the preset value.

In a possible embodiment, the determining the adjustment range according to the child node allocation parameter and the second function data includes:

determining available information according to the time information and the frequency information;

and determining an adjustment range according to the available information and the second function data.

In one possible embodiment, the adjustment range includes a plurality of adjustment subintervals, and the adjusting the subnode connected to the current node based on the adjustment range includes:

and adjusting the child node connected with the corresponding current node in each adjustment subinterval.

In one possible embodiment, the adjusting the child node connected to the corresponding current node in each adjustment subinterval includes:

according to the obtained connection distribution data sent by other nodes, determining the matching connection information of the sub-nodes connected with the corresponding current node in each adjustment sub-interval;

and carrying out connection configuration of the child nodes based on the matched connection information.

In one possible embodiment, before the adjusting the child node connected to the current node based on the adjustment range, the method further includes:

and receiving connection allocation data sent by other equipment, wherein the connection allocation data comprises a plurality of segmentation intervals and is used for reference when other nodes are connected.

Fig. 5 is a schematic structural diagram of an apparatus for performing node connection allocation based on node data according to an embodiment of the present invention, where, as shown in fig. 5, the apparatus includes a processor 201, a memory 202, an input device 203, and an output device 204; the number of processors 201 in the device may be one or more, one processor 201 being taken as an example in fig. 5; the processor 201, memory 202, input devices 203, and output devices 204 in the apparatus may be connected by a bus or other means, for example in fig. 5. The memory 202 is used as a computer readable storage medium for storing software programs, computer executable programs and modules, such as program instructions/modules corresponding to the node connection allocation method based on node data in the embodiment of the present invention. The processor 201 executes various functional applications of the device and data processing by running software programs, instructions and modules stored in the memory 202, that is, implements the above-described method of node connection allocation based on node data. The input means 203 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 device 204 may include a display device such as a display screen.

Embodiments of the present invention also provide a storage medium containing computer-executable instructions, which when executed by a computer processor, are for performing a method of node connection allocation based on node data, the method comprising:

acquiring first functional data of a current node, and determining a child node allocation parameter corresponding to the current node according to the first functional data;

acquiring second functional data corresponding to a plurality of sub-nodes of the current node, and judging whether sub-node connection adjustment is needed according to the second functional data and the sub-node allocation parameters;

responding to the judging result of the connection adjustment of the child node, and determining an adjustment range according to the child node distribution parameter and the second functional data;

and adjusting the child node connected with the current node based on the adjustment range.

From the above description of embodiments, it will be apparent to those skilled in the art that the embodiments of the present invention may be implemented by software and necessary general purpose hardware, and of course may be implemented by hardware, but in many cases the former is a preferred embodiment. Based on such understanding, the technical solution of the embodiments of the present invention may be embodied essentially or in a part contributing to the prior art in the form of a software product, which may be stored in a computer readable storage medium, such as a floppy disk, a Read-Only Memory (ROM), a random access Memory (Random Access Memory, RAM), a FLASH Memory (FLASH), a hard disk, or an optical disk of a computer, where the instructions include a number of instructions for causing a computer device (which may be a personal computer, a service, or a network device, etc.) to perform the method according to the embodiments of the present invention.

It should be noted that, in the embodiment of the apparatus for node connection allocation based on node data, each unit and module included are only divided according to the functional logic, but not limited to the above-mentioned division, so long as the corresponding function can be implemented; in addition, the specific names of the functional units are also only for distinguishing from each other, and are not used to limit the protection scope of the embodiments of the present invention.

In some possible embodiments, various aspects of the methods provided herein may also be implemented in the form of a program product comprising program code for causing a computer device to perform the steps of the methods described herein above according to the various exemplary embodiments of the application, when the program product is run on the computer device, e.g. the computer device may perform the method for node connection allocation based on node data as described in the examples herein. The program product may be implemented using any combination of one or more readable media.

