CN102970691A - Indoor and outdoor joint resource management method and base station - Google Patents

Abstract

The invention provides an indoor and outdoor joint resource management method and a base station. The method comprises the following steps of: receiving a first total service traffic, monitored by first monitoring equipment, of an indoor distribution system, and a second total service traffic, monitored by second monitoring equipment, of a macro block, and respectively creating a first total service traffic historical sequence and a second total service traffic historical sequence; calculating forecasted total service traffics of the indoor distribution system and the macro block according to the first total service traffic historical sequence and the second total service traffic historical sequence; and allocating resources to the indoor distribution system and the macro block according to the forecasted total service traffics of the indoor distribution system and the macro block. The indoor and outdoor joint resource management method and the base station have the advantages that the service needs of indoor and outdoor systems can be simultaneously met on the premise of not upgrading base station hardware or increasing carrier frequency, and the utilization ratio of the resources is increased.

Description

Indoor and outdoor joint resource management method and base station

Technical field

The present invention relates to wireless communication technology, relate in particular to a kind of indoor and outdoor joint resource management method and base station.

Background technology

In the existing communication network, mobile radio network in order to satisfy the communication requirement of indoor user, has also been built indoor distributed system except Hong Qu, microcellulor, Pico cell residential quarter.The signal source of indoor distributed system mainly contains base station, microcell base station, distributed base station, RF direct amplifying station, optical fiber repeater etc.Along with the development in city, site resource is fewer and feweri, and special as in the past is that an indoor distributed system deployment base station is impossible, and this just needs indoor distributed system and Hong Qu to share same base station.

In the prior art, indoor distributed system and Hong Qu generally are the carrier frequency resources that distributes the base station by the planning means.After the carrier frequency resource of base station is distributed, if the service traffics of indoor distributed system and Hong Qu change, can only be the carrier frequency resource at indoor distributed system and grand differentiation aglucon station again manually by the planning means more just, to satisfy the business demand of indoor distributed system and Hong Qu.Yet service traffics are dynamic changes, can not distribute at any time along with the dynamic change of service traffics the resource of base station during practical application by the planning means.At present, the demand that sharing base is uprushed for the service traffics that satisfy indoor distributed system or Hong Qu just can only or increase the carrier frequency number by the upgrading BTS hardware and improve the carrier frequency resource of base station.When the service traffics of indoor distributed system or Hong Qu descended, the mode of employing upgrading or increase carrier frequency number will certainly cause the waste of resource.

Summary of the invention

The invention provides a kind of indoor and outdoor joint resource management method and base station, to improve the utilance of resource.

First aspect of the present invention provides a kind of indoor and outdoor joint resource management method, comprising:

Receive first total service traffics of the indoor distributed system that the first monitoring equipment monitors, and second total service traffics of the second Hong Qu of monitoring of monitoring equipment, generate respectively first total service traffics historical series and second total service traffics historical series, wherein, described indoor distributed system and described Hong Qu share same base station;

According to described first total service traffics historical series and second total service traffics historical series, generate respectively total service traffics variation characteristic information of next described indoor distributed system of the moment and described Hong Qu;

Total service traffics variation characteristic information and the first total service traffics that constantly receive recently apart from current time according to described indoor distributed system, calculate the total service traffics of prediction of described indoor distributed system, according to the total service traffics variation characteristic information and the described second total service traffics that constantly receive recently apart from current time of described Hong Qu, calculate the total service traffics of prediction of described Hong Qu;

The total service traffics of prediction according to the total service traffics of the prediction of described indoor distributed system and described Hong Qu, the carrier frequency resource of scheduling respective numbers is to described indoor distributed system and/or Hong Qu, or close the carrier frequency resource of the respective numbers of described indoor distributed system and/or Hong Qu, or all carrier frequency resources of described indoor distributed system are closed so that described indoor distributed system is shared the carrier frequency resource of Hong Qu, or all carrier frequency resources of described Hong Qu are closed so that described Hong Qu shares the carrier frequency resource of indoor distributed system.

Another aspect of the present invention provides a kind of base station, comprising:

Receiver module, be used for to receive first total service traffics of the indoor distributed system that the first monitoring equipment monitors, and second total service traffics of the second Hong Qu of monitoring of monitoring equipment, generate respectively first total service traffics historical series and second total service traffics historical series, wherein, described indoor distributed system and described Hong Qu share same base station;

Generation module is used for according to described first total service traffics historical series and second total service traffics historical series, generates respectively total service traffics variation characteristic information of next described indoor distributed system of the moment and described Hong Qu;

Computing module, be used for total service traffics variation characteristic information and the first total service traffics that constantly receive recently apart from current time according to described indoor distributed system, calculate the total service traffics of prediction of described indoor distributed system, according to the total service traffics variation characteristic information and the described second total service traffics that constantly receive recently apart from current time of described Hong Qu, calculate the total service traffics of prediction of described Hong Qu;

The scheduling of resource module, be used for the total service traffics of prediction according to the total service traffics of the prediction of described indoor distributed system and described Hong Qu, the carrier frequency resource of scheduling respective numbers is to described indoor distributed system and/or Hong Qu, or close the carrier frequency resource of the respective numbers of described indoor distributed system and/or Hong Qu, or all carrier frequency resources of described indoor distributed system are closed so that described indoor distributed system is shared the carrier frequency resource of Hong Qu, or all carrier frequency resources of described Hong Qu are closed so that described Hong Qu shares the carrier frequency resource of indoor distributed system.

