CN107534573A - Detection method, network O＆M management system and the base station of BTS service state - Google Patents

Abstract

The embodiment of the present invention provides a kind of detection method of BTS service state, network O＆M management system and base station.This method includes：OSS determines that first base station disconnects with OSS and communicated to connect；OSS is sent to the second base station starts control command；OSS receives the resource status report that the second base station is sent；OSS reports the service condition for determining first base station according to resource status.The method of the embodiment of the present invention, OSS when first base station takes off pipe, can know the service condition of first base station in time.

Description

Detection method, network O&M management system and the base station of BTS service state Technical field

The present embodiments relate to the communication technology more particularly to a kind of detection methods of BTS service state, network O&M management system and base station.

Background technique

Long term evolution (Long Term Evolution, abbreviation LTE) it is used as new generation of wireless network communication technology, there is no controller node in business, base station directly passes through mobility management entity/access gateway (Mobility Management Entity/Serving Gateway, abbreviation MME/S-GW) core network access.Therefore, to base station (evolved Node B in LTE network, abbreviation eNB) operation maintenance, mainly pass through network O&M management system (Operations Support System, abbreviation OSS) each base station being distributed in network is managed concentratedly, O&M channel between OSS and base station is to operate and manage the channel (Operation and Management, abbreviation OAM), specifically may refer to LTE network O&M configuration diagram shown in FIG. 1.OSS is generally deployed in the computer room of client, by the way that OSS can easily to being distributed, base station at the far end carries out Operation and Maintenance, service operation state be checked, log information file transmitting etc..Compared to other wireless networks, LTE network is higher to the robustness requirement in the channel OSS and OAM, once OSS loses the connection with 1 or multiple base stations, just loses and manages and controls to the base station, the service operation of the base station is at unknown state.As shown in Fig. 2, OSS and eNB2 lose communication linkage, the service operation state of eNB2 is with regard to unknowable, and eNB2 is known as de- pipe base station at this time；In the lte networks once there is de- pipe base station, it is meant that the current operating conditions of the base station are unknowable.

In the prior art, the business on the de- pipe base station is observed often by the upper station of testing staff or proximal end, to know the service operation state of de- pipe base station.

But, since base station distribution is wider, space length distance is different, and there are the constraints of biggish physical environment, the prior art manually obtains the overlong time that the mode of the service operation state of de- pipe base station consumes, it can not quickly determine the service operation state of de- pipe base station, run and safeguard to influence stablizing for communication network.

Summary of the invention

Detection method, network O&M management system and the base station of BTS service state provided in an embodiment of the present invention, to solve in the prior art when there is de- pipe base station in LTE network operational system, OSS can not determine the service operation state of de- pipe base station in time, thus the technical issues of influencing communication network stable operation and maintenance.

In a first aspect, the embodiment of the present invention provides a kind of detection method of BTS service state, comprising:

Network O&M management system OSS determines that first base station and the OSS disconnect and communicates to connect；

The OSS sends starting control command to the second base station；Wherein, the starting control command is used to indicate second base station and sends first resource status request message to the first base station；The first resource status request message includes the first registration request cell, the first registration request cell is used to indicate the service condition that the first base station measures the first base station, and the service condition is carried and is sent to second base station in resource status report；

The OSS receives the resource status report that second base station is sent；

The OSS determines the service condition of the first base station according to resource status report.

With reference to first aspect, in the first possible embodiment of first aspect, the method also includes:

The OSS is sent to second base station stops control command；Wherein, the stopping control command being used to indicate second base station and sends Secondary resource status request message to the first base station；The Secondary resource status request message includes the second registration request cell, and the second registration request cell is used to indicate the service condition that the first base station stops measuring the first base station.

With reference to first aspect or the first possible embodiment of first aspect, in second of possible embodiment of first aspect, the first resource status request message further includes eating dishes without rice or wine to load at least one of cell, S1 traffic load cell, hardware load cell.

The possible embodiment of second with reference to first aspect, in the third possible embodiment of first aspect, if the first resource status request message includes the first registration request cell, the resource status report includes the running time-frequency resource utilization rate of the first base station；

If the first resource status request message eats dishes without rice or wine to load cell described in including, the resource status report eats dishes without rice or wine to load including the first base station；

If the first resource status request message includes the S1 traffic load cell, the resource status report includes that the S1 of the first base station is loaded；

If the first resource status request message includes the hardware load cell, the resource status report includes the hardware load of the first base station.

Second aspect, the embodiment of the present invention provide a kind of detection method of BTS service state, comprising:

Second base station receives the starting control command that network O&M management system OSS is sent；Wherein, the starting control command OSS is detected sends after first base station disconnects communication connection with the OSS, and the starting control command is used to indicate second base station and sends first resource status request message to the first base station；

Second base station sends the first resource status request message to the first base station according to the starting control command；The first resource status request message includes the first registration request cell, the first registration request cell is used to indicate the service condition that the first base station measures the first base station, and the service condition is carried and is sent to second base station in resource status report；

Second base station receives the resource status report that the first base station is sent；

Second base station sends the resource status report to the OSS, and the resource status report is used to indicate the service condition that the OSS determines the first base station according to resource status report.

In conjunction with second aspect, in the first possible embodiment of second aspect, the method also includes:

Second base station receives the stopping control command that the OSS is sent；Wherein, the stopping control command being used to indicate second base station and sends Secondary resource status request message to the first base station；The Secondary resource status request message includes the second registration request cell, and the second registration request cell is used to indicate the service condition that the first base station stops measuring the first base station.

In conjunction with the possible embodiment of the first of second aspect or second aspect, in second of possible embodiment of second aspect, second base station is received before the resource status report that the first base station is sent, further includes:

Second base station receives the first resource status response message that the first base station is sent, and the first resource status response message is used to indicate that the first base station has been turned on the measurement of the service condition of the first base station to second base station.

