CN105528467B - A kind of generation method and device of domestic aerial compartment system system diagram - Google Patents

Abstract

The present invention provides the generation method and device of a kind of domestic aerial compartment system system diagram, wherein this method includes：Obtain the plan view of a domestic aerial compartment system；Obtain the device information in the plan view；The device information is handled, processing result is obtained；According to the processing result, the system diagram adapted to mostly for the domestic aerial compartment system of communication system is generated.The system diagram that the solution of the present invention generates, can adapt to mostly avoid the drawbacks of previous system diagram is only applicable to generation communication system for communication system.

Description

A kind of generation method and device of domestic aerial compartment system system diagram

Technical field

The present invention relates to the indoor distribution technical fields of the communications industry, more particularly to a kind of domestic aerial compartment system system System map generalization method and device.

Background technique

Currently, in distribution indoors (hereinafter referred to as room point) design software would generally be used (frequently referred to design software is divided in room) To assist drawing the plan view (also known as distribution map) and system diagram that divide design scheme in room.Plan view has reacted interior as its name suggests Multinomial details of the compartment system (hereinafter referred to as room subsystem) in building object plane, if the type of antenna, antenna are in building Distribution point in plane, the routing passed through from the feeder line of information source (or virtual information source) to the antenna of leveling and may be in leveling The device that the room subsystem used will use, such as power splitter, coupler and its present position.And system diagram key reaction The topological connection relation of room subsystem is made of above-mentioned various components.

Consider the factors such as construction cost, electromagnetic radiation safety requirements as a whole, operator would generally divide in construction scheme room The radiant power of each antenna opening has unified requirement, that is, is limited within the scope of a certain target value.

It is flat that room divides design software to be based on the softwares such as computer aided design software CAD or Visio VISIO more Platform belongs to secondary development software (or plug-in unit).The such software in part has the function from plan view automatic creation system figure, but mesh Preceding all softwares are only supported to optimize a certain specific system, and in other words, the system diagram that software automatically generates is only capable of needle It is optimal to a certain system (2G, 3G, 4G) or close to optimal system topological connection relationship, and another system is led to Often it is not optimal or even is unsatisfactory for requirement of the operator for room subsystem about antenna radiated power.

Summary of the invention

The object of the present invention is to provide the generation methods and device of a kind of domestic aerial compartment system system diagram, are able to solve Currently based on the design software of domestic aerial compartment system, designed domestic aerial compartment system system diagram can only meet a generation The problem of communication system (second generation communication system 2G, third generation communication system 3G or forth generation communication system 4G etc.).

In order to solve the above-mentioned technical problem, the embodiment of the present invention provides a kind of life of domestic aerial compartment system system diagram At method, wherein including：

Obtain the plan view of a domestic aerial compartment system；

Obtain the device information in the plan view；

The device information is handled, processing result is obtained；

According to the processing result, the system diagram adapted to mostly for the domestic aerial compartment system of communication system is generated.

Wherein, the step of device information obtained in the plan view includes：

Obtain include at least the plan view in antenna node quantity information and each antenna node in not homologous ray Loss value the first device information；And/or

Obtain include at least the plan view in antenna node grouping information and the plan view in by virtually believing Source is connected to the second device information of the power splitter that antenna node is respectively grouped and/or coupler grouping information.

Wherein, described that the device information is handled, obtain processing result the step of include：

Processing is grouped to the antenna node in first device information, obtains and adapts to mostly for the antenna of communication system The group result of node.

Wherein, the antenna node in first device information is grouped processing, obtains and adapts to mostly generation communication The step of group result of the antenna node of system includes：

Step a is obtained according to each antenna node in first device information in the loss value information of not homologous ray Loss value of each antenna node in current system；

Step b, according to each antenna node current system loss value, by the antenna node in the plan view according to The sequence of loss value from small to large or from large to small is ranked up in current system, and obtain current system works as prime node sequence Column；Wherein, described when prime sequence node is antenna node sequence；

Step c is sequentially grouped the node in prime sequence node of current system, obtains and work as prime node sequence The packet conditions information of node in column in current system；Wherein, the packet conditions information includes at least：It is described to work as prime section Nodal information of the node in the grouping group number information and current system of current system are respectively grouped in point sequence；The node letter Breath includes at least number of nodes information；And respectively it is grouped the node that internal loss value is maximum value and the node that loss value is minimum value Difference is lost and is less than loss difference threshold value；

Step d, according to the node in antenna node sequence each system packet conditions information, to the antenna node sequence Node in column is sequentially grouped again, obtains the adaptation of antenna node sequence interior joint mostly for the new grouping shape of communication system Condition information, and using the new grouping information as current group condition information；Wherein, the current group condition information at least wraps Contain：Nodal information in grouping group number information and each grouping；The new current group condition information of the antenna node sequence of each system Unanimously；Loss value in each grouping is that the loss difference of the node and the node that loss value is minimum value of maximum value is less than the damage Consume poor threshold value.

Wherein, the node in prime sequence node of the current system is sequentially grouped in the step c, is obtained It takes when the node in prime sequence node includes in the step of packet conditions information of current system：

Step e, using current system when first node in prime sequence node is as start node, acquisition is described to be risen Difference is lost the first of current system in the present node of beginning node and current system worked as in prime sequence node；

Step f, the loss difference threshold value described in the first loss difference, and the start node and work as prosthomere with described The the second loss difference for working as the node in prime sequence node of the adjacent next current system of point is greater than the loss difference It is one group by whole node divisions of the start node to the present node when threshold value, and obtains the surplus of current system Remaining sequence node, and newly work as prime sequence node using the remaining sequence node as current system；

Step g repeats node of the step e to step f into the antenna node sequence and finishes in current system grouping, obtains Take the node in the antenna node sequence in the packet conditions information of current system.

Wherein, in the step d according to the node in antenna node sequence each system packet conditions information, to described Node in antenna node sequence is sequentially grouped again, obtains new point of the adaptation multisystem of antenna node sequence interior joint Group information, and include using the new grouping information as the step of current group condition information：

Step h obtains the antenna node according to the node in antenna node sequence in the packet conditions information of each system Nodal information of the node in the first grouping under not homologous ray in sequence；

Step i retrieves node of the antenna node sequence interior joint in the first grouping of each system respectively, The maximum common subset of the first grouping interior nodes is obtained, and is one group by the node division in the maximum common subset, is formed New first grouping；

Step j is obtained and is worked as prime newly remaining sequence node, and newly works as prime section using the new remaining sequence node as one Point sequence；

Step k repeats node of the step e to step f into the new remaining sequence node and finishes in current system grouping, Obtain grouping group number of the node in the new remaining sequence node under not homologous ray；

Step l obtains the node in the new remaining sequence node or not the value of the grouping group number is positive integer The nodal information in the first grouping under homologous ray；

Step m retrieves node of the new remaining sequence node interior joint in the first grouping under each system, The maximum common subset of the first grouping interior nodes is obtained, and is one group by the node division in the maximum common subset, is formed New first grouping；

Step n repeats the new grouping of step j to step m to the adaptation multisystem for getting antenna node sequence interior joint Information, and using the new grouping information as current group condition information.

Wherein, described according to the processing result, generate adaptation is mostly for the domestic aerial compartment system of communication system The step of system figure includes：

Group result according to the adaptation mostly for the antenna node of communication system, generates and adapts to mostly for the room of communication system Internal antenna compartment system device hubbed mode system diagram.

Wherein, the group result according to the adaptation mostly for the antenna node of communication system, generates and adapts to mostly for logical The step of domestic aerial compartment system device hubbed mode system diagram of letter system includes：

Step o, according to the number of nodes information in each grouping in current group condition information, for the corresponding distribution of each grouping Power splitter or coupler, and next stage sequence node is formed, and using the next stage sequence node as newly when prime node sequence Column；Wherein, the quantity of the next stage sequence node interior joint is consistent with the grouping group number in current group condition information；

Step p obtains the loss value of the next stage sequence node interior joint；

Step q, according to the loss value of the next stage sequence node interior joint, by the section in the next stage sequence node Point is arranged according to the descending or ascending sequence of loss value, and executes step c, obtains the next stage node The packet conditions information of sequence interior joint, and using the packet conditions information of the next stage sequence node interior joint as new current Packet conditions information；

Step r repeats step o to step q, until what is formed is new when the quantity of prime sequence node interior joint is 1.