As shown from the above technical solution, the embodiment of the invention is according to total service traffics of indoor heating system and Hong Qu, draw the total service traffics of prediction of next moment indoor distributed system and Hong Qu, and according to the total service traffics dynamic dispatching resource of prediction, with under the prerequisite of BTS hardware or increase carrier frequency number of not upgrading, satisfy simultaneously indoor heating system and outdoor business demand, improve the utilance of resource.

Description of drawings

Fig. 1 is the schematic flow sheet of indoor and outdoor joint resource management embodiment of the method one provided by the invention;

Fig. 2 is the schematic flow sheet of indoor and outdoor joint resource management embodiment of the method two provided by the invention;

Fig. 3 is that indoor and outdoor joint resource management embodiment of the method three provided by the invention is based on an idiographic flow schematic diagram of embodiment of the method one and embodiment two newly-increased steps;

Fig. 4 is that indoor and outdoor joint resource management embodiment of the method three provided by the invention is based on another idiographic flow schematic diagram of embodiment of the method one and embodiment two newly-increased steps;

Fig. 5 is the structural representation of base station embodiment one provided by the invention;

Fig. 6 is the structural representation of base station embodiment two provided by the invention;

Fig. 7 is the structural representation of scheduling of resource module described in the base station embodiment provided by the invention;

Fig. 8 is the structural representation of base station embodiment three provided by the invention;

Fig. 9 is the structural representation of receiver module described in the base station embodiment provided by the invention.

Embodiment

Indoor distributed system described in the embodiment of the invention refers to utilize the domestic aerial compartment system that the signal of base station is evenly distributed on indoor every nook and cranny, thereby guarantees that room area has the system that signal covers.Described indoor distributed system mainly is comprised of signal source and signal distributing system two parts.Wherein, described signal distributing system mainly by signal divide/mixer, power division device, feeder line and domestic aerial form, be used for the signal of signal source is covered indoor every nook and cranny uniformly.Hong Qu described in the various embodiments of the present invention is that all residential quarters that the base station is set up consist of.Described indoor distributed system and described Hong Qu share same base station and refer to: the signal source of described indoor distributed system is this base station.

As shown in Figure 1, the schematic flow sheet of indoor and outdoor joint resource management embodiment of the method one provided by the invention.The described indoor and outdoor joint resource management of present embodiment method comprises:

First total service traffics of the indoor distributed system that step 101, reception the first monitoring equipment monitor, and second total service traffics of the second Hong Qu of monitoring of monitoring equipment, generate respectively first total service traffics historical series and second total service traffics historical series, wherein, described indoor distributed system and described Hong Qu share same base station.

Wherein, the first monitoring equipment can be chamber minute network management system, and described the second monitoring equipment can be the measuring terminals that can detect the network element device of traffic carrying capacity in the existing communication network or be exclusively used in the monitoring service traffics.Particularly, the base station receives the first packet of the first data format that the first monitoring equipment sends, and described the first packet carries first total service traffics of the indoor distributed system that described the first monitoring equipment monitors by predetermined period or predetermined instant.Simultaneously, the base station receives the second packet of the second data format that the second monitoring equipment sends, and described the second packet carries second total service traffics of the Hong Qu that described the second monitoring equipment monitors according to predetermined period or predetermined instant.Then, the base station is converted to the second data format with described the first packet, so that described the first data are converted to the discernible data format in base station according to default format conversion program.Owing to adopting Ethernet protocol, each network element device in the indoor distributed system in the prior art communicates, therefore the base station is behind the first packet that receives chamber minute network management system transmission, described the first packet needs the form of this first packet is changed, so that can be identified in the base station.Described the first monitoring equipment of base station stored is pressed first total service traffics of predetermined period or predetermined instant transmission, and second checkout equipment press second total service traffics that predetermined period or predetermined instant send, generate first total service traffics historical series and second total service traffics historical series, think step 102 deposit historical data.

Step 102, according to described first total service traffics historical series and second total service traffics historical series, generate respectively next constantly total service traffics variation characteristic information of described indoor distributed system and described Hong Qu.

Particularly, the base station is according to each predetermined period or corresponding described first total service traffics and the second total service traffics of each predetermined instant, be all first total service traffics that receive and second total service traffics of base station stored in the above-mentioned steps, generate respectively total service traffics variation characteristic information of next cycle or next described indoor distributed system of the moment and described Hong Qu.For example, the DAP that prestores is called in the base station, and this DAP that prestores generates total service traffics variation characteristic information of described indoor distributed system according to each predetermined period or described first total service traffics historical series corresponding to each predetermined instant.Similarly, this DAP that prestores generates total service traffics variation characteristic information of described Hong Qu according to each predetermined period or described second total service traffics historical series corresponding to each predetermined instant.Wherein, the described DAP that prestores can obtain according to existing data analysis computation model programming.Described total service traffics variation characteristic information is used for characterizing total service traffics variation tendency of described indoor distributed system and described Hong Qu.But described total service traffics variation characteristic information embodiments is service traffics changes percentage.