In conjunction with any one of second of possible embodiment of second aspect to second aspect, in the third possible embodiment of second aspect, the first resource status request message further includes eating dishes without rice or wine to load at least one of cell, S1 traffic load cell, hardware load cell.

In conjunction with the third possible embodiment of second aspect, in the 4th kind of possible reality of second aspect It applies in mode, if the first resource status request message includes the first registration request cell, the resource status report includes the running time-frequency resource utilization rate of the first base station；

If the first resource status request message eats dishes without rice or wine to load cell described in including, the resource status report eats dishes without rice or wine to load including the first base station；

If the first resource status request message includes the S1 traffic load cell, the resource status report includes that the S1 of the first base station is loaded；

If the first resource status request message includes the hardware load cell, the resource status report includes the hardware load of the first base station.

The third aspect, the embodiment of the present invention provide a kind of network O&M management system, comprising:

First determining module is communicated to connect for determining that first base station and the network O&M management system OSS disconnect；

Sending module, for sending starting control command to the second base station；Wherein, the starting control command is used to indicate second base station and sends first resource status request message to the first base station；The first resource status request message includes the first registration request cell, the first registration request cell is used to indicate the service condition that the first base station measures the first base station, and the service condition is carried and is sent to second base station in resource status report；

Receiving module, the resource status report sent for receiving second base station；

Second determining module, for determining the service condition of the first base station according to resource status report.

In conjunction with the third aspect, in the first possible embodiment of the third aspect, the sending module, which is also used to send to second base station, stops control command；Wherein, the stopping control command being used to indicate second base station and sends Secondary resource status request message to the first base station；The Secondary resource status request message includes the second registration request cell, and the second registration request cell is used to indicate the service condition that the first base station stops measuring the first base station.

In conjunction with the possible embodiment of the first of the third aspect or the third aspect, in second of possible embodiment of the third aspect, the first resource status request message further includes eating dishes without rice or wine to load at least one of cell, S1 traffic load cell, hardware load cell.

In conjunction with second of possible embodiment of the third aspect, in the third possible embodiment of the third aspect, if the first resource status request message includes the first registration request cell, the resource status report includes the running time-frequency resource utilization rate of the first base station；

If the first resource status request message eats dishes without rice or wine to load cell described in including, the resource status report eats dishes without rice or wine to load including the first base station；

If the first resource status request message includes the S1 traffic load cell, the resource status report includes that the S1 of the first base station is loaded；

If the first resource status request message includes the hardware load cell, the resource status report includes the hardware load of the first base station.

Fourth aspect, the embodiment of the present invention provide a kind of base station, comprising:

Receiving module, for receiving the starting control command of network O&M management system OSS transmission；Wherein, the starting control command OSS is detected sends after first base station disconnects communication connection with the OSS, and the starting control command is used to indicate the base station and sends first resource status request message to the first base station；

Sending module, for sending the first resource status request message to the first base station according to the starting control command；The first resource status request message includes the first registration request cell, the first registration request cell is used to indicate the service condition that the first base station measures the first base station, and the service condition is carried and is sent to the base station in resource status report；

The receiving module is also used to receive the resource status report that the first base station is sent；

The sending module, is also used to send the resource status report to the OSS, and the resource status report is used to indicate the service condition that the OSS determines the first base station according to resource status report.

In conjunction with fourth aspect, in the first possible embodiment of fourth aspect, the receiving module is also used to receive the stopping control command that the OSS is sent；Wherein, the stopping control command being used to indicate the base station and sends Secondary resource status request message to the first base station；The Secondary resource status request message includes the second registration request cell, and the second registration request cell is used to indicate the service condition that the first base station stops measuring the first base station.

In conjunction with the possible embodiment of the first of fourth aspect or fourth aspect, in second of possible embodiment of fourth aspect, the receiving module, it is also used to before receiving the resource status report that the first base station is sent, the first resource status response message that the first base station is sent is received, the first resource status response message is used to indicate that the first base station has been turned on the measurement of the service condition of the first base station to the base station.

In conjunction with any one of second of possible embodiment of fourth aspect to fourth aspect, In the third possible embodiment of four aspects, the first resource status request message further includes eating dishes without rice or wine to load at least one of cell, S1 traffic load cell, hardware load cell.

In conjunction with the third possible embodiment of fourth aspect, in the 4th kind of possible embodiment of fourth aspect, if the first resource status request message includes the first registration request cell, the resource status report includes the running time-frequency resource utilization rate of the first base station；

If the first resource status request message eats dishes without rice or wine to load cell described in including, the resource status report eats dishes without rice or wine to load including the first base station；

If the first resource status request message includes the S1 traffic load cell, the resource status report includes that the S1 of the first base station is loaded；

If the first resource status request message includes the hardware load cell, the resource status report includes the hardware load of the first base station.

5th aspect, the embodiment of the present invention provide a kind of network O&M management system, comprising:

Transmitter, for sending starting control command to the second base station after processor determines that first base station and the network O&M management system OSS disconnect communication connection；Wherein, the starting control command is used to indicate second base station and sends first resource status request message to the first base station；The first resource status request message includes the first registration request cell, the first registration request cell is used to indicate the service condition that the first base station measures the first base station, and the service condition is carried and is sent to second base station in resource status report；

Receiver, the resource status report sent for receiving second base station；

The service condition for the determining first base station of resource status report that processor is communicated to connect for determining that first base station and the network O&M management system OSS disconnect, and received according to the receiver.

In conjunction with the 5th aspect, in the first possible embodiment of the 5th aspect, the transmitter, which is also used to send to second base station, stops control command；Wherein, the stopping control command being used to indicate second base station and sends Secondary resource status request message to the first base station；The Secondary resource status request message includes the second registration request cell, and the second registration request cell is used to indicate the service condition that the first base station stops measuring the first base station.

In conjunction with the 5th aspect or the first possible embodiment of the 5th aspect, in second of possible embodiment of the 5th aspect, the first resource status request message further includes eating dishes without rice or wine to load at least one of cell, S1 traffic load cell, hardware load cell.