It wherein, is each point according to the number of nodes information in each grouping in current group condition information in the step o Organizing the step of corresponding to distribution power splitter or coupler includes：

When prime one grouping in number of nodes be 1 when, using it is described when prime one grouping in node as next stage A node in sequence node；And/or

When prime one grouping in number of nodes be greater than 1 when, according to it is described when prime one grouping in number of nodes, To be described when the corresponding distribution power splitter of the grouping of prime one or coupler, and form next stage sequence node；Wherein, the number of nodes Amount is positive integer；The next stage sequence node includes power splitter node and/or coupler nodes.

Wherein, described that the device information is handled, obtain processing result the step of include：

The power splitter and/or coupling that antenna node is respectively grouped are connected to by virtual information source in second device information Device is replaced, or carries out parameter adjustment to the power splitter and/or coupler, is obtained and is adapted to mostly for communication system by virtual Information source is connected to the power splitter that antenna node is respectively grouped and/or coupler distributed intelligence.

Wherein, described according to the processing result, generate adaptation is mostly for the domestic aerial compartment system of communication system The step of system figure includes：

The function point that antenna node is respectively grouped mostly is connected to by virtual information source for communication system according to the adaptation of the acquisition Device and/or coupler distributed intelligence are generated and are adapted to mostly for the domestic aerial compartment system device discrete pattern system of communication system Figure.

Wherein, the adaptation of the acquisition is mostly connected to the function point that antenna node is respectively grouped by virtual information source for communication system The step of device and/or coupler distributed intelligence includes：

Step s, acquisition are grouped interior each node in the loss value of current system in each of prime is worked as；Wherein, the section Point is antenna node or coupler nodes or power splitter node；

Step t, obtains that the loss value when in prime is respectively grouped is the node of maximum value and loss value is minimum value Loss difference of the node in current system；

It is poor to obtain the average loss for being respectively grouped interior joint when prime by step u；Wherein, each grouping interior joint is flat Equal loss difference is that loss value is the node of maximum value in same grouping and loss value is the node of minimum value under not homologous ray The sum of difference is lost divided by 2；

Step v, poor according to the average loss, acquisition is respectively grouped the power splitter or coupler to match with prime is worked as, or Adjust the parameter information of power splitter corresponding with each grouping or coupler.

In order to solve the above-mentioned technical problem, the embodiment of the present invention also provides a kind of domestic aerial compartment system system diagram Generating means, wherein including：

First obtains module, for obtaining the plan view of a domestic aerial compartment system；

Second obtains module, for obtaining the device information in the plan view；

Third obtains module, for handling the device information, obtains processing result；

Generation module, for generating and adapting to mostly for the domestic aerial compartment system of communication system according to the processing result System diagram.

Wherein, the second acquisition module includes：

First acquisition submodule, for obtaining including at least the antenna node quantity information in the plan view and each First device information of the antenna node in the loss value of not homologous ray；And/or

Second acquisition submodule, for obtaining the antenna node grouping information and described included at least in the plan view The second device that the power splitter that antenna node is respectively grouped and/or coupler grouping information are connected to by virtual information source in plan view Information.

Wherein, the third acquisition module includes：

Third acquisition submodule obtains suitable for being grouped processing to the antenna node in first device information Answer the group result mostly for the antenna node of communication system.

Wherein, the third acquisition submodule includes：

First acquisition unit, for according to each antenna node in first device information not homologous ray loss Value information obtains each antenna node in the loss value of current system；

Second acquisition unit, for according to each antenna node in the loss value of current system, will be in the plan view Antenna node is ranked up according to the sequence of loss value from small to large or from large to small in current system, obtains working as current system Prime sequence node；Wherein, described when prime sequence node is antenna node sequence；

Third acquiring unit is sequentially grouped for the node in prime sequence node to current system, obtains When the node in prime sequence node is in the packet conditions information of current system；Wherein, the packet conditions information includes at least： Node letter of the node when in prime sequence node in the grouping group number information and current system of current system are respectively grouped Breath；The nodal information includes at least number of nodes information；And each grouping internal loss value is the node of maximum value and loss value is The loss difference of the node of minimum value is less than loss difference threshold value；

4th acquiring unit, for according to the node in antenna node sequence each system packet conditions information, to institute It states the node in antenna node sequence to be sequentially grouped again, obtains the adaptation of antenna node sequence interior joint mostly for communication system The new packet conditions information of system, and using the new grouping information as current group condition information；Wherein, the current group shape Condition information includes at least：Nodal information in grouping group number information and each grouping；The antenna node sequence of each system it is new current Packet conditions information is consistent；Loss value in each grouping is the loss difference of the node and the node that loss value is minimum value of maximum value Value is less than the loss difference threshold value.

Wherein, the third acquiring unit includes：

First obtains subelement, for saving first node of current system worked as in prime sequence node as starting Point, the present node worked as in prime sequence node for obtaining the start node and current system are damaged the first of current system Consume difference；

Second obtains subelement, for being less than the loss difference threshold value, and the starting in the first loss difference The second loss for working as the node in prime sequence node of node and the next current system adjacent with the present node It is one group by whole node divisions of the start node to the present node when difference is greater than the loss difference threshold value, And the remaining sequence node of current system is obtained, and newly work as prime node sequence using the remaining sequence node as current system Column；

First repeats subelement, obtains step performed by subelement to the second acquisition for repeating described first Node of the step performed by unit into the antenna node sequence is finished in current system grouping, obtains the antenna node The packet conditions information of node in sequence in current system.

Wherein, the 4th acquiring unit includes：

Third obtains subelement, for, in the packet conditions information of each system, being obtained according to the node in antenna node sequence Take nodal information of the node in the antenna node sequence in the first grouping under not homologous ray；

4th obtains subelement, for the node to the antenna node sequence interior joint in the first grouping of each system It is retrieved respectively, obtains the maximum common subset of the first grouping interior nodes, and the node in the maximum common subset is drawn It is divided into one group, forms new first grouping；

5th obtains subelement, works as prime newly remaining sequence node for obtaining, and the new remaining sequence node is made Newly work as prime sequence node for one；

Second repeats subelement, obtains step performed by subelement to the second acquisition for repeating described first Node of the step performed by unit into the new remaining sequence node is finished in current system grouping, obtains the new residue Grouping group number of the node under not homologous ray in sequence node；

6th obtains subelement, when for the value in the grouping group number being positive integer, obtains the new remaining node sequence Nodal information of the node in the first grouping under not homologous ray in column；

7th obtains subelement, for the new remaining sequence node interior joint in the first grouping under each system Node is retrieved, and obtains the maximum common subset of the first grouping interior nodes, and the node in the maximum common subset is drawn It is divided into one group, forms new first grouping；

The third repeating subelement obtains step performed by subelement to the 7th acquisition for repeating the described 5th Step performed by unit, and will be described new to the new grouping information for the adaptation multisystem for getting antenna node sequence interior joint Grouping information is as current group condition information.

Wherein, the generation module includes：

First generates submodule, for the group result according to the adaptation mostly for the antenna node of communication system, generates It adapts to mostly for the domestic aerial compartment system device hubbed mode system diagram of communication system.

Wherein, the first generation submodule includes：

Allocation unit, for being each grouping according to the number of nodes information in each grouping in current group condition information Corresponding distribution power splitter or coupler, and next stage sequence node is formed, and using the next stage sequence node as new current Grade sequence node；Wherein, the grouping group number in the quantity of the next stage sequence node interior joint and current group condition information Unanimously；

5th acquiring unit, for obtaining the loss value of the next stage sequence node interior joint；

6th acquiring unit, for the loss value according to the next stage sequence node interior joint, by the next stage section Node in point sequence is arranged according to the descending or ascending sequence of loss value, and is executed the third and obtained Step performed by unit, obtains the packet conditions information of the next stage sequence node interior joint, and by the next stage section The packet conditions information of point sequence interior joint is as new current group condition information；

Repetitive unit, for repeating step performed by step performed by the allocation unit to the 6th acquiring unit Suddenly, until what is formed is new when the quantity of prime sequence node interior joint is 1.