Step 103, according to total service traffics variation characteristic information of described indoor distributed system and the first total service traffics that constantly receive recently apart from current time, calculate the total service traffics of prediction of described indoor distributed system, according to the total service traffics variation characteristic information and the described second total service traffics that constantly receive recently apart from current time of described Hong Qu, calculate the total service traffics of prediction of described Hong Qu.

Particularly, the base station calculates the total service traffics of prediction of described indoor distributed system according to total service traffics variation characteristic information (being that service traffics change percentage) and the first total service traffics that constantly receive recently apart from current time of next cycle or next described indoor distributed system of the moment.Similarly, described base station calculates the total service traffics of prediction of described Hong Qu according to the total service traffics variation characteristic information and the second total service traffics that constantly receive recently apart from current time of described Hong Qu of next cycle or next moment.For example, default calculation procedure is called in the base station, and first total service traffics that this calculation procedure receives recently according to total service traffics variation characteristic information and the base station of described indoor distributed system calculate next constantly total service traffics of prediction of indoor distributed system.Similarly, described calculation procedure calculates next constantly total service traffics of Hong Qu according to total service traffics variation characteristic information and the second total service traffics of described Hong Qu.Particularly, described base station changes percentage according to total service traffics that the DAP that prestores generates respectively next cycle or next described indoor distributed system of the moment and described Hong Qu, according to calling default calculation procedure, calculate respectively total service traffics variation percentage of described indoor distributed system and the product of first total service traffics that the base station receives recently, and the product of total service traffics variation percentage of described Hong Qu and second total service traffics that the base station receives recently, draw the total service traffics of prediction of described indoor distributed system and the total service traffics of prediction of described Hong Qu.

Step 104, according to the total service traffics of prediction of the total service traffics of the prediction of described indoor distributed system and described Hong Qu, the carrier frequency resource of scheduling respective numbers is to described indoor distributed system and/or Hong Qu, or close the carrier frequency resource of the respective numbers of described indoor distributed system and/or Hong Qu, or all carrier frequency resources of described indoor distributed system are closed so that described indoor distributed system is shared the carrier frequency resource of Hong Qu, or all carrier frequency resources of described Hong Qu are closed so that described Hong Qu shares the carrier frequency resource of indoor distributed system.

Particularly, if the total service traffics of the prediction of described indoor distributed system greater than first threshold, then the base station is according to the difference of the total service traffics of the prediction of described indoor distributed system and described first threshold, the carrier frequency resource of scheduling respective numbers is to described indoor distributed system.If the total service traffics of the prediction of described Hong Qu are greater than first threshold, then the base station is according to the difference of the total service traffics of the prediction of described Hong Qu and described first threshold, and the carrier frequency resource of scheduling respective numbers is to described Hong Qu.If the total service traffics of the prediction of described indoor distributed system are less than Second Threshold, then the carrier frequency resource of the respective numbers of described indoor distributed system is closed according to the difference of the total service traffics of the prediction of described indoor distributed system and described Second Threshold in the base station.If the total service traffics of the prediction of described Hong Qu are less than Second Threshold, then the carrier frequency resource of the respective numbers of described Hong Qu is closed according to the difference of the total service traffics of the prediction of described Hong Qu and described Second Threshold in the base station.If the total service traffics sum of the prediction of the total service traffics of the prediction of described indoor distributed system and described Hong Qu is less than the 3rd threshold value, then all carrier frequency resources of described indoor distributed system or described Hong Qu are closed in the base station, so that described indoor distributed system is shared the carrier frequency resource of Hong Qu, or described Hong Qu shares the carrier frequency resource of indoor distributed system.Wherein, described the 3rd threshold value is less than described Second Threshold, and described Second Threshold is less than described first threshold.More specifically, the scheduling of resource of said process can by calling default resource adjusting strategies program, according to the total service traffics of prediction of the total service traffics of the prediction of described indoor distributed system and described Hong Qu, be carried out in the base station.Here need to prove: because of the quantity of carrier frequency resource constant, so when the total service traffics of the prediction of the total service traffics of the prediction of indoor distributed system and Hong Qu go up a moment or cycle simultaneously when increasing to some extent, might occur to dispatch without the carrier frequency resource, at this moment, described default resource adjusting strategies program can be dispatched by having judged whether carrier frequency resource, if nothing, then can be according to the ratio of the total service traffics of prediction of the total service traffics of the prediction of indoor distributed system and Hong Qu, all carrier frequency resources of described base station are distributed according to both ratios, the carrier frequency scheduling that exceeds quantity allotted of indoor distributed system or described Hong Qu to Hong Qu or indoor distributed system, is not perhaps carried out the scheduling of resource.

Present embodiment is according to the indoor heating system that monitors and total service traffics of Hong Qu, draw the total service traffics of prediction of next moment indoor distributed system and Hong Qu, and according to the dynamic scheduling resource of the total service traffics of prediction, with under the prerequisite of BTS hardware or increase carrier frequency number of not upgrading, satisfy simultaneously indoor heating system and outdoor business demand, improve the utilance of resource.