In conjunction with second of possible embodiment of the 5th aspect, in the third possible reality of the 5th aspect It applies in mode, if the first resource status request message includes the first registration request cell, the resource status report includes the running time-frequency resource utilization rate of the first base station；

If the first resource status request message eats dishes without rice or wine to load cell described in including, the resource status report eats dishes without rice or wine to load including the first base station；

If the first resource status request message includes the S1 traffic load cell, the resource status report includes that the S1 of the first base station is loaded；

If the first resource status request message includes the hardware load cell, the resource status report includes the hardware load of the first base station.

6th aspect, the embodiment of the present invention provide a kind of base station, comprising:

Receiver, for receiving the starting control command of network O&M management system OSS transmission；Wherein, the starting control command OSS is detected sends after first base station disconnects communication connection with the OSS, and the starting control command is used to indicate the base station and sends first resource status request message to the first base station；

Transmitter, the starting control command for being received according to the receiver send the first resource status request message to the first base station；The first resource status request message includes the first registration request cell, the first registration request cell is used to indicate the service condition that the first base station measures the first base station, and the service condition is carried and is sent to the base station in resource status report；

The receiver is also used to receive the resource status report that the first base station is sent；

The transmitter, is also used to send the resource status report that the receiver receives to the OSS, and the resource status report is used to indicate the service condition that the OSS determines the first base station according to resource status report.

In conjunction with the 6th aspect, in the first possible embodiment of the 6th aspect, the receiver is also used to receive the stopping control command that the OSS is sent；Wherein, the stopping control command being used to indicate the base station and sends Secondary resource status request message to the first base station；The Secondary resource status request message includes the second registration request cell, and the second registration request cell is used to indicate the service condition that the first base station stops measuring the first base station.

In conjunction with the 6th aspect or the first possible embodiment of the 6th aspect, in second of possible embodiment of the 6th aspect, the receiver, it is also used to before receiving the resource status report that the first base station is sent, the first resource status response message that the first base station is sent is received, the first resource status response message is used to indicate that the first base station has been turned on first base to the base station The measurement for the service condition stood.

In conjunction with the 6th aspect to any one of second of possible embodiment of the 6th aspect, in the third possible embodiment of the 6th aspect, the first resource status request message further includes eating dishes without rice or wine to load at least one of cell, S1 traffic load cell, hardware load cell.

In conjunction with the third possible embodiment of the 6th aspect, in the 4th kind of possible embodiment of the 6th aspect, if the first resource status request message includes the first registration request cell, the resource status report includes the running time-frequency resource utilization rate of the first base station；

If the first resource status request message eats dishes without rice or wine to load cell described in including, the resource status report eats dishes without rice or wine to load including the first base station；

If the first resource status request message includes the S1 traffic load cell, the resource status report includes that the S1 of the first base station is loaded；

If the first resource status request message includes the hardware load cell, the resource status report includes the hardware load of the first base station.

The detection method of BTS service state provided in an embodiment of the present invention, network O&M management system and base station, when OSS determines the first base station and the OSS disconnects communication connection, it is sent by OSS to second base station and is used to indicate the starting control command that second base station sends first resource status request message to the first base station, so that resource status querying flow is initiated to first base station in the second base station, and obtain the resource status report of first base station, to which OSS can receive the resource status sent to the second base station report, and the service condition of the first base station is determined according to resource status report.The method of the embodiment of the present invention, without artificially participating in, it is also not limited to the spatial distribution distance of physical environment or base station, therefore OSS can be when first base station takes off pipe, timely and effectively know the service condition of first base station, and then may insure that stablizing for LTE mobile communication network runs and safeguard.

Detailed description of the invention

In order to more clearly explain the embodiment of the invention or the technical proposal in the existing technology, a brief description of the drawings needed to be used in the description of the embodiments or the prior art will be given below, apparently, drawings in the following description are some embodiments of the invention, for those of ordinary skill in the art, without creative efforts, it is also possible to obtain other drawings based on these drawings.

Fig. 1 is LTE network O&M configuration diagram one provided in an embodiment of the present invention；

Fig. 2 is network architecture schematic diagram when there is de- pipe base station in LTE network provided in an embodiment of the present invention；

Fig. 3 is LTE network O&M configuration diagram two provided in an embodiment of the present invention；

Fig. 4 is the flow diagram of the detection method embodiment one of BTS service state provided in an embodiment of the present invention；

Fig. 5 is the flow diagram of the detection method embodiment two of BTS service state provided in an embodiment of the present invention；

Fig. 6 is the flow diagram of the detection method embodiment three of BTS service state provided in an embodiment of the present invention；

Fig. 7 is the flow diagram of the detection method example IV of BTS service state provided in an embodiment of the present invention.

Fig. 8 is the structural schematic diagram of network O&M management system embodiment one provided in an embodiment of the present invention；

Fig. 9 is the structural schematic diagram of base station embodiment one provided in an embodiment of the present invention；

Figure 10 is the structural schematic diagram of network O&M management system embodiment two provided in an embodiment of the present invention；

Figure 11 is the structural schematic diagram of base station embodiment two provided in an embodiment of the present invention.

Specific embodiment

In order to make the object, technical scheme and advantages of the embodiment of the invention clearer, following will be combined with the drawings in the embodiments of the present invention, technical scheme in the embodiment of the invention is clearly and completely described, obviously, described embodiments are some of the embodiments of the present invention, instead of all the embodiments.Based on the embodiments of the present invention, every other embodiment obtained by those of ordinary skill in the art without making creative efforts, shall fall within the protection scope of the present invention.

The present embodiments relate to base station, can be and refer to the accession in net in the sky on interface by the equipment of one or more sectors and wireless terminal communications.The air frame that base station can be used for receive mutually is converted with IP grouping, as the router between wireless terminal and the rest part of access net, wherein the rest part for accessing net may include Internet protocol (IP) network.In addition, attribute management of the base station also tunable to air interface.Optionally, base station can be the evolved base station (NodeB or eNB or e-NodeB, evolutional Node B) in LTE.