Wherein, the allocation unit includes：

First planning subelement, for when the number of nodes in the grouping of prime one is 1, the prime one of working as to be grouped Interior node is as the node in next stage sequence node；And/or

Second planning subelement, for working as prime according to described when the number of nodes in the grouping of prime one is greater than 1 Number of nodes in one grouping to be described when the corresponding distribution power splitter of the grouping of prime one or coupler, and forms next stage node Sequence；Wherein, the number of nodes is positive integer；The next stage sequence node includes power splitter node and/or coupler section Point.

Wherein, the third acquisition module includes：

4th acquisition submodule, for being connected to each point of antenna node by virtual information source in second device information The power splitter and/or coupler of group are replaced, or carry out parameter adjustment to the power splitter and/or coupler, are obtained and are adapted to The power splitter and/or coupler distributed intelligence that antenna node is respectively grouped mostly are connected to by virtual information source for communication system.

Wherein, the generation module includes：

Second generates submodule, for being mostly connected to day by virtual information source for communication system according to the adaptation of the acquisition The power splitter and/or coupler distributed intelligence that line node is respectively grouped generate and adapt to mostly be distributed system for the domestic aerial of communication system System device discrete pattern system diagram.

Wherein, the second generation submodule includes：

7th acquiring unit is in for obtaining when each of prime is grouped interior each node in the loss value of current system； Wherein, the node is antenna node or coupler nodes or power splitter node；

8th acquiring unit, for obtaining the loss value when in prime respectively be grouped as the node and loss value of maximum value For minimum value node current system loss difference；

9th acquiring unit, it is poor for obtaining the average loss for being respectively grouped interior joint when prime；Wherein, each grouping The average loss difference of interior joint is that loss value is the node of maximum value in same grouping and loss value is the node of minimum value not The sum of loss difference under homologous ray is divided by 2；

Tenth acquiring unit, for poor according to the average loss, acquisition is respectively grouped the power splitter to match with prime is worked as Or coupler, or the parameter information of adjustment power splitter corresponding with each grouping or coupler.

The beneficial effects of the invention are as follows：

To sum up, the system diagram that the solution of the present invention generates, can adapt to mostly avoid previous system diagram only for communication system The drawbacks of suitable for generation communication system；

The system diagram that the solution of the present invention generates, including device hubbed mode system and device discrete pattern system diagram are fitted Answering property is stronger, can meet the needs of various engineering practices.

Detailed description of the invention

Fig. 1 shows the generation method flow diagrams of domestic aerial compartment system system diagram of the invention；

Fig. 2 indicates device hubbed mode system diagram antenna/device hierarchical definition；

Fig. 3 indicates device discrete pattern system diagram antenna/device hierarchical definition；

Fig. 4 is indicated in the generation method of domestic aerial compartment system device hubbed mode system diagram of the invention to indoor day Line node is adapted to the flow diagram mostly for the grouping of communication system；

Fig. 5 indicates the flow diagram of step c in Fig. 4；

Fig. 6 indicates the flow diagram of step d in Fig. 4；

Fig. 7 indicates the product process schematic diagram of domestic aerial compartment system device hubbed mode system diagram of the invention；

Fig. 8 shows antenna node in specific embodiments of the present invention 2G system and 3G system according to loss value from small to large The antenna node sequence diagram being ranked up；

Fig. 9 indicates power splitter composite type schematic diagram；

What Figure 10 indicated to generate in specific embodiments of the present invention adapts to the antenna node grouping signal mostly for communication system Figure；

After Figure 11 indicates that second level node is ranked up from small to large according to loss value in specific embodiments of the present invention Schematic diagram；

Figure 12 indicates the domestic aerial compartment system device hubbed mode system diagram signal in specific embodiments of the present invention Figure；

What Figure 13 indicated to obtain in specific embodiments of the present invention adapts to mostly being connected to by virtual information source for communication system The flow diagram of power splitter and/or coupler distributed intelligence that antenna node is respectively grouped；

Domestic aerial compartment system is connected to antenna by virtual information source in Figure 14 expression specific embodiments of the present invention The power splitter and/or coupler distributed intelligence schematic diagram one that node is respectively grouped；

Domestic aerial compartment system is connected to antenna by virtual information source in Figure 15 expression specific embodiments of the present invention The power splitter and/or coupler distributed intelligence schematic diagram two that node is respectively grouped；

Domestic aerial compartment system is connected to antenna by virtual information source in Figure 16 expression specific embodiments of the present invention The power splitter and/or coupler distributed intelligence schematic diagram three that node is respectively grouped；

Figure 17 indicates the generating means structural schematic diagram of domestic aerial compartment system system diagram of the invention；

Figure 18 indicates the generating means structural representation of domestic aerial compartment system device hubbed mode system diagram of the invention Figure one；

Figure 19 indicates the generating means structural representation of domestic aerial compartment system device hubbed mode system diagram of the invention Figure two；

Figure 20 indicates the generating means structural representation of domestic aerial compartment system device hubbed mode system diagram of the invention Figure three；

Figure 21 indicates the generating means structural representation of domestic aerial compartment system device hubbed mode system diagram of the invention Figure four；

Figure 22 indicates the generating means structural representation of domestic aerial compartment system device hubbed mode system diagram of the invention Figure five；

Figure 23 indicates the generating means structural representation of domestic aerial compartment system device hubbed mode system diagram of the invention Figure six；

Figure 24 indicates the generating means structural representation of domestic aerial compartment system device discrete pattern system diagram of the invention Figure one；

Figure 25 indicates the generating means structure of domestic aerial compartment system device discrete pattern system diagram of the invention Schematic diagram two；

Figure 26 indicates the generating means structure of domestic aerial compartment system device discrete pattern system diagram of the invention Schematic diagram three.

Specific embodiment

To make the object, technical solutions and advantages of the present invention clearer, right below in conjunction with the accompanying drawings and the specific embodiments The present invention is described in detail.

As shown in Figure 1, the embodiment of the present invention provides a kind of generation method of domestic aerial compartment system system diagram, In, this method comprises the following steps：

Step 11, the plan view of a domestic aerial compartment system is obtained；

Step 12, the device information in the plan view is obtained；

Step 13, the device information is handled, obtains processing result；

Step 14, according to the processing result, the system adapted to mostly for the domestic aerial compartment system of communication system is generated Figure.

Wherein, in engineering practice, not for the attention rate to preliminary engineering investment and the cost Discussing Convenience of later maintenance It is same to lead to two different domestic aerial compartment system mentalities of designing：According to the plan view generating device of domestic aerial compartment system Hubbed mode system diagram and device discrete pattern system diagram.Wherein, plan view has reacted domestic aerial distribution system as its name suggests The multinomial details of system (hereinafter referred to as room subsystem) in building object plane, as the type of antenna, antenna are being built in object plane Distribution point, feeder line conduct from the information source (or virtual information source) of leveling to antenna routing, and may be used in leveling The device that will use of room subsystem, such as power splitter, coupler and its present position.

Plan view cloth on the basis of reacting the map of building planar structure is placed with information source (virtual information source), antenna and other Device, feeder line of interface unit etc..

Wherein, device hubbed mode：Refer in building leveling by all devices in addition to antenna be placed on light current between or Certain/a few places place.There is individual feeder line to be connected from building leveling information source to each antenna.Wherein, device is concentrated In modular system figure, the hierarchical definition of antenna and device (power splitter and/or coupler), as shown in Figure 2.

Device discrete pattern：Refer to that come out an only feeder line from building leveling information source is connected with a certain device, the device Signal is connected into multiple devices or antenna, subsequent device and so on to the device finally connected through feeder line by multiple output ends It is antenna.Wherein, in device discrete pattern system diagram, the hierarchical definition of antenna and device (power splitter and/or coupler), such as Shown in Fig. 3.

Below in conjunction with attached drawing and specific embodiment to domestic aerial compartment system device hubbed mode system diagram It generates and the system map generalization of device discrete pattern is described in detail respectively.

Life first in conjunction with attached drawing and specific embodiment to domestic aerial compartment system device hubbed mode system diagram At being described in detail.

The first step obtains the plan view of a domestic aerial compartment system；

Second step, obtain include at least the plan view in antenna node quantity information and each antenna node not First device information of the loss value of homologous ray；

Third step is grouped processing to the antenna node in first device information, obtains and adapt to mostly for communication system The group result of the antenna node of system.