As shown in Figure 2, indoor and outdoor joint resource management method provided by the invention is implemented two schematic flow sheet.As shown in FIG., present embodiment two is based on above-described embodiment one, the step 101 of present embodiment two in comprising above-described embodiment one ~ step 104, also comprises before embodiment one described step 104:

Step 103 ', all carrier frequency resources are divided into three groups, the information resources group that is respectively the first resource group that offers Hong Qu, the Secondary resource group that offers indoor distributed system and is used for scheduling, described first resource group, Secondary resource group and information resources group consist of by at least one carrier frequency resource.

Correspondingly, in the step 104 described in above-described embodiment one, the total service traffics of prediction of the total service traffics of described prediction according to described indoor distributed system and described Hong Qu, the carrier frequency resource of scheduling respective numbers is to described indoor distributed system and/or Hong Qu, be specially: according to the total service traffics of prediction of the total service traffics of the prediction of described indoor distributed system and described Hong Qu, with at least one carrier frequency scheduling in the described information resources group to described Hong Qu, and/or with at least one carrier frequency scheduling in the described information resources group to indoor distributed system, and/or with at least one carrier frequency scheduling in the described information resources group to Hong Qu, and with at least one carrier frequency scheduling in the remaining carrier frequency resource in the described information resources group to described indoor distributed system.

Present embodiment helps the rational Resources allocation in base station by all carrier frequency resources are divided, and further improves the utilance of resource.

Indoor and outdoor joint resource management embodiment of the method three provided by the invention.Present embodiment three as shown in Figure 3, also comprises the steps: on the basis of above-described embodiment one or embodiment two

The measurement report that step 301, base station receiving terminal report, described measurement report carry signal strength signal intensity and the sign of at least two residential quarters that described terminal receives.

Particularly, described terminal can be periodically to described base station reporting measurement reports.Described measurement report carries signal strength signal intensity and the sign of current at least two residential quarters that receive of described terminal.

Step 302, described base station be according to Neighboring Cell List, finds out the sign in described Neighboring Cell List in the sign of all residential quarters that described measurement report carries.

Wherein, described base station has generated described Neighboring Cell List when base station deployment.Described Neighboring Cell List includes the sign of each residential quarter in the grand district, described base station and the sign of the residential quarter adjacent with each residential quarter in the grand district, described base station.For example, described base station Hong Qu includes three residential quarters, residential quarter A, residential quarter B and residential quarter C.Described Neighboring Cell List then includes: the sign of the residential quarter D under the sign of residential quarter A and other base stations adjacent with described residential quarter A, the sign of residential quarter E under the sign of residential quarter B and other base stations adjacent with described residential quarter B, the sign of the residential quarter F under the sign of residential quarter C and other base stations adjacent with described residential quarter C.Being identified in the described Neighboring Cell List of the residential quarter that described measurement report carries illustrates that then a certain residential quarter in the grand district in residential quarter and described base station of this sign is adjacent.

The signal strength signal intensity of the sign correspondence that finds out is judged less than default intensity threshold in step 303, described base station whether, if then adopt default allocation strategy to cell allocation at least one carrier frequency resource adjacent with the residential quarter of described sign.

Wherein, described default intensity threshold is that described base station judges whether this residential quarter the standard of leak occurs covering, namely is lower than this threshold value and illustrates that then leak appears covering in this residential quarter.Default allocation strategy at least one carrier frequency resource of cell allocation in the described base station grand district adjacent with this residential quarter is adopted in described base station, so that it is more to be assigned with the number of users that can carry the residential quarter of carrier frequency resource, and then, the transmitting power that described base station can be assigned with the antenna in cell of carrier frequency resource by improving this is to cover the leak zone.Wherein, described default allocation strategy can be according to the practical experience acquisition of artificially programming.

Perhaps present embodiment three as shown in Figure 4, also comprises the steps: on the basis of above-described embodiment one or embodiment two

Step 304, base station receive the residential quarter close message, and described close message carries the sign of wanting to close the residential quarter.

Particularly, when the residential quarter need to be closed because of energy-conservation or fault Awaiting Overhaul, this residential quarter can outside broadcast cell close message.Described base station can receive described residential quarter close message, and it is adjacent to illustrate that then this wants a certain residential quarter closed in the grand district in residential quarter and described base station, namely with described to want to close adjacent residential quarter, residential quarter be a residential quarter in the grand district, described base station.

Step 305, described base station be according to the sign of wanting to close the residential quarter, adopts default allocation strategy to want to close residential quarter at least one carrier frequency resource of adjacent cell allocation with described in the described base station.

The described base station of present embodiment is by the measurement report that receives or the residential quarter close message that receives, know with grand district, described base station in adjacent residential quarter, residential quarter whether leak appears covering, then adopt default allocation strategy in the grand district, base station with fault or close residential quarter at least one carrier frequency resource of adjacent cell allocation, so that it is more to be assigned with the number of users that can carry the residential quarter of carrier frequency resource, and then, described base station can be by improving this residential quarter that is assigned with carrier frequency resource the transmitting power of antenna, to cover the leak zone.Wherein, described default allocation strategy can be according to the practical experience acquisition of artificially programming.