The present embodiments relate to method be suitable for any mobile communications network operational system, for example, LTE network operational system shown in Fig. 3.The mobile communications network operational system may include OSS, Two base stations and first base station have communication link (such as X2 link) between second base station and the first base station.In embodiments of the present invention, the second base station be with OSS can with the base station of normal communication, second base station can be one, or it is multiple；First base station is de- pipe base station, which can be one, or it is multiple, as long as losing communication connection with OSS and between the second base station there is the base station of normal communication link to be properly termed as first base station.

The present embodiments relate to method, it aims to solve the problem that in the prior art when there is de- pipe base station in mobile communications network operational system, OSS can not determine the service operation state of de- pipe base station in time, so as to cause the unstable technical problem of mobile communications network operation and maintenance.

Technical solution of the present invention is described in detail with specifically embodiment below.These specific embodiments can be combined with each other below, and the same or similar concept or process may be repeated no more in some embodiments.

Fig. 4 is the flow diagram of the detection method embodiment one of BTS service state provided in an embodiment of the present invention.What is involved is OSS in detecting the mobile communications network operational system where itself for the present embodiment when there is de- pipe base station (i.e. first base station), obtains the detailed process of the service condition of first base station by sending starting control command to the second base station.Following mobile communications network operational systems can be by taking LTE network operational system shown in Fig. 3 as an example.As shown in figure 4, this method comprises:

S101:OSS determines that first base station and OSS disconnect and communicates to connect.

Specifically, OSS can use the operating status for the base station that OSS is managed in the monitoring mechanism real-time monitoring mobile communications network operational system of itself.Optionally, when OSS determination can not get the service condition of first base station by the channel OAM or when OSS is monitored to the related warning information of first base station lost contact, OSS determines that current first base station and OSS disconnect and communicates to connect, that is, determines that first base station is de- pipe base station.

S102:OSS sends starting control command to the second base station；Wherein, the starting control command is used to indicate second base station and sends first resource status request message to the first base station；The first resource status request message includes the first registration request cell, the first registration request cell is used to indicate the service condition that the first base station measures the first base station, and the service condition is carried and is sent to second base station in resource status report.

Specifically, when OSS determines that first base station is de- pipe base station, in order to which the service condition of first base station is got in the short time in time, OSS sends starting control command to the second base station, which is used to indicate second base station and sends first resource status request message to the first base station.It can Choosing, the starting control command can be the message with any frame structure, or the control command of any format, as long as message or control command that OSS is sent to the second base station have the function of " instruction second base station sends first resource status request message to the first base station ", control command all can be started.

After the second base station receives the starting control command of OSS transmission, resource status querying flow can be initiated to first base station according to the instruction and 36423 agreement of 3GPP of the starting control command, i.e. initiation Resource Status Reporting Initiation process.Specifically, second base station sends first resource status request message to first base station according to the instruction of starting control command, the first registration request cell is carried in the first resource status request message, which is used to indicate the service condition that the first base station measures the first base station.Optionally, the first resource status request message can be the RESOURCE STATUS REQUEST message in 36423 agreement of 3GPP, the first registration request cell can be the Registration Request cell in RESOURCE STATUS REQUEST message, which is " start ".

Due to having communication link between the second base station and first base station, the second base station and first base station can be with normal communications.Therefore first base station can receive the first resource status request message sent to the second base station.After first base station receives the first resource status request message of the second base station transmission, first base station is according to the instruction of the first registration request cell in first resource status request message, the service condition of itself is measured, such as: check the current running time-frequency resource utilization rate etc. of the business diary of itself, measurement first base station.Finally, first base station, which carries the service condition of measured first base station, is sent to the second base station in resource status report.

S103:OSS receives the resource status report that second base station is sent.

Specifically, resource status report is transmitted to OSS after the second base station receives the resource status report of first base station transmission, so that OSS can be according to the current traffic state of the content aware first base station in resource status report.

S104:OSS determines the service condition of the first base station according to resource status report.

In the prior art, when OSS determines that first base station is de- pipe base station, the service condition of the de- pipe base station is often observed using artificial upper station or closely, alternatively, observing the service condition of the de- pipe base station by equipment of the core network.But the spatial distribution distance of base station is often limited to using service condition that the de- pipe base station is observed at artificial upper station or short distance, and there is very big physical environment and constrain, the overlong time of the service condition consumption of the artificial de- pipe base station of acquisition；And it is de- to observe this using equipment of the core network The service condition of pipe base station, since the base station in LTE network belongs to a management system, core net belongs to another management system, therefore when there is de- pipe base station, there is still a need for the personnel of BTS management system to check the operating status of de- pipe base station to the personnel requisition of core net management system, therefore centre needs artificial application, examination & approval, coordination etc., still can not get the service condition of de- pipe base station in time.Therefore any mode of the prior art no matter is used, OSS can not get the current service condition of first base station within first time, leverage the reliability of LTE network；But, in embodiments of the present invention, once OSS determines that first base station is de- pipe base station, OSS is by sending starting control command to the second base station come so that resource status querying flow is initiated to first base station in the second base station, and then first base station service condition is obtained by the second base station, without artificially participating in, also it is not limited to the spatial distribution distance of physical environment or base station, so the method for the embodiment of the present invention, OSS can be when first base station takes off pipe, the service condition of timely learning first base station, and then may insure that stablizing for LTE network runs and safeguard.

The detection method of BTS service state provided in an embodiment of the present invention, when OSS determines first base station and OSS disconnects communication connection, it is sent by OSS to the second base station and is used to indicate the starting control command that second base station sends first resource status request message to the first base station, so that resource status querying flow is initiated to first base station in the second base station, and obtain the resource status report of first base station, to which OSS can receive the resource status sent to the second base station report, and the service condition of the first base station is determined according to resource status report.The method of the embodiment of the present invention, without artificially participating in, it is also not limited to the spatial distribution distance of physical environment or base station, therefore OSS can be when first base station takes off pipe, timely and effectively know the service condition of first base station, and then may insure that stablizing for mobile communications network runs and safeguard.