4th step, the group result according to the adaptation mostly for the antenna node of communication system, generates and adapts to mostly generation communication The domestic aerial compartment system device hubbed mode system diagram of system.

Wherein, the step of third step is as shown in figure 4, include：

Step a is obtained according to each antenna node in first device information in the loss value information of not homologous ray Loss value of each antenna node in current system；

Step b, according to each antenna node current system loss value, by the antenna node in the plan view according to The sequence of loss value from small to large or from large to small is ranked up in current system, and obtain current system works as prime node sequence Column；Wherein, described when prime sequence node is antenna node sequence；

Step c is sequentially grouped the node in prime sequence node of current system, obtains and work as prime node sequence The packet conditions information of node in column in current system；Wherein, the packet conditions information includes at least：It is described to work as prime section Nodal information of the node in the grouping group number information and current system of current system are respectively grouped in point sequence；The node letter Breath includes at least number of nodes information；And respectively it is grouped the node that internal loss value is maximum value and the node that loss value is minimum value Difference is lost and is less than loss difference threshold value；

Step d, according to the node in antenna node sequence each system packet conditions information, to the antenna node sequence Node in column is sequentially grouped again, obtains the adaptation of antenna node sequence interior joint mostly for the new grouping shape of communication system Condition information, and using the new grouping information as current group condition information；Wherein, the current group condition information at least wraps Contain：Nodal information in grouping group number information and each grouping；The new current group condition information of the antenna node sequence of each system Unanimously；Loss value in each grouping is that the loss difference of the node and the node that loss value is minimum value of maximum value is less than the damage Consume poor threshold value.

Wherein, as shown in figure 5, step c includes the following steps：

Step e, using current system when first node in prime sequence node is as start node, acquisition is described to be risen Difference is lost the first of current system in the present node of beginning node and current system worked as in prime sequence node；

Step f is less than the loss difference threshold value in the first loss difference, and the start node and works as with described The the second loss difference for working as the node in prime sequence node of the adjacent next current system of front nodal point is greater than the damage It is one group by whole node divisions of the start node to the present node, and obtain current system when consuming poor threshold value Remaining sequence node, and using the remaining sequence node as the new when prime sequence node of current system；

Step g repeats node of the step e to step f into the antenna node sequence and finishes in current system grouping, obtains Take the node in the antenna node sequence in the packet conditions information of current system.

Wherein, step d, as shown in fig. 6, further including following steps：

Step h obtains the antenna node according to the node in antenna node sequence in the packet conditions information of each system Nodal information of the node in the first grouping under not homologous ray in sequence；

Step i retrieves node of the antenna node sequence interior joint in the first grouping of each system respectively, The maximum common subset of the first grouping interior nodes is obtained, and is one group by the node division in the maximum common subset, is formed New first grouping；

Step j is obtained and is worked as prime newly remaining sequence node, and newly works as prime section using the new remaining sequence node as one Point sequence；

Step k repeats node of the step e to step f into the new remaining sequence node and finishes in current system grouping, Obtain grouping group number of the node in the new remaining sequence node under not homologous ray；

Step l obtains the node in the new remaining sequence node or not the value of the grouping group number is positive integer The nodal information in the first grouping under homologous ray；

Step m retrieves node of the new remaining sequence node interior joint in the first grouping under each system, The maximum common subset of the first grouping interior nodes is obtained, and is one group by the node division in the maximum common subset, is formed New first grouping；

Step n repeats the new grouping of step j to step m to the adaptation multisystem for getting antenna node sequence interior joint Information, and using the new grouping information as current group condition information.

Wherein, as shown in fig. 7, the 4th step, group result according to the adaptation mostly for the antenna node of communication system, Generate adaptation mostly includes for the step of domestic aerial compartment system device hubbed mode system diagram of communication system：

Step o, according to the number of nodes information in each grouping in current group condition information, for the corresponding distribution of each grouping Power splitter or coupler, and next stage sequence node is formed, and using the next stage sequence node as newly when prime node sequence Column；Wherein, the quantity of the next stage sequence node interior joint is consistent with the grouping group number in current group condition information；

Step p obtains the loss value of the next stage sequence node interior joint；

Step q, according to the loss value of the next stage sequence node interior joint, by the section in the next stage sequence node Point is arranged according to the descending or ascending sequence of loss value, and executes step c, obtains the next stage node The packet conditions information of sequence interior joint, and using the packet conditions information of the next stage sequence node interior joint as new current Packet conditions information；

Step r repeats step o to step q, until what is formed is new when the quantity of prime sequence node interior joint is 1.

It wherein, is each grouping according to the number of nodes information in each grouping in current group condition information in step o Corresponding to the step of distributing power splitter or coupler includes：

When prime one grouping in number of nodes be 1 when, using it is described when prime one grouping in node as next stage A node in sequence node；And/or

When prime one grouping in number of nodes be greater than 1 when, according to it is described when prime one grouping in number of nodes, To be described when the corresponding distribution power splitter of the grouping of prime one or coupler, and form next stage sequence node；Wherein, the number of nodes Amount is positive integer；The next stage sequence node includes power splitter node and/or coupler nodes.

Below in conjunction with attached drawing and specific embodiment, the above-mentioned first step to the 4th step is described in detail：

(1), the plan view of a domestic aerial compartment system is obtained first；

(2), according to fig. 2 in antenna/device hierarchical definition in device hubbed mode system diagram, acquisition includes at least In the plan view positioned at the first order antenna node quantity information and each antenna node not homologous ray (with 2 systems and For 3G system) loss value the first device information；In a specific embodiment of the present invention, if getting positioned at the first order Antenna node quantity be 8, respectively antenna node a1, antenna node a2, antenna node a3, antenna node a4, antenna Node a5, antenna node a6, antenna node a7, antenna node a8 consider coverage effect, economic effect as a whole in engineering practice Factors, the operator such as benefit and electromagnetic radiation safety would generally have one to the radiant power of each antenna in domestic aerial subsystem Fixed requirement, each antenna opening power are answered【8dBm, 12dBm】In the range of, if each antenna node is in the loss value of 2G system If respectively different, respectively 4.2dB, 6.1dB, 2.3dB, 2.9dB, 7.2dB, 5.6dB, 8.0dB, 3.6dB；Each antenna section Point is also respectively different in the loss value of 3G system, respectively 5.3dB, 7.9dB, 3.2dB, 3.9dB, 9.3dB, 7.2dB, 10.5dB 4.7dB.

(3), which is arranged in 2G system and 3G system according to the ascending sequence of loss value Column, obtain antenna node as shown in Figure 8 respectively the antenna node sequence A=under 2G system and 3G system (A1, A2, A3, A4, A5, A6, A7, A8)；Wherein, A1, A2, A3, A4, A5, A6, A7, A8 and a3, a4, a8, a1, a6, a2, a5, a7 are right respectively It answers.

(4), first time grouping is carried out in 2G system to sequence A, rule of classification is according to loss difference threshold value, specifically Grouping steps are as follows：Assuming that loss difference threshold value is 2dB,

1), using the antenna node A1 in A as start node, the loss difference of antenna node A1 Yu antenna node A2 are obtained Value is 0.6dB, is less than loss difference threshold value；

2) the loss difference of antenna node A1 and antenna node A3, are obtained, is 1.3dB, is less than loss difference threshold value；

3) the loss difference of antenna node A1 and antenna node A4, are obtained, is 1.9dB, is less than loss difference threshold value；

4) the loss difference of antenna node A1 and antenna node A5, are obtained, is 3.3dB, is greater than loss difference threshold value, then will Antenna node A1, antenna node A2, antenna node A3, antenna node A4 are divided into one group, form the first child node sequence (first Grouping) B1=(A1, A2, A3, A4), remaining antenna node A5, antenna node A6, antenna node A7, antenna node A8；By antenna Node A5, antenna node A6, antenna node A7, antenna node A8 form new antenna node sequence；

5), using antenna node A5 as the new start node in new antenna node sequence, antenna node A5 and day are obtained The loss difference of line node A6 is 0.5dB, is less than loss difference threshold value；

6) the loss difference of antenna node A5 and antenna node A7, are obtained, is 1.6dB, is less than loss difference threshold value；

7) the loss difference of antenna node A5 and antenna node A8, are obtained, is 2.4dB, is greater than loss difference threshold value, then will Antenna node A5, A6, A7 are divided into one group, form second child node sequence (second packet) B2=(A5, A6, A7), remaining day Antenna node 8 is individually divided into one group, forms third child node sequence (third grouping) B3, wherein antenna section by line node A8 Point sequence A=(B1, B2, B3).In 2G system, grouping finishes sequence A for the first time.