One of ordinary skill in the art will appreciate that: all or part of step that realizes above-mentioned each embodiment of the method can be finished by the relevant hardware of program command.Aforesaid program can be stored in the computer read/write memory medium.This program is carried out the step that comprises above-mentioned each embodiment of the method when carrying out; And aforesaid storage medium comprises: the various media that can be program code stored such as ROM, RAM, magnetic disc or CD.

As shown in Figure 5, the structural representation of base station embodiment one provided by the invention.As shown in Figure 5, present embodiment one described base station comprises: receiver module 1, generation module 2, computing module 3 and scheduling of resource module 4.Wherein, described receiver module 1 is used for receiving first total service traffics of the indoor distributed system that the first monitoring equipment monitors, and second total service traffics of the second Hong Qu of monitoring of monitoring equipment, generate respectively first total service traffics historical series and second total service traffics historical series, wherein, described indoor distributed system and described Hong Qu share same base station.Described generation module 2 is used for according to described first total service traffics historical series and second total service traffics historical series, generates respectively total service traffics variation characteristic information of next described indoor distributed system of the moment and described Hong Qu.Described computing module 3 is used for the total service traffics variation characteristic information and the first total service traffics that constantly receive recently apart from current time according to described indoor distributed system, calculate the total service traffics of prediction of described indoor distributed system, according to the total service traffics variation characteristic information and the described second total service traffics that constantly receive recently apart from current time of described Hong Qu, calculate the total service traffics of prediction of described Hong Qu.The total service traffics of prediction that described scheduling of resource module 4 is used for according to the total service traffics of the prediction of described indoor distributed system and described Hong Qu, the carrier frequency resource of scheduling respective numbers is to described indoor distributed system and/or Hong Qu, or close the carrier frequency resource of the respective numbers of described indoor distributed system and/or Hong Qu, or all carrier frequency resources of described indoor distributed system are closed so that described indoor distributed system is shared the carrier frequency resource of Hong Qu, or all carrier frequency resources of described Hong Qu are closed so that described Hong Qu shares the carrier frequency resource of indoor distributed system.Wherein, above-described embodiment one described indoor and outdoor joint resource management method can be realized in the described base station of present embodiment, the specific works process of each module can with reference to disclosed related content in above-described embodiment one described indoor and outdoor joint resource management method, repeat no more herein.

The described base station of present embodiment can be according to total service traffics of the indoor heating system that receives and Hong Qu, draw the total service traffics of prediction of next moment indoor distributed system and Hong Qu, and according to the dynamic scheduling resource of the total service traffics of prediction, with under the prerequisite of BTS hardware or increase carrier frequency number of not upgrading, satisfy simultaneously indoor heating system and outdoor business demand, improve the utilance of resource.

Further, as shown in Figure 6, above-described embodiment one described base station also comprises: resource division module 5.Described resource division module 5 is used for all carrier frequency resources are divided into three groups, the information resources group that is respectively the first resource group that offers Hong Qu, the Secondary resource group that offers indoor distributed system and is used for scheduling.Described first resource group, Secondary resource group and information resources group consist of by at least one carrier frequency resource.Correspondingly, scheduling of resource module 4 described in above-described embodiment one also is used for the total service traffics of prediction according to the total service traffics of the prediction of described indoor distributed system and described Hong Qu, with at least one carrier frequency scheduling in the described information resources group to described Hong Qu, and/or with at least one carrier frequency scheduling in the described information resources group to indoor distributed system, and/or with at least one carrier frequency scheduling in the described information resources group to Hong Qu, and with at least one carrier frequency scheduling in the remaining carrier frequency resource in the described information resources group to described indoor distributed system.Wherein, above-described embodiment two described indoor and outdoor joint resource management methods can be realized in the described base station of present embodiment, the specific works process of each module can with reference to the disclosed related content of above-described embodiment two described indoor and outdoor joint resource management methods, repeat no more herein.

Again further, as shown in Figure 7, the scheduling of resource module 4 described in above-described embodiment specifically can comprise: judging unit 41 and processing unit 42.Wherein, described judging unit 41 is used for when total service traffics of the prediction of described indoor distributed system during greater than first threshold, generate the first decision instruction, when total service traffics of the prediction of described Hong Qu during greater than first threshold, generate the second decision instruction, when total service traffics of the prediction of described indoor distributed system during less than Second Threshold, generate the 3rd decision instruction, when total service traffics of the prediction of described Hong Qu during less than Second Threshold, generate the 4th decision instruction, when the total service traffics sum of the prediction of the total service traffics of the prediction of described indoor distributed system and described Hong Qu during less than the 3rd threshold value, generate the 5th decision instruction.Described processing unit 42 is used for when receiving described judging unit and export the first decision instruction, difference according to the total service traffics of the prediction of described indoor distributed system and described first threshold, the carrier frequency resource of scheduling respective numbers is to described indoor distributed system, when receiving described judging unit and export the second decision instruction, according to the difference of the total service traffics of the prediction of described Hong Qu and described first threshold, the carrier frequency resource of scheduling respective numbers is to described Hong Qu; When receiving described judging unit and export the 3rd decision instruction, according to the difference of the total service traffics of the prediction of described indoor distributed system and described Second Threshold, close the carrier frequency resource of the respective numbers of described indoor distributed system; When receiving described judging unit and export the 4th decision instruction, according to the difference of the total service traffics of the prediction of described Hong Qu and described Second Threshold, close the carrier frequency resource of the respective numbers of described Hong Qu; When receiving described judging unit and export the 5th decision instruction, all carrier frequency resources of described indoor distributed system or described Hong Qu are closed, so that described indoor distributed system is shared the carrier frequency resource of Hong Qu, or described Hong Qu shares the carrier frequency resource of indoor distributed system.Wherein, described the 3rd threshold value is less than described Second Threshold, and described Second Threshold is less than described first threshold.