Fig. 5 is the flow diagram of the detection method embodiment two of BTS service state provided in an embodiment of the present invention.The present embodiment sends to the second base station what is involved is after the service condition for knowing de- pipe base station as OSS and stops control command, so that the second base station notice first base station stops the detailed process of the service condition of measurement first base station.Further, on the basis of the above embodiments, after S104, as shown in figure 5, this method comprises:

S201:OSS is sent to the second base station stops control command；Wherein, the stopping control command being used to indicate second base station and sends Secondary resource status request message to first base station；The Secondary resource status request message includes the second registration request cell, and the second registration request cell is used to indicate the service condition that the first base station stops measuring the first base station.

Specifically, sending to the second base station after OSS knows the service condition of above-mentioned first base station and stopping control command, which is used to indicate second base station and sends Secondary resource status request message to the first base station.After the second base station receives the stopping control command, Secondary resource status request message is sent to first base station, carries the second registration request cell in the Secondary resource status request message.Optionally, the Secondary resource status request message may be the RESOURCE STATUS REQUEST message in 36423 agreement of 3GPP, the second registration request cell may be the Registration Request cell in RESOURCE STATUS REQUEST message, unlike above-mentioned first registration cell, which is " stop ".

Optionally, the stopping control command that above-mentioned OSS is sent to the second base station, it can be the message with any frame structure, or the control command of any format, as long as message or control command that OSS is sent to the second base station have the function of " instruction second base station sends Secondary resource status request message to the first base station ", control command all can be stopped.

Optionally, the stopping control command that above-mentioned OSS is sent to the second base station, it can be the transmission in period, that is OSS starts control command to the transmission in the second base station period, then OSS is corresponding just stops control command to the transmission in the second base station period, that is OSS can also obtain the service condition of first base station with the service condition of the acquisition first base station in period with regard to the stopping in period certainly.The signaling overheads of OSS, the second base station and first base station can be reduced in this way.

Further, above-mentioned first resource status request message further includes eating dishes without rice or wine to load at least one of cell, S1 traffic load cell, hardware load cell.Optionally, which indicates that the loading condition of eating dishes without rice or wine for needing first base station measurement first base station when the value for eating dishes without rice or wine to load cell is 1；Optionally, which is also possible to a flag bit in first resource status request message, when the value of S1 traffic load cell is 1, indicates that the transport load situation for needing the S1 mouth of first base station measurement first base station；Optionally, which is also possible to a flag bit in first resource status request message, when the value of hardware load cell is 1, indicates that the hardware load situation for needing first base station measurement first base station

Optionally, if above-mentioned first resource status request message includes the first registration request cell, then the resource status report can include the running time-frequency resource utilization rate of the first base station, i.e., the resource status, which is reported to OSS, shows the current running time-frequency resource service condition of first base station.

Optionally, if the first resource status request message eats dishes without rice or wine to load cell including described, the resource status report can eat dishes without rice or wine to load including the first base station, i.e., the resource status is reported to OSS Show the service condition of eating dishes without rice or wine of current first base station.

Optionally, if the first resource status request message includes the S1 traffic load cell, the resource status report includes that the S1 of the first base station is loaded, i.e., the resource status reports the service condition for showing the S1 mouth of current first base station to OSS.

If the first resource status request message includes the hardware load cell, the resource status report includes the hardware load of the first base station, i.e. the resource status reports the service condition for showing the hardware device of current first base station to OSS.

The detection method of BTS service state provided in an embodiment of the present invention, when OSS determines first base station and OSS disconnects communication connection, it is sent by OSS to the second base station and is used to indicate the starting control command that second base station sends first resource status request message to the first base station, so that resource status querying flow is initiated to first base station in the second base station, and obtain the resource status report of first base station, to which OSS can receive the resource status sent to the second base station report, and the service condition of the first base station is determined according to resource status report, without artificially participating in, also it is not limited to the spatial distribution distance of physical environment or base station, therefore OSS can be when first base station takes off pipe, timely and effectively know the service condition of first base station, and then it may insure the stabilization of mobile communications network Operation and maintenance；In addition, method provided in an embodiment of the present invention, it can also be after the service condition that OSS knows de- pipe base station, by sending the stopping control command for being used to indicate second base station to first base station transmission Secondary resource status request message to the second base station, so that first base station stops measuring under the instruction of Secondary resource status request message the service condition of first base station, and then the signaling overheads of OSS, the second base station and first base station can be reduced.

Fig. 6 is the flow diagram of the detection method embodiment three of BTS service state provided in an embodiment of the present invention.What is involved is the starting control commands that the second base station is sent according to OSS to send first resource status request message to first base station to obtain the resource status report of first base station for the present embodiment, and by the resource status report reporting to the detailed process of OSS.As shown in fig. 6, this method comprises:

S301: the second base station receives the starting control command that OSS is sent；Wherein, the starting control command OSS is detected sends after first base station disconnects communication connection with the OSS, and the starting control command is used to indicate second base station and sends first resource status request message to the first base station.

Specifically, OSS can use the operating status for the base station that OSS is managed in the monitoring mechanism real-time monitoring mobile communications network operational system of itself.Optionally, when OSS determination can not be obtained by the channel OAM When getting the service condition of first base station or when OSS is monitored to the related warning information of first base station lost contact, OSS determines that current first base station and OSS disconnect and communicates to connect, that is, determines that first base station is de- pipe base station.

When OSS determines that first base station is de- pipe base station, in order to which the service condition of first base station is got in the short time in time, OSS sends starting control command to the second base station, which is used to indicate second base station and sends first resource status request message to the first base station.Optionally, the starting control command can be the message with any frame structure, or the control command of any format, as long as message or control command that OSS is sent to the second base station have the function of " instruction second base station sends first resource status request message to the first base station ", it is properly termed as starting control command.