(5), first time grouping is carried out in 3G system to sequence A, rule of classification is also according to loss difference threshold value (2dB), the specific step rule that is grouped is identical in the 2G system progress rule of first time grouping as sequence A, herein no longer in detail Thin description, it is assumed that the antenna node sequence A is divided into 4 groups of child node sequences, the respectively first grouping C1=under 3G system (A1, A2, A3), second packet C2=(A4, A5), third are grouped C3=(A6, A7), the 4th grouping C4=(A8), wherein antenna Sequence node A=(C1, C2, C3, C4).

(6), obtain antenna node sequence A in antenna node respectively under 2G system and 3G system first grouping in Node, obtain the maximum common subset (A1, A2, A3) of the first grouping interior nodes, and by the node in the maximum common subset It is divided into one group, forms the first grouping D1=(A1, A2, A3) for adapting to the 2G system and the 3G system.

(7), it obtains except remaining antenna node A4, A5, A6, A7, A8 new except the antenna node A1, A2, A3, and according to According to the grouping step for carrying out first time grouping in (four) and (five) to antenna node sequence, to the new remaining antenna node A4, A5, A6, A7, A8 are grouped again in 2G system and 3G, obtain the new remaining antenna node A4, A5, A6, A7, A8 is in 2G Grouping under system and 3G system：The new remaining antenna node A4, A5, A6, A7, A8 being grouped under 2G system：New One grouping (A4, A5, A6), new second packet (A7, A8)；The new remaining antenna node A4, A5, A6, A7, A8 are under 3G system Be grouped into：New first grouping (A4, A5), new second packet (A6, A7), new third are grouped (A8).

(8), the maximum common subset (A4, A5) for obtaining new first grouping interior nodes, forms and adapts to the 2G system and the 3G The second packet D2=(A4, A5) of system.

(9), according to above-mentioned rule, until getting the grouping information for adapting to the 2G system and the 3G system：First grouping D1 =(A1, A2, A3), second packet D2=(A4, A5), third grouping D3=(A6, A7), the 4th grouping D4=(A8).

It (ten), is above-mentioned each grouping D1, D2, D3, D4, according to the power splitter composite type suggested design in Fig. 9, corresponding point With power splitter, allocation rule is as follows：

In antenna node grouping D1, D2, D3, the D4 for adapting to 2G system and 3G system, if element number is greater than 1 in grouping, Then according to grouping in element number by Fig. 9 (this rule do not limit grouping interior element number, when more than 20, can simply according to Augmented according to Fig. 9) choosing suitable power splitter, (power splitter being commonly used is two function point, three function point, four function point, such as future Technology, device allow that the more power splitters in port, such as five function point, six function point can be used.).Wherein, in the Fig. 9 power splitter group Conjunction only represents model combination, does not represent the sequence that power splitter uses, such as：4+3 only represents four function point plus three function point, It does not represent first using 4 function point, reuses three function point.

(11) distribute suitable power splitter according to allocation rule as above and Fig. 9 for grouping D1, D2, D3, D4 are corresponding. As shown in Figure 10, one or three power splitters are distributed for grouping D1, respectively corresponds one or two power splitters of distribution for grouping D2 and grouping D3, due to It is grouped only one element in D4, therefore does not distribute power splitter for the grouping, by three power splitter nodes and 8 shape of elements A It is respectively E1, E2, E3, E4 (corresponding to A8) at second level node.

(12) obtain three second level node E1, E2, E3, the E4 (corresponding to A8) respectively in 2G system and 3G system Under loss value, wherein the calculation method of the loss value of three power splitter nodes is：The power of power splitter delivery outlet is (in this hair It is (antenna maximum loss in antenna minimal losses+grouping in grouping)/2 in bright specific embodiment)+device loss, wherein should Device loss is the sum of power distribution loss and insertion loss, since the insertion loss is far smaller than power distribution loss, The insertion loss is negligible, so device loss is that power distribution is lost, wherein the calculation method of the device loss is： It is input power average mark to N number of output end, therefore the power of each output end only has input terminal for power splitter 1/N, this power distribution loss is 10lg (N) dB, therefore is 3.0dB for the device loss of two power splitters, and three power splitters are 5.0dB, four power splitters are 6.0dB.Therefore, the loss value of node E1 is under 2G system：(loss value+day of antenna node A1 The loss value of line node A3)/2+ tri- power splitter part loss value (5.0dB)=(2.3dB+3.6dB)/2+5.0dB=8.0dB； The loss value of node E1 is under 3G system：(loss value of antenna node A1+antenna node A3 loss value)/2+ (three function point The loss value (5.0dB) of device)=(3.2dB+4.7dB)/2+5.0dB=9.0dB；According to the loss value of above-mentioned node E1 in 2G The calculation method of system and 3G system calculates separately node E2, E3) loss value under 2G system and 3G system respectively, it obtains It is respectively 7.9dB and 9.3dB to loss value of the E2 under 2G system and 3G system；Loss value of the E3 under 2G system and 3G system Respectively 9.7dB and 11.6dB；Wherein, loss value of the E4 (corresponding to A8) under 2G system and 3G system is still respectively 8.0dB and 10.5dB.

(12) are pressed by node E1, E2, E3, E4 according in the loss value under 2G system or the loss value under 3G system It is rearranged according to the sequence of loss value from small to large, gets rearranged result as shown in figure 11.Sequence be followed successively by E1, E2、E4、E3。

(13), according to the rule that (four) or (five) are grouped antenna node, to second level node E1, E2, E4, E3 is grouped processing (rule of classification is similar with first time rule of classification of the antenna node under 2G system or 3G system), due to The loss difference of four nodes between any two is respectively less than loss difference threshold value, therefore, can by four node E1 of the second level, E2, E4, E3 are divided into one group, as shown in figure 12, distribute one or four power splitters for the group and (save four power splitter as the third level Point), form a P tie point (leveling information source/virtual information source).

Certainly, fourth stage node and level V node backward and so on etc. if it exists, then must calculate third level section The loss value of point, the loss value of each third level node=(second level node is most in second level node minimal losses+grouping in grouping Lossy)/2+ correspond to the third level node power splitter loss, the loss value calculating method class with power splitter node in the node of the second level Seemingly, the loss value and so on of power splitter nodes at different levels backward.

Certainly, since power splitter port used at present is at most four function point, the either grouping of antenna node Or first four are divided into one group if grouping interior joint quantity is more than 4 by the grouping of power splitters at different levels, then to remaining Node be grouped again, the grouping process of details are not described herein antenna node is specifically grouped process and power splitter at different levels.

It is to sum up to adaptation mostly for the domestic aerial compartment system device hubbed mode system map generalization of communication system It is described in detail, with reference to the accompanying drawing and life of the specific embodiment to domestic aerial compartment system device discrete pattern system diagram At being described in detail.

5th step obtains the plan view of a domestic aerial compartment system；

6th step, obtain include at least the plan view in antenna node grouping information and the plan view in by Virtual information source is connected to the second device information of the power splitter that antenna node is respectively grouped and/or coupler grouping information；

7th step is connected to the power splitter that antenna node is respectively grouped by virtual information source in second device information And/or coupler is replaced, or carries out parameter adjustment to the power splitter and/or coupler, is obtained and is adapted to mostly for communication system System is connected to the power splitter and/or coupler distributed intelligence that antenna node is respectively grouped by virtual information source；

8th step, according to the adaptation of the acquisition mostly being connected to antenna node by virtual information source and be respectively grouped for communication system Power splitter and/or coupler distributed intelligence, generate adapt to mostly for the discrete mould of domestic aerial compartment system device of communication system Formula system diagram.