Further, as shown in Figure 8, the described base station of the various embodiments described above also comprises except comprising above-mentioned each module: search module 6.Wherein, the receiver module 1 described in above-described embodiment also is used for the measurement report that receiving terminal reports, and described measurement report carries signal strength signal intensity and the sign of at least two residential quarters that described terminal receives.The described module 6 of searching is used for according to Neighboring Cell List, finds out the sign in described Neighboring Cell List in the sign of all residential quarters that described measurement report carries.Correspondingly, scheduling of resource module described in above-described embodiment, whether the signal strength signal intensity that also is used for judging the sign correspondence that finds out is less than default intensity threshold, if then adopt default allocation strategy to cell allocation at least one carrier frequency resource adjacent with the residential quarter of described sign.Perhaps, the described module of searching need not be set in the described base station, receiver module described in the various embodiments described above also is used for receiving the residential quarter close message, and described residential quarter close message carries the sign of wanting to close the residential quarter.Described scheduling of resource module also is used for according to the sign of wanting to close the residential quarter, adopts default allocation strategy to wanting to close residential quarter at least one carrier frequency resource of adjacent cell allocation with described.Wherein, above-described embodiment three described indoor and outdoor joint resource management methods can be realized in the described base station of present embodiment, the specific works process of each module can with reference to the related content of above-described embodiment three described indoor and outdoor joint resource management methods exposure, repeat no more herein.

As shown in Figure 9, the receiver module described in above-described embodiment 1 can comprise: the first receiving element 11, the second receiving element 12 and format conversion unit 13.Wherein, described the first receiving element 11 is used for receiving the first packet of the first data format that the first monitoring equipment sends, and described the first packet carries first total service traffics information of the indoor distributed system that described the first monitoring equipment monitors by predetermined period or predetermined instant.Described the second receiving element 12 is used for receiving the second packet of the second data format that the second monitoring equipment sends, and described the second packet carries second total service traffics of the Hong Qu that described the second monitoring equipment monitors according to predetermined period or predetermined instant.Described format conversion unit 13 is used for according to default format conversion program described the first packet being converted to the second data format.Wherein, the reason that arranges of described format conversion unit 13 is: in the prior art in the indoor distributed system each network element device be to adopt Ethernet protocol to communicate, the base station needs be undertaken could identifying after the format conversion by format conversion unit 13 from the first packet of the first data format that described the first receiving element receives.

It should be noted that at last: above each embodiment is not intended to limit only in order to technical scheme of the present invention to be described; Although with reference to aforementioned each embodiment the present invention is had been described in detail, those of ordinary skill in the art is to be understood that: it still can be made amendment to the technical scheme that aforementioned each embodiment puts down in writing, and perhaps some or all of technical characterictic wherein is equal to replacement; And these modifications or replacement do not make the essence of appropriate technical solution break away from the scope of various embodiments of the present invention technical scheme.

Claims (10)

1. an indoor and outdoor joint resource management method is characterized in that, comprising:

Receive first total service traffics of the indoor distributed system that the first monitoring equipment monitors, and second total service traffics of the second Hong Qu of monitoring of monitoring equipment, generate respectively first total service traffics historical series and second total service traffics historical series, wherein, described indoor distributed system and described Hong Qu share same base station;

According to described first total service traffics historical series and second total service traffics historical series, generate respectively total service traffics variation characteristic information of next described indoor distributed system of the moment and described Hong Qu;

Total service traffics variation characteristic information and the first total service traffics that constantly receive recently apart from current time according to described indoor distributed system, calculate the total service traffics of prediction of described indoor distributed system, according to the total service traffics variation characteristic information and the described second total service traffics that constantly receive recently apart from current time of described Hong Qu, calculate the total service traffics of prediction of described Hong Qu;

The total service traffics of prediction according to the total service traffics of the prediction of described indoor distributed system and described Hong Qu, the carrier frequency resource of scheduling respective numbers is to described indoor distributed system and/or Hong Qu, or close the carrier frequency resource of the respective numbers of described indoor distributed system and/or Hong Qu, or all carrier frequency resources of described indoor distributed system are closed so that described indoor distributed system is shared the carrier frequency resource of Hong Qu, or all carrier frequency resources of described Hong Qu are closed so that described Hong Qu shares the carrier frequency resource of indoor distributed system.