S302: the second base station sends the first resource status request message to the first base station according to the starting control command；The first resource status request message includes the first registration request cell, the first registration request cell is used to indicate the service condition that the first base station measures the first base station, and the service condition is carried and is sent to second base station in resource status report.

Specifically, after the second base station receives the starting control command of OSS transmission, resource status querying flow can be initiated to first base station according to the instruction and 36423 agreement of 3GPP of the starting control command, i.e. initiation Resource Status Reporting Initiation process.Specifically: the second base station sends first resource status request message to first base station according to the instruction of starting control command, the first registration request cell is carried in the first resource status request message, which is used to indicate the service condition that the first base station measures the first base station.Optionally, the first resource status request message can be the RESOURCE STATUS REQUEST message in 36423 agreement of 3GPP, the first registration request cell can be the Registration Request cell in RESOURCE STATUS REQUEST message, which is " start ".

S303: the second base station receives the resource status report that the first base station is sent.

Specifically, the second base station and first base station can be with normal communications due to having communication link between the second base station and first base station.Therefore first base station can receive the first resource status request message sent to the second base station.After first base station receives the first resource status request message of the second base station transmission, first base station is according to the instruction of the first registration request cell in first resource status request message, the service condition of itself is measured, such as: check the current running time-frequency resource utilization rate etc. of the business diary of itself, measurement first base station.Finally, first base station, which carries the service condition of measured first base station, is sent to the second base station in resource status report.

S304: the second base station sends the resource status report to the OSS, and the resource status report is used to indicate the service condition that the OSS determines the first base station according to resource status report.

Specifically, resource status report is transmitted to OSS after the second base station receives the resource status report of first base station transmission, so that OSS can be according to the current traffic state of the content aware first base station in resource status report.

The detection method of BTS service state provided in an embodiment of the present invention, starting control command of second base station to first base station transmission first resource status request message is used to indicate by what the second base station reception OSS was sent, and after sending the first resource status request message to the first base station according to the starting control command, receive the resource status report that the first base station is sent, and resource status report is sent to OSS, so that OSS can report the service condition for determining the first base station according to the resource status.The method of the embodiment of the present invention, without artificially participating in, it is also not limited to the spatial distribution distance of physical environment or base station, therefore OSS can be when first base station takes off pipe, timely and effectively know the service condition of first base station, and then may insure that stablizing for mobile communications network runs and safeguard.

Fig. 7 is the flow diagram of the detection method example IV of BTS service state provided in an embodiment of the present invention.The present embodiment stopping control command that is involved is the second base stations to send according to OSS sends Secondary resource status request message to first base station, so that first base station stops the detailed process of the service condition of measurement first base station.Further, on the basis of the above embodiments, after S304, as shown in fig. 7, this method comprises:

S401: the second base station receives the stopping control command that OSS is sent；Wherein, the stopping control command being used to indicate the second base station and sends Secondary resource status request message to first base station；The Secondary resource status request message includes the second registration request cell, and the second registration request cell is used to indicate the service condition that the first base station stops measuring the first base station.

Specifically, sending to the second base station after OSS knows the service condition of above-mentioned first base station and stopping control command, which is used to indicate second base station and sends Secondary resource status request message to the first base station.After the second base station receives the stopping control command of OSS transmission, Secondary resource status request message is sent to first base station, carries the second registration request cell in the Secondary resource status request message.Optionally, the Secondary resource status request message may be the RESOURCE STATUS REQUEST message in 36423 agreement of 3GPP, the second registration request cell may be the Registration Request cell in RESOURCE STATUS REQUEST message, unlike above-mentioned first registration cell, which is " stop ".

Optionally, the stopping control command that above-mentioned OSS is sent to the second base station, it can be the message with any frame structure, or the control command of any format, as long as message or control command that OSS is sent to the second base station have the function of " instruction second base station sends Secondary resource status request message to the first base station ", it is properly termed as stopping control command.

Optionally, above-mentioned starting control command, can be the OSS period is sent to the second base station, then OSS is corresponding just stops control command to the transmission in the second base station period, that is OSS can also obtain the service condition of first base station with the service condition of the acquisition first base station in period with regard to the stopping in period certainly.The signaling overheads of OSS, the second base station and first base station can be reduced in this way.

Optionally, with continued reference to Fig. 7, further, before above-mentioned S303, this method can also include:

S501: the second base station receives the first resource status response message that first base station is sent, and the first resource status response message is used to indicate that the first base station has been turned on the measurement of the service condition of the first base station to second base station.

Optionally, which can be the RESOURCE STATUS RESPONSE message in 36423 agreement of 3GPP, to indicate that first base station currently has been started up measuring for the service condition of first base station to the second base station.

Further, above-mentioned first resource status request message further includes eating dishes without rice or wine to load at least one of cell, S1 traffic load cell, hardware load cell.Optionally, which indicates that the loading condition of eating dishes without rice or wine for needing first base station measurement first base station when the value for eating dishes without rice or wine to load cell is 1；Optionally, which is also possible to a flag bit in first resource status request message, when the value of S1 traffic load cell is 1, indicates that the transport load situation for needing the S1 mouth of first base station measurement first base station；Optionally, which is also possible to a flag bit in first resource status request message, when the value of hardware load cell is 1, indicates that the hardware load situation for needing first base station measurement first base station

Optionally, if above-mentioned first resource status request message includes the first registration request cell, then the resource status report can include the running time-frequency resource utilization rate of the first base station, i.e., the resource status, which is reported to OSS, shows the current running time-frequency resource service condition of first base station.

Optionally, if the first resource status request message eats dishes without rice or wine to load cell including described, the resource status report can eat dishes without rice or wine to load including the first base station, i.e., the resource status reports the service condition of eating dishes without rice or wine for showing current first base station to OSS.

Optionally, if the first resource status request message includes the S1 traffic load cell, the resource status report includes that the S1 of the first base station is loaded, i.e., the resource status reports the service condition for showing the S1 mouth of current first base station to OSS.