Wherein, the adaptation obtained in the 7th step or the 8th step is mostly connected to antenna by virtual information source for communication system The step of power splitter that node is respectively grouped and/or coupler distributed intelligence, as shown in figure 13, including：

Step s, acquisition are grouped interior each node in the loss value of current system in each of prime is worked as；Wherein, the section Point is antenna node or coupler nodes or power splitter node；

Step t, obtains that the loss value when in prime is respectively grouped is the node of maximum value and loss value is minimum value Loss difference of the node in current system；

It is poor to obtain the average loss for being respectively grouped interior joint when prime by step u；Wherein, each grouping interior joint is flat Equal loss difference is that loss value is the node of maximum value in same grouping and loss value is the node of minimum value under not homologous ray The sum of difference is lost divided by 2；

Step v, poor according to the average loss, acquisition is respectively grouped the power splitter or coupler to match with prime is worked as, or Adjust the parameter information of power splitter corresponding with each grouping or coupler.

Below in conjunction with attached drawing and specific embodiment, above-mentioned 4th step to the 8th step is described in detail：

1, the plan view of a domestic aerial compartment system is obtained first；

2, according to, to antenna/device hierarchical definition in device discrete pattern system diagram, acquisition is by being located at the first order in Fig. 3 Virtual information source be connected to power splitter and/or the coupler grouping informations at different levels being respectively grouped positioned at the antenna node of afterbody；

In a specific embodiment of the present invention, as shown in figure 14, if being located at the antenna node of the third level (afterbody) Quantity be 4, respectively b1, b2, b3, b4；Antenna is grouped into：B1, b2 are divided into the first grouping, and b3, b4 are divided into Two groupings.Be one or two power splitters positioned at the second level with the first grouping connection, connect with the second packet be also positioned at One or two power splitters of the second level；Two two power splitters are divided into one group, and one or two power splitters for being located at the first order through one connect, It is formed P tie point (leveling information source/virtual information source).

3, the antenna node b3 in the antenna node b1, b2 and second packet being located in the first grouping of the third level is obtained, Loss value of the b4 under not homologous ray (by taking 2G system and 3G system as an example)；

If getting the loss value of antenna node b1, b2 under 2G system is respectively 5.6dB and 7.2dB, antenna node The loss value of b3, b4 under 2G system is respectively 8.0dB and 8.2dB；Loss value of antenna node b1, the b2 under 3G system point It Wei not 6.8dB and 9.3dB, the loss value difference 11.0dB and 11.5dB of antenna node b3, b4 under 3G system；

4, acquisition loss value in the antenna node in each grouping of the third level is maximum node and loss value for most Loss difference of the small node in current system；

In a specific embodiment of the present invention, loss value is that maximum node is in the antenna node in first grouping B2, loss value are that the smallest node is the loss difference of b1, b1 and b2 under 2G system for 1.6dB, the loss under 3G system Difference is 2.5dB；It is b4 that loss value, which is maximum node, in antenna node in the second packet, and loss value is the smallest node The loss difference for being b3, b3 and b4 under 2G system is 0.2dB, and the loss difference under 3G system is 0.5dB；

5, the average loss for obtaining the antenna node being located in each grouping of the third level is poor；

Wherein, in each grouping the average loss difference of antenna node be in same grouping loss value be maximum value node with Loss value is the sum of the loss difference of the node of minimum value under not homologous ray divided by 2；In a specific embodiment of the present invention, should The average loss difference of antenna node is in first grouping：(1.6dB+2.5dB)/2=2.1dB；Antenna node in the second packet Average loss difference be：(0.2dB+0.5dB)/2=0.4dB；

6, adjustment is respectively grouped the power splitter of connection with the third level；

Since the average loss difference of antenna node in first grouping is 2.1dB, it is greater than 2dB, therefore 3dB coupling should be selected Clutch replaces original two power splitters with the first grouping connection positioned at the second level；Antenna node is averaged in the second packet Loss difference is 0.5dB, is less than 2dB, therefore retain original two power splitters connecting with the second packet positioned at the second level；

The device for being now placed in the second level is updated, and as shown in figure 15, the new node of the second level is respectively a 3dB coupling Clutch node and one or two power splitter nodes；The three-dB coupler node and two power splitter constitute new grouping；

7, obtain loss value of the node being located in the grouping of the second level under 2G system and 3G system；

Obtain the three-dB coupler node and the two power splitters node, the loss value under 2G system and 3G system；The 3dB Coupler (straight-through loss is 2dB, and degree of coupling loss the is 3dB) loss value of node under 2G system is：(the output work at straight-through end Rate (if being b1 in the loss value under 2G system)+straight-through loss+coupled end output power (if it is b2 under 2G system Loss value) the loss of+degree of coupling)/2=8.9dB；The loss value of the three-dB coupler node under 3G system be：(lead directly to the defeated of end Out power (if being loss value of the b1 under 3G system)+straight-through loss+coupled end output power (if be b2 in G system Under loss value)+the degree of coupling loss)/2=10.6dB；The loss of two power splitters (loss value 3dB) node under 2G system Value is：Bis- power splitter part loss value of (loss value of the b3 in the loss value+b4 under 2G system under 2G system)/2+=11.1dB； The loss value of the two power splitters node under 3G system be：(loss of the b3 in the loss value+b4 under 3G system under 3G system Value) bis- power splitter part loss value of/2+=14.3dB；

8, loss value is maximum node in the node in the grouping of the second level and loss value is the smallest section for acquisition Loss difference of the point in current system；

In a specific embodiment of the present invention, it is two power splitter sections that loss value, which is maximum node, in the node in the grouping Point, loss value are that the smallest node is the coupler nodes, two power splitter and loss difference of the coupler under 2G system For 2.2dB, the loss difference under 3G system is 3.7dB；

9, the average loss for obtaining the node being located in the grouping of the second level is poor；

Wherein, the average loss difference for being grouped interior joint is that loss value is the node of maximum value in same grouping and loss value is The sum of the loss difference of the node of minimum value under not homologous ray is divided by 2；In a specific embodiment of the present invention, day in the grouping The average loss difference of line node is：(2.2dB+3.7dB)/2=3.0dB；

10, the power splitter of adjustment and second level grouping connection；

Since the average loss difference of second level grouping interior joint is 3.0dB, three-dB coupler should be selected to replace former There are two power splitters of the grouping connection with the second level positioned at the first order.

It to sum up completes domestic aerial compartment system device discrete pattern system diagram for 1 to 10, generates and adapt to mostly for communication system The device discrete pattern system diagram of the domestic aerial compartment system of system is as shown in figure 16.

To sum up, the system diagram that the solution of the present invention generates, can adapt to mostly avoid previous system diagram only for communication system The drawbacks of suitable for generation communication system；

The system diagram that the solution of the present invention generates, including device hubbed mode system and device discrete pattern system diagram are fitted Answering property is stronger, can meet the needs of various engineering practices.

As shown in figure 17, the embodiment of the present invention provides a kind of generating means of domestic aerial compartment system system diagram, In, including：

First obtains module 170, for obtaining the plan view of a domestic aerial compartment system；

Second obtains module 171, for obtaining the device information in the plan view；

Third obtains module 172, for handling the device information, obtains processing result；

Generation module 173 adapts to mostly be distributed system for the domestic aerial of communication system for generating according to the processing result The system diagram of system.

Wherein, described second module 171 is obtained, including：

First acquisition submodule, for obtaining including at least the antenna node quantity information in the plan view and each First device information of the antenna node in the loss value of not homologous ray；And/or

Second acquisition submodule, for obtaining the antenna node grouping information and described included at least in the plan view The second device that the power splitter that antenna node is respectively grouped and/or coupler grouping information are connected to by virtual information source in plan view Information.

Wherein, the third obtains module 172, as shown in figure 18, including：

Third acquisition submodule 180 is obtained for being grouped processing to the antenna node in first device information Adapt to the group result mostly for the antenna node of communication system.