2. indoor and outdoor joint resource management method according to claim 1, it is characterized in that, the total service traffics of prediction of the total service traffics of described prediction according to described indoor distributed system and described Hong Qu, the carrier frequency resource of scheduling respective numbers also comprises to described indoor distributed system and/or the Hong Qu:

All carrier frequency resources are divided into three groups, the information resources group that is respectively the first resource group that offers Hong Qu, the Secondary resource group that offers indoor distributed system and is used for scheduling, described first resource group, Secondary resource group and information resources group consist of by at least one carrier frequency resource;

Correspondingly, according to the total service traffics of prediction of the total service traffics of the prediction of described indoor distributed system and described Hong Qu, the carrier frequency resource of scheduling respective numbers is specially to described indoor distributed system and/or Hong Qu:

According to the total service traffics of prediction of the total service traffics of the prediction of described indoor distributed system and described Hong Qu, with at least one carrier frequency scheduling in the described information resources group to described Hong Qu, and/or

With at least one carrier frequency scheduling in the described information resources group to indoor distributed system, and/or

With at least one carrier frequency scheduling in the described information resources group to Hong Qu, and with at least one carrier frequency scheduling in the remaining carrier frequency resource in the described information resources group to described indoor distributed system.

3. indoor and outdoor joint resource management method according to claim 1 and 2, it is characterized in that, the total service traffics of prediction of the total service traffics of described prediction according to described indoor distributed system and described Hong Qu, the carrier frequency resource of scheduling respective numbers is to described indoor distributed system and/or Hong Qu, or close the carrier frequency resource of the respective numbers of described indoor distributed system and/or Hong Qu, or all carrier frequency resources of described indoor distributed system are closed so that described indoor distributed system is shared the carrier frequency resource of Hong Qu, or all carrier frequency resources of described Hong Qu are closed so that described Hong Qu shares the carrier frequency resource of indoor distributed system, comprising:

If the total service traffics of the prediction of described indoor distributed system are greater than first threshold, then according to the difference of the total service traffics of described prediction and described first threshold, the carrier frequency resource of scheduling respective numbers is to described indoor distributed system;

If the total service traffics of the prediction of described Hong Qu are greater than first threshold, then according to the difference of the total service traffics of described prediction and described first threshold, the carrier frequency resource of scheduling respective numbers is to described Hong Qu;

If the total service traffics of the prediction of described indoor distributed system less than Second Threshold, then according to the difference of the total service traffics of described prediction and described Second Threshold, are closed the carrier frequency resource of the respective numbers of described indoor distributed system;

If the total service traffics of the prediction of described Hong Qu less than Second Threshold, then according to the difference of the total service traffics of described prediction and described Second Threshold, are closed the carrier frequency resource of the respective numbers of described Hong Qu;

If the total service traffics sum of the prediction of the total service traffics of the prediction of described indoor distributed system and described Hong Qu is less than the 3rd threshold value, then all carrier frequency resources of described indoor distributed system or described Hong Qu are closed, so that described indoor distributed system is shared the carrier frequency resource of Hong Qu, or described Hong Qu shares the carrier frequency resource of indoor distributed system;

Wherein, described the 3rd threshold value is less than described Second Threshold, and described Second Threshold is less than described first threshold.

4. indoor and outdoor joint resource management method according to claim 1 and 2 is characterized in that, also comprises:

The measurement report that receiving terminal reports, described measurement report carry signal strength signal intensity and the sign of at least two residential quarters that described terminal receives;

According to Neighboring Cell List, find out the sign in described Neighboring Cell List in the sign of all residential quarters that described measurement report carries;

Whether judge the signal strength signal intensity of the sign correspondence that finds out less than default intensity threshold, if then adopt default allocation strategy to cell allocation at least one carrier frequency resource adjacent with the residential quarter of described sign;

Perhaps, also comprise:

Receive the residential quarter close message, described residential quarter close message carries the sign of wanting to close the residential quarter;

According to the sign of wanting to close the residential quarter, adopt default allocation strategy to wanting to close residential quarter at least one carrier frequency resource of adjacent cell allocation with described.

5. indoor and outdoor joint resource management method according to claim 1, it is characterized in that, first total service traffics of the indoor distributed system that described reception the first monitoring equipment monitors by predetermined period or predetermined instant, and second total service traffics of the second Hong Qu of monitoring according to predetermined period or predetermined instant of monitoring equipment, comprising:

Receive the first packet of the first data format that the first monitoring equipment sends, described the first packet carries first total service traffics information of the indoor distributed system that described the first monitoring equipment monitors by predetermined period or predetermined instant;

Receive the second packet of the second data format that the second monitoring equipment sends, described the second packet carries second total service traffics of the Hong Qu that described the second monitoring equipment monitors according to predetermined period or predetermined instant;

Format conversion program according to default is converted to the second data format with described the first packet.