If the first resource status request message includes the hardware load cell, the resource status report includes the hardware load of the first base station, i.e. the resource status reports the service condition for showing the hardware device of current first base station to OSS.

The detection method of BTS service state provided in an embodiment of the present invention, starting control command of second base station to first base station transmission first resource status request message is used to indicate by what the second base station reception OSS was sent, and after sending the first resource status request message to the first base station according to the starting control command, receive the resource status report that the first base station is sent, and resource status report is sent to OSS, so that OSS can report the service condition for determining the first base station according to the resource status.The method of the embodiment of the present invention, without artificially participating in, it is also not limited to the spatial distribution distance of physical environment or base station, therefore OSS can be when first base station takes off pipe, timely and effectively know the service condition of first base station, and then may insure that stablizing for mobile communications network runs and safeguard；In addition, method provided in an embodiment of the present invention, it can also be after the service condition that OSS knows de- pipe base station, by sending the stopping control command for being used to indicate second base station to first base station transmission Secondary resource status request message to the second base station, so that first base station stops measuring under the instruction of Secondary resource status request message the service condition of first base station, and then the signaling overheads of OSS, the second base station and first base station can be reduced.

Those of ordinary skill in the art will appreciate that: realizing all or part of the steps of above method embodiment, this can be accomplished by hardware associated with program instructions, program above-mentioned can be stored in a computer readable storage medium, the program when being executed, executes step including the steps of the foregoing method embodiments；And storage medium above-mentioned includes: the various media that can store program code such as ROM, RAM, magnetic or disk.

Fig. 8 is the structural schematic diagram of network O&M management system embodiment one provided in an embodiment of the present invention.The network O&M management system is suitable for above-mentioned mobile communications network O&M configuration diagram shown in Fig. 3.As shown in figure 8, the network O&M management system includes: the first determining module 10, sending module 11, receiving module 12 and the second determining module 13.

Wherein, the first determining module 10 is communicated to connect for determining that first base station and OSS disconnect；

Sending module 11, for sending starting control command to the second base station；Wherein, the starting control command is used to indicate second base station and sends first resource status request message to the first base station；Institute Stating first resource status request message includes the first registration request cell, the first registration request cell is used to indicate the service condition that the first base station measures the first base station, and the service condition is carried and is sent to second base station in resource status report；

Receiving module 12, the resource status report sent for receiving second base station；

Second determining module 13, for determining the service condition of the first base station according to resource status report.

Network O&M management system provided in an embodiment of the present invention, can execute above method embodiment, and it is similar that the realization principle and technical effect are similar, and details are not described herein.

Optionally, above-mentioned sending module 11 can be also used for sending stopping control command to second base station；Wherein, the stopping control command being used to indicate second base station and sends Secondary resource status request message to the first base station；The Secondary resource status request message includes the second registration request cell, and the second registration request cell is used to indicate the service condition that the first base station stops measuring the first base station.

Further, above-mentioned first resource status request message further includes eating dishes without rice or wine to load at least one of cell, S1 traffic load cell, hardware load cell.If the first resource status request message includes the first registration request cell, the resource status report includes the running time-frequency resource utilization rate of the first base station；If the first resource status request message eats dishes without rice or wine to load cell described in including, the resource status report eats dishes without rice or wine to load including the first base station；If the first resource status request message includes the S1 traffic load cell, the resource status report includes that the S1 of the first base station is loaded；If the first resource status request message includes the hardware load cell, the resource status report includes the hardware load of the first base station.

Network O&M management system provided in an embodiment of the present invention, can execute above method embodiment, and it is similar that the realization principle and technical effect are similar, and details are not described herein.

Fig. 9 is the structural schematic diagram of base station embodiment one provided in an embodiment of the present invention.The base station can be the second base station in above method embodiment, as shown in figure 9, the base station includes: receiving module 21 and sending module 22.

Wherein, receiving module 21, for receiving the starting control command of OSS transmission；Wherein, the starting control command OSS is detected sends after first base station disconnects communication connection with the OSS, and the starting control command is used to indicate the base station and sends first resource status request message to the first base station；

Sending module 22, for sending the first resource status request message to the first base station according to the starting control command；The first resource status request message includes the first registration request cell, the first registration request cell is used to indicate the service condition that the first base station measures the first base station, and the service condition is carried and is sent to the base station in resource status report；

The receiving module 21 is also used to receive the resource status report that the first base station is sent；

The sending module 22, is also used to send the resource status report to the OSS, and the resource status report is used to indicate the service condition that the OSS determines the first base station according to resource status report.

Base station provided in an embodiment of the present invention can execute above method embodiment, and it is similar that the realization principle and technical effect are similar, and details are not described herein.

Optionally, above-mentioned receiving module 21 can be also used for receiving the stopping control command that the OSS is sent；Wherein, the stopping control command being used to indicate the base station and sends Secondary resource status request message to first base station；The Secondary resource status request message includes the second registration request cell, and the second registration request cell is used to indicate the service condition that the first base station stops measuring the first base station.

Optionally, above-mentioned receiving module 21, it can be also used for before receiving the resource status report that the first base station is sent, the first resource status response message that the first base station is sent is received, the first resource status response message is used to indicate that the first base station has been turned on the measurement of the service condition of the first base station to the base station.

Further, first resource status request message described above further includes eating dishes without rice or wine to load at least one of cell, S1 traffic load cell, hardware load cell.If the first resource status request message includes the first registration request cell, the resource status report includes the running time-frequency resource utilization rate of the first base station；If the first resource status request message eats dishes without rice or wine to load cell described in including, the resource status report eats dishes without rice or wine to load including the first base station；If the first resource status request message includes the S1 traffic load cell, the resource status report includes that the S1 of the first base station is loaded；If the first resource status request message includes the hardware load cell, the resource status report includes the hardware load of the first base station.

Base station provided in an embodiment of the present invention can execute above method embodiment, and it is similar that the realization principle and technical effect are similar, and details are not described herein.