Wherein, the third acquisition submodule 180, as shown in figure 19, including：

First acquisition unit 190, for according to each antenna node in first device information in not homologous ray Value information is lost, obtains each antenna node in the loss value of current system；

Second acquisition unit 191, for according to each antenna node in the loss value of current system, will be in the plan view Antenna node be ranked up according to the sequence of loss value from small to large or from large to small in current system, obtain current system When prime sequence node；Wherein, described when prime sequence node is antenna node sequence；

Third acquiring unit 192 is sequentially grouped for the node in prime sequence node to current system, obtains It takes when the node in prime sequence node is in the packet conditions information of current system；Wherein, the packet conditions information is at least wrapped Contain：Node of the node when in prime sequence node in the grouping group number information and current system of current system are respectively grouped Information；The nodal information includes at least number of nodes information；And each grouping internal loss value is the node and loss value of maximum value Loss difference for the node of minimum value is less than loss difference threshold value；

4th acquiring unit 193, for according to the node in antenna node sequence each system packet conditions information, it is right Node in the antenna node sequence is sequentially grouped again, obtains the adaptation mostly generation communication of antenna node sequence interior joint The new packet conditions information of system, and using the new grouping information as current group condition information；Wherein, the current group Condition information includes at least：Nodal information in grouping group number information and each grouping；The antenna node sequence of each system is newly worked as Preceding packet conditions information is consistent；Loss value in each grouping is the loss of the node and the node that loss value is minimum value of maximum value Difference is less than the loss difference threshold value.

Wherein, the third acquiring unit 192, as shown in figure 20, including：

First obtains subelement 200, for using current system when first node in prime sequence node as Beginning node, obtain the start node and current system when the present node in prime sequence node is the of current system One loss difference；

Second obtains subelement 201, for being less than the loss difference threshold value, and described in the first loss difference The second damage for working as the node in prime sequence node of beginning node and the next current system adjacent with the present node It is one by whole node divisions of the start node to the present node when consuming difference greater than the loss difference threshold value Group, and the remaining sequence node of current system is obtained, and newly work as prime section using the remaining sequence node as current system Point sequence；

First repeats subelement 202, obtains for repeating step performed by the first acquisition subelement to described second It takes node of the step performed by subelement into the antenna node sequence to finish in current system grouping, obtains the antenna The packet conditions information of node in sequence node in current system.

Wherein, the 4th acquiring unit 193, as shown in figure 21, including：

Third obtain subelement 210, for according to the node in antenna node sequence each system packet conditions information, Obtain nodal information of the node in the antenna node sequence in the first grouping under not homologous ray；

4th obtains subelement 211, in being grouped to the antenna node sequence interior joint the first of each system Node is retrieved respectively, obtains the maximum common subset of the first grouping interior nodes, and by the section in the maximum common subset Point is divided into one group, forms new first grouping；

5th obtains subelement 212, for obtaining when the new remaining sequence node of prime, and will the new residue sequence node Newly work as prime sequence node as one；

Second repeats subelement 213, obtains for repeating step performed by the first acquisition subelement to described second It takes node of the step performed by subelement into the new remaining sequence node to finish in current system grouping, obtains described new Grouping group number of the node under not homologous ray in remaining sequence node；

6th obtains subelement 214, when for the value in the grouping group number being positive integer, obtains the new remaining node Nodal information of the node in the first grouping under not homologous ray in sequence；

7th obtains subelement 215, for the first grouping to the new remaining sequence node interior joint under each system Interior node is retrieved, and obtains the maximum common subset of the first grouping interior nodes, and by the section in the maximum common subset Point is divided into one group, forms new first grouping；

The third repeating subelement 216 is obtained for repeating step performed by the 5th acquisition subelement to the described 7th Take step performed by subelement to the new grouping information for the adaptation multisystem for getting antenna node sequence interior joint, and by institute New grouping information is stated as current group condition information.

Wherein, the generation module 173, as shown in figure 22, including：

First generates submodule 220, raw for the group result according to the adaptation mostly for the antenna node of communication system At adaptation mostly for the domestic aerial compartment system device hubbed mode system diagram of communication system.

Wherein, described first submodule 220 is generated, as shown in figure 23, including：

Allocation unit 230, for being each point according to the number of nodes information in each grouping in current group condition information The corresponding distribution power splitter of group or coupler, and form next stage sequence node, and using the next stage sequence node as newly working as Prime sequence node；Wherein, the grouping group in the quantity of the next stage sequence node interior joint and current group condition information Number is consistent；

5th acquiring unit 231, for obtaining the loss value of the next stage sequence node interior joint；

6th acquiring unit 232, for the loss value according to the next stage sequence node interior joint, by the next stage Node in sequence node is arranged according to the descending or ascending sequence of loss value, and is executed the third and obtained Step performed by unit is taken, obtains the packet conditions information of the next stage sequence node interior joint, and by the next stage The packet conditions information of sequence node interior joint is as new current group condition information；

Repetitive unit 233, for repeating performed by step performed by the allocation unit to the 6th acquiring unit The step of, until what is formed is new when the quantity of prime sequence node interior joint is 1.

Wherein, the allocation unit 230, including：

First planning subelement, for when the number of nodes in the grouping of prime one is 1, the prime one of working as to be grouped Interior node is as the node in next stage sequence node；And/or

Second planning subelement, for working as prime according to described when the number of nodes in the grouping of prime one is greater than 1 Number of nodes in one grouping to be described when the corresponding distribution power splitter of the grouping of prime one or coupler, and forms next stage node Sequence；Wherein, the number of nodes is positive integer；The next stage sequence node includes power splitter node and/or coupler section Point.

Wherein, the third obtains module 172, as shown in figure 24, including：

4th acquisition submodule 240, for being connected to antenna node by virtual information source in second device information The power splitter and/or coupler being respectively grouped are replaced, or carry out parameter adjustment to the power splitter and/or coupler, are obtained Adaptation is mostly connected to the power splitter and/or coupler distributed intelligence that antenna node is respectively grouped by virtual information source for communication system.

Wherein, the generation module 173, as shown in figure 25, including：

Second generates submodule 250, for adaptation mostly being connected by virtual information source for communication system according to the acquisition The power splitter being respectively grouped to antenna node and/or coupler distributed intelligence are generated and are adapted to mostly for the domestic aerial of communication system point Distribution system device discrete pattern system diagram.

Wherein, described second submodule 250 is generated, as shown in figure 26, including：

7th acquiring unit 260 is in for obtaining when each of prime is grouped interior each node in the loss of current system Value；Wherein, the node is antenna node or coupler nodes or power splitter node；

8th acquiring unit 261, for obtaining the loss value when in prime respectively be grouped as the node and damage of maximum value Consumption value is loss difference of the node in current system of minimum value；

9th acquiring unit 262, it is poor for obtaining the average loss for being respectively grouped interior joint when prime；Wherein, each Grouping interior joint average loss difference be in same grouping loss value be maximum value node and loss value be minimum value node The sum of loss difference under not homologous ray is divided by 2；

Tenth acquiring unit 263, for poor according to the average loss, acquisition divides with when prime is respectively grouped the function to match Device or coupler, or the parameter information of adjustment power splitter corresponding with each grouping or coupler.

It should be noted that the device is the device for including the above method, the implementation of the embodiment of the above method is suitable For can also reach identical technical effect in the embodiment of the device.

The above is only a preferred embodiment of the present invention, it is noted that for the ordinary skill people of the art For member, various improvements and modifications may be made without departing from the principle of the present invention, these improvements and modifications are also answered It is considered as protection scope of the present invention.

Claims (12)

1. a kind of generation method of domestic aerial compartment system system diagram, which is characterized in that including：

Obtain the plan view of a domestic aerial compartment system；

Obtain the device information in the plan view；Wherein, the device information includes：Including at least the day in the plan view The first device information of line number of nodes information and each antenna node in the loss value of not homologous ray；And/or it includes at least Each point of antenna node is connected to by virtual information source in antenna node grouping information and the plan view in the plan view The power splitter of group and/or the second device information of coupler grouping information；

The device information is handled, processing result is obtained；

According to the processing result, the system diagram adapted to mostly for the domestic aerial compartment system of communication system is generated；Wherein, work as institute State device information be the first device information when, the system diagram be device hubbed mode system diagram；When the device information is the When two device informations, the system diagram is device discrete pattern system diagram.

2. the generation method of domestic aerial compartment system system diagram according to claim 1, which is characterized in that described to institute Device information is stated to be handled, obtain processing result the step of include：

Processing is grouped to the antenna node in first device information, obtains and adapts to mostly for the antenna node of communication system Group result.