6. a base station is characterized in that, comprising:

Receiver module, be used for to receive first total service traffics of the indoor distributed system that the first monitoring equipment monitors, and second total service traffics of the second Hong Qu of monitoring of monitoring equipment, generate respectively first total service traffics historical series and second total service traffics historical series, wherein, described indoor distributed system and described Hong Qu share same base station;

Generation module is used for according to described first total service traffics historical series and second total service traffics historical series, generates respectively total service traffics variation characteristic information of next described indoor distributed system of the moment and described Hong Qu;

Computing module, be used for total service traffics variation characteristic information and the first total service traffics that constantly receive recently apart from current time according to described indoor distributed system, calculate the total service traffics of prediction of described indoor distributed system, according to the total service traffics variation characteristic information and the described second total service traffics that constantly receive recently apart from current time of described Hong Qu, calculate the total service traffics of prediction of described Hong Qu;

The scheduling of resource module, be used for the total service traffics of prediction according to the total service traffics of the prediction of described indoor distributed system and described Hong Qu, the carrier frequency resource of scheduling respective numbers is to described indoor distributed system and/or Hong Qu, or close the carrier frequency resource of the respective numbers of described indoor distributed system and/or Hong Qu, or all carrier frequency resources of described indoor distributed system are closed so that described indoor distributed system is shared the carrier frequency resource of Hong Qu, or all carrier frequency resources of described Hong Qu are closed so that described Hong Qu shares the carrier frequency resource of indoor distributed system.

7. base station according to claim 6 is characterized in that, also comprises:

The resource division module, be used for all carrier frequency resources are divided into three groups, the information resources group that is respectively the first resource group that offers Hong Qu, the Secondary resource group that offers indoor distributed system and is used for scheduling, described first resource group, Secondary resource group and information resources group consist of by at least one carrier frequency resource; Correspondingly,

Described scheduling of resource module, also be used for the total service traffics of prediction according to the total service traffics of the prediction of described indoor distributed system and described Hong Qu, with at least one carrier frequency scheduling in the described information resources group to described Hong Qu, and/or with at least one carrier frequency scheduling in the described information resources group to indoor distributed system, and/or with at least one carrier frequency scheduling in the described information resources group to Hong Qu, and with at least one carrier frequency scheduling in the remaining carrier frequency resource in the described information resources group to described indoor distributed system.

8. according to claim 6 or 7 described base stations, it is characterized in that described scheduling of resource module comprises:

Judging unit, be used for when total service traffics of the prediction of described indoor distributed system during greater than first threshold, generate the first decision instruction, when total service traffics of the prediction of described Hong Qu during greater than first threshold, generate the second decision instruction, when total service traffics of the prediction of described indoor distributed system during less than Second Threshold, generate the 3rd decision instruction, when total service traffics of the prediction of described Hong Qu during less than Second Threshold, generate the 4th decision instruction, when the total service traffics sum of the prediction of the total service traffics of the prediction of described indoor distributed system and described Hong Qu during less than the 3rd threshold value, generate the 5th decision instruction;

Processing unit, be used for when receiving described judging unit and export the first decision instruction, difference according to the total service traffics of the prediction of described indoor distributed system and described first threshold, the carrier frequency resource of scheduling respective numbers is to described indoor distributed system, when receiving described judging unit and export the second decision instruction, difference according to the total service traffics of the prediction of described Hong Qu and described first threshold, the carrier frequency resource of scheduling respective numbers is to described Hong Qu, when receiving described judging unit and export the 3rd decision instruction, difference according to the total service traffics of the prediction of described indoor distributed system and described Second Threshold, close the carrier frequency resource of the respective numbers of described indoor distributed system, when receiving described judging unit and export the 4th decision instruction, difference according to the total service traffics of the prediction of described Hong Qu and described Second Threshold, close the carrier frequency resource of the respective numbers of described Hong Qu, when receiving described judging unit and export the 5th decision instruction, all carrier frequency resources of described indoor distributed system or described Hong Qu are closed, so that described indoor distributed system is shared the carrier frequency resource of Hong Qu, or described Hong Qu shares the carrier frequency resource of indoor distributed system;

Wherein, described the 3rd threshold value is less than described Second Threshold, and described Second Threshold is less than described first threshold.

9. according to claim 6 or 7 described base stations, it is characterized in that, also comprise:

Described receiver module also is used for the measurement report that receiving terminal reports, and described measurement report carries signal strength signal intensity and the sign of at least two residential quarters that described terminal receives;

Search module, be used for according to Neighboring Cell List, find out the sign in described Neighboring Cell List in the sign of all residential quarters that described measurement report carries;

Whether described scheduling of resource module, the signal strength signal intensity that also is used for judging the sign correspondence that finds out be less than default intensity threshold, if then adopt default allocation strategy to cell allocation at least one carrier frequency resource adjacent with the residential quarter of described sign;

Perhaps, also comprise:

Described receiver module also is used for receiving the residential quarter close message, and described residential quarter close message carries the sign of wanting to close the residential quarter;

Described scheduling of resource module also is used for according to the sign of wanting to close the residential quarter, adopts default allocation strategy to wanting to close residential quarter at least one carrier frequency resource of adjacent cell allocation with described.

10. base station according to claim 6 is characterized in that, described receiver module comprises:

The first receiving element, be used for to receive the first packet of the first data format that the first monitoring equipment sends, described the first packet carries first total service traffics information of the indoor distributed system that described the first monitoring equipment monitors by predetermined period or predetermined instant;

The second receiving element be used for to receive the second packet of the second data format that the second monitoring equipment sends, and described the second packet carries second total service traffics of the Hong Qu that described the second monitoring equipment monitors according to predetermined period or predetermined instant;

Format conversion unit is used for according to default format conversion program described the first packet being converted to the second data format.

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