Figure 10 is the structural schematic diagram of network O&M management system embodiment two provided in an embodiment of the present invention.The network O&M management system can be adapted for above-mentioned mobile communications network O&M framework signal shown in Fig. 3 Scheme, as shown in Figure 10, which includes: processor 31, transmitter 32 and receiver 33.

Specifically, the transmitter 32, for sending starting control command to the second base station after processor 31 determines that first base station and OSS disconnect communication connection；Wherein, the starting control command is used to indicate second base station and sends first resource status request message to the first base station；The first resource status request message includes the first registration request cell, the first registration request cell is used to indicate the service condition that the first base station measures the first base station, and the service condition is carried and is sent to second base station in resource status report；

Receiver 33, the resource status report sent for receiving second base station；

The service condition for the determining first base station of resource status report that processor 31 is communicated to connect for determining that first base station and the network O&M management system OSS disconnect, and received according to the receiver 33.

Network O&M management system provided in an embodiment of the present invention, can execute above method embodiment, and it is similar that the realization principle and technical effect are similar, and details are not described herein.

Optionally, the transmitter 32 can be also used for sending stopping control command to second base station；Wherein, the stopping control command being used to indicate second base station and sends Secondary resource status request message to the first base station；The Secondary resource status request message includes the second registration request cell, and the second registration request cell is used to indicate the service condition that the first base station stops measuring the first base station.

Further, above-mentioned first resource status request message further includes eating dishes without rice or wine to load at least one of cell, S1 traffic load cell, hardware load cell.If the first resource status request message includes the first registration request cell, the resource status report includes the running time-frequency resource utilization rate of the first base station；If the first resource status request message eats dishes without rice or wine to load cell described in including, the resource status report eats dishes without rice or wine to load including the first base station；If the first resource status request message includes the S1 traffic load cell, the resource status report includes that the S1 of the first base station is loaded；If the first resource status request message includes the hardware load cell, the resource status report includes the hardware load of the first base station.

Network O&M management system provided in an embodiment of the present invention, can execute above method embodiment, and it is similar that the realization principle and technical effect are similar, and details are not described herein.

Figure 11 is the structural schematic diagram of base station embodiment two provided in an embodiment of the present invention.The base station can be The second base station in above method embodiment, as shown in figure 11, the base station include: transmitter 41 and receiver 42.

Specifically, the receiver 42, for receiving the starting control command of OSS transmission；Wherein, the starting control command OSS is detected sends after the first base station disconnects communication connection with the OSS, and the starting control command is used to indicate the base station and sends first resource status request message to the first base station；

Transmitter 41, the starting control command for being received according to the receiver 42 send the first resource status request message to the first base station；The first resource status request message includes the first registration request cell, the first registration request cell is used to indicate the service condition that the first base station measures the first base station, and the service condition is carried and is sent to the base station in resource status report；

The receiver 42 is also used to receive the resource status report that the first base station is sent；

The transmitter 41, is also used to send the resource status report that the receiver 42 receives to the OSS, and the resource status report is used to indicate the service condition that the OSS determines the first base station according to resource status report.

Base station provided in an embodiment of the present invention can execute above method embodiment, and it is similar that the realization principle and technical effect are similar, and details are not described herein.

Optionally, the receiver 42 can be also used for receiving the stopping control command that the OSS is sent；Wherein, the stopping control command being used to indicate the base station and sends Secondary resource status request message to the first base station；The Secondary resource status request message includes the second registration request cell, and the second registration request cell is used to indicate the service condition that the first base station stops measuring the first base station.

Optionally, the receiver 42, it can be also used for before receiving the resource status report that the first base station is sent, the first resource status response message that the first base station is sent is received, the first resource status response message is used to indicate that the first base station has been turned on the measurement of the service condition of the first base station to the base station.

Further, the first resource status request message further includes eating dishes without rice or wine to load at least one of cell, S1 traffic load cell, hardware load cell.If the first resource status request message includes the first registration request cell, the resource status report includes the running time-frequency resource utilization rate of the first base station；If the first resource status request message eats dishes without rice or wine to load cell described in including, the resource status report eats dishes without rice or wine to load including the first base station；If the first resource status request message includes institute S1 traffic load cell is stated, then the resource status report includes that the S1 of the first base station is loaded；If the first resource status request message includes the hardware load cell, the resource status report includes the hardware load of the first base station.

Base station provided in an embodiment of the present invention can execute above method embodiment, and it is similar that the realization principle and technical effect are similar, and details are not described herein.

Finally, it should be noted that the above embodiments are only used to illustrate the technical solution of the present invention., rather than its limitations；Although present invention has been described in detail with reference to the aforementioned embodiments, those skilled in the art should understand that: it is still possible to modify the technical solutions described in the foregoing embodiments, or equivalent substitution of some or all of the technical features；And these are modified or replaceed, the range for technical solution of various embodiments of the present invention that it does not separate the essence of the corresponding technical solution.

Claims (27)

1. A kind of detection method of BTS service state characterized by comprising

   Network O&M management system OSS determines that first base station and the OSS disconnect and communicates to connect；

   The OSS sends starting control command to the second base station；Wherein, the starting control command is used to indicate second base station and sends first resource status request message to the first base station；The first resource status request message includes the first registration request cell, the first registration request cell is used to indicate the service condition that the first base station measures the first base station, and the service condition is carried and is sent to second base station in resource status report；

   The OSS receives the resource status report that second base station is sent；

   The OSS determines the service condition of the first base station according to resource status report.
2. The method according to claim 1, which is characterized in that the method also includes:

   The OSS is sent to second base station stops control command；Wherein, the stopping control command being used to indicate second base station and sends Secondary resource status request message to the first base station；The Secondary resource status request message includes the second registration request cell, and the second registration request cell is used to indicate the service condition that the first base station stops measuring the first base station.
3. Method according to claim 1 or 2, which is characterized in that the first resource status request message further includes eating dishes without rice or wine to load at least one of cell, S1 