3. the generation method of domestic aerial compartment system system diagram according to claim 2, which is characterized in that described to institute It states the antenna node in the first device information and is grouped processing, obtain and adapt to mostly for the grouping knot of the antenna node of communication system The step of fruit includes：

Step a is obtained each according to each antenna node in first device information in the loss value information of not homologous ray Loss value of the antenna node in current system；

Step b, according to each antenna node current system loss value, by the antenna node in the plan view according to loss The sequence of value from small to large or from large to small is ranked up in current system, and obtain current system works as prime sequence node；Its In, it is described when prime sequence node is antenna node sequence；

Step c is sequentially grouped the node in prime sequence node of current system, obtains when in prime sequence node Node current system packet conditions information；Wherein, the packet conditions information includes at least：It is described to work as prime node sequence Nodal information of the node in the grouping group number information and current system of current system are respectively grouped in column；The nodal information is extremely It less include number of nodes information；And each grouping internal loss value is the loss of the node and the node that loss value is minimum value of maximum value Difference is less than loss difference threshold value；

Step d, according to the node in antenna node sequence each system packet conditions information, in the antenna node sequence Node be sequentially grouped again, obtain antenna node sequence interior joint adaptation mostly for communication system new packet conditions believe Breath, and using the new grouping information as current group condition information；Wherein, the current group condition information includes at least： Nodal information in grouping group number information and each grouping；The new current group condition information one of the antenna node sequence of each system It causes；Loss value in each grouping is that the loss difference of the node and the node that loss value is minimum value of maximum value is less than the loss Poor threshold value.

4. the generation method of domestic aerial compartment system system diagram according to claim 3, which is characterized in that the step The node in prime sequence node of the current system is sequentially grouped in c, is obtained when in prime sequence node Node includes in the step of packet conditions information of current system：

Step e, using current system when first node in prime sequence node is as start node, the acquisition starting section Point is with current system when the present node in prime sequence node is in the first loss difference of current system；

Step f is less than the loss difference threshold value in the first loss difference, and the start node and works as prosthomere with described The the second loss difference for working as the node in prime sequence node of the adjacent next current system of point is greater than the loss difference It is one group by whole node divisions of the start node to the present node when threshold value, and obtains the surplus of current system Remaining sequence node, and newly work as prime sequence node using the remaining sequence node as current system；

Step g repeats node of the step e to step f into the antenna node sequence and finishes in current system grouping, obtains institute The node in antenna node sequence is stated in the packet conditions information of current system.

5. the generation method of domestic aerial compartment system system diagram according to claim 3, which is characterized in that the step In d according to the node in antenna node sequence each system packet conditions information, to the node in the antenna node sequence It is sequentially grouped again, obtains the new grouping information of the adaptation multisystem of antenna node sequence interior joint, and by described new point Group information includes as the step of current group condition information：

Step h obtains the antenna node sequence according to the node in antenna node sequence in the packet conditions information of each system In node under not homologous ray first grouping in nodal information；

Step i retrieves node of the antenna node sequence interior joint in the first grouping of each system respectively, obtains The maximum common subset of first grouping interior nodes, and be one group by the node division in the maximum common subset forms new the One grouping；

Step j is obtained and is worked as prime newly remaining sequence node, and newly works as prime node sequence using the new remaining sequence node as one Column；

Step k repeats node of the step e to step f into the new remaining sequence node and finishes in current system grouping, obtains Grouping group number of the node under not homologous ray in the new remaining sequence node；

Step l obtains the node in the new remaining sequence node in not homology when the value of the grouping group number is positive integer The nodal information in the first grouping under system；

Step m retrieves node of the new remaining sequence node interior joint in the first grouping under each system, obtains The maximum common subset of first grouping interior nodes, and be one group by the node division in the maximum common subset forms new the One grouping；

Step n repeats the new grouping information of step j to step m to the adaptation multisystem for getting antenna node sequence interior joint, And using the new grouping information as current group condition information.

6. the generation method of domestic aerial compartment system system diagram according to claim 3, which is characterized in that the basis The processing result, generate adaptation mostly includes for the step of system diagram of the domestic aerial compartment system of communication system：

Group result according to the adaptation mostly for the antenna node of communication system, generates and adapts to mostly for the indoor day of communication system Line compartment system device hubbed mode system diagram.

7. the generation method of domestic aerial compartment system system diagram according to claim 6, which is characterized in that the basis Group result of the adaptation mostly for the antenna node of communication system generates and adapts to mostly be distributed system for the domestic aerial of communication system Unite device hubbed mode system diagram the step of include：

Step o, according to the number of nodes information in each grouping in current group condition information, for the corresponding distribution function point of each grouping Device or coupler, and next stage sequence node is formed, and using the next stage sequence node as newly when prime sequence node；Its In, the quantity of the next stage sequence node interior joint is consistent with the grouping group number in current group condition information；

Step p obtains the loss value of the next stage sequence node interior joint；

Step q presses the node in the next stage sequence node according to the loss value of the next stage sequence node interior joint It is arranged according to the descending or ascending sequence of loss value, and executes step c, obtain the next stage sequence node The packet conditions information of interior joint, and using the packet conditions information of the next stage sequence node interior joint as new current group Condition information；

Step r repeats step o to step q, until what is formed is new when the quantity of prime sequence node interior joint is 1.

8. the generation method of domestic aerial compartment system system diagram according to claim 7, which is characterized in that the step According to the number of nodes information in each grouping in current group condition information in o, for the corresponding distribution power splitter of each grouping or coupling The step of clutch includes：

When prime one grouping in number of nodes be 1 when, using it is described when prime one grouping in node as next stage node A node in sequence；And/or

When prime one grouping in number of nodes be greater than 1 when, according to it is described when prime one grouping in number of nodes, for institute It states when the corresponding distribution power splitter of the grouping of prime one or coupler, and forms next stage sequence node；Wherein, the number of nodes is Positive integer；The next stage sequence node includes power splitter node and/or coupler nodes.

9. the generation method of domestic aerial compartment system system diagram according to claim 1, which is characterized in that described to institute Device information is stated to be handled, obtain processing result the step of include：

To in second device information by virtual information source be connected to power splitter that antenna node is respectively grouped and/or coupler into Row replacement, or parameter adjustment is carried out to the power splitter and/or coupler, it obtains and adapts to mostly for communication system by virtual information source It is connected to the power splitter and/or coupler distributed intelligence that antenna node is respectively grouped.

10. the generation method of domestic aerial compartment system system diagram according to claim 9, which is characterized in that described According to the processing result, generate adaptation mostly includes for the step of system diagram of the domestic aerial compartment system of communication system：

According to the adaptation of the acquisition mostly for communication system by virtual information source be connected to power splitter that antenna node is respectively grouped and/ Or coupler distributed intelligence, it generates and adapts to mostly for the domestic aerial compartment system device discrete pattern system diagram of communication system.

11. the generation method of domestic aerial compartment system system diagram according to claim 10, which is characterized in that described to obtain The adaptation taken is mostly connected to the power splitter and/or coupler distribution letter that antenna node is respectively grouped by virtual information source for communication system The step of breath includes：

Step s, acquisition are grouped interior each node in the loss value of current system in each of prime is worked as；Wherein, the node is Antenna node or coupler nodes or power splitter node；

Step t obtains the node that node that the loss value when in prime respectively be grouped is maximum value is minimum value with loss value In the loss difference of current system；

It is poor to obtain the average loss for being respectively grouped interior joint when prime by step u；Wherein, the average damage of each grouping interior joint Consumption difference is that loss value is the node of maximum value in same grouping and loss value is loss of the node of minimum value under not homologous ray The sum of difference is divided by 2；

Step v, it is poor according to the average loss, it obtains and when prime is respectively grouped the power splitter or coupler to match, or adjustment The parameter information of power splitter corresponding with each grouping or coupler.

12. a kind of generating means of domestic aerial compartment system system diagram, which is characterized in that including：

First obtains module, for obtaining the plan view of a domestic aerial compartment system；

Second obtains module, for obtaining the device information in the plan view；Wherein, the device information includes：At least wrap Containing in the plan view antenna node quantity information and each antenna node the loss value of not homologous ray the first device Information；And/or including at least the antenna node grouping information in the plan view and in the plan view by virtual information source It is connected to the second device information of the power splitter that antenna node is respectively grouped and/or coupler grouping information；

Third obtains module, for handling the device information, obtains processing result；

Generation module, for according to the processing result, generate adaptation to be mostly for the domestic aerial compartment system of communication system System figure；Wherein, when the device information is the first device information, the system diagram is device hubbed mode system diagram；Work as institute State device information be the second device information when, the system diagram be device discrete pattern system diagram.