Note that the above is only a preferred embodiment of the present invention and the technical principle applied. It will be understood by those skilled in the art that the embodiments of the present invention are not limited to the particular embodiments described herein, but are capable of numerous obvious changes, rearrangements and substitutions without departing from the scope of the embodiments of the present invention. Therefore, while the embodiments of the present invention have been described in connection with the above embodiments, the embodiments of the present invention are not limited to the above embodiments, but may include many other equivalent embodiments without departing from the spirit of the embodiments of the present invention, and the scope of the embodiments of the present invention is determined by the scope of the appended claims.

Claims (10)

1. The method for node connection allocation based on the node data is characterized by comprising the following steps:

acquiring first functional data of a current node, and determining a child node allocation parameter corresponding to the current node according to the first functional data;

acquiring second functional data corresponding to a plurality of sub-nodes of the current node, and judging whether sub-node connection adjustment is needed according to the second functional data and the sub-node allocation parameters;

responding to the judging result of the connection adjustment of the child node, and determining an adjustment range according to the child node distribution parameter and the second functional data;

and adjusting the child node connected with the current node based on the adjustment range.

2. The method for node connection allocation based on node data according to claim 1, wherein the determining, according to the first function data, a child node allocation parameter corresponding to the current node includes:

and respectively determining corresponding sub-node allocation parameters under each multiplexing mode according to the first functional data, wherein the sub-node allocation parameters comprise time information and frequency information.

3. The method for node connection allocation based on node data according to claim 1 or 2, wherein the determining whether the adjustment of the child node connection is required according to the second function data and the child node allocation parameter includes:

according to whether the duty ratio of the parameters of the category corresponding to the child node distribution parameters recorded in the second functional data is larger than a preset value or not;

correspondingly, the response to the judging result of the need of the connection adjustment of the child node comprises the following steps:

and responding to a judgment result that the duty ratio of the parameters of the category corresponding to the child node distribution parameters recorded in the second functional data is larger than the preset value.

4. The method for node connection allocation based on node data according to claim 2, wherein the determining an adjustment range according to the child node allocation parameter and the second function data comprises:

determining available information according to the time information and the frequency information;

and determining an adjustment range according to the available information and the second function data.

5. The method for node connection allocation based on node data according to claim 1, wherein the adjustment range includes a plurality of adjustment subintervals, and the adjusting the subnode to which the current node is connected based on the adjustment range includes:

and adjusting the child node connected with the corresponding current node in each adjustment subinterval.

6. The method for node connection allocation based on node data according to claim 5, wherein the adjusting the child node connected to the corresponding current node in each adjustment subinterval includes:

according to the obtained connection distribution data sent by other nodes, determining the matching connection information of the sub-nodes connected with the corresponding current node in each adjustment sub-interval;

and carrying out connection configuration of the child nodes based on the matched connection information.

7. The method for node connection allocation based on node data according to claim 1, further comprising, before the adjusting the child node of the current node connection based on the adjustment range:

and receiving connection allocation data sent by other equipment, wherein the connection allocation data comprises a plurality of segmentation intervals and is used for reference when other nodes are connected.

8. An apparatus for node connection allocation based on node data, comprising:

the distribution parameter determining module is configured to acquire first functional data of a current node, and determine a child node distribution parameter corresponding to the current node according to the first functional data;

the judging module is configured to acquire second functional data corresponding to a plurality of sub-nodes of the current node, and judge whether sub-node connection adjustment is needed according to the second functional data and the sub-node allocation parameters;

an adjustment range determining module configured to determine an adjustment range according to the child node allocation parameter and the second function data in response to a determination result that the child node connection adjustment is required;

and the adjusting module is configured to adjust the child node connected with the current node based on the adjusting range.

9. An apparatus for node connection allocation based on node data, the apparatus comprising: one or more processors; means for storing node connection allocation based on node data, for storing one or more programs which when executed by the one or more processors cause the one or more processors to implement the method of node connection allocation based on node data as claimed in any one of claims 1 to 7.

10. A storage medium containing computer executable instructions for performing the method of node connection allocation based on node data as claimed in any one of claims 1 to 7 when executed by a computer processor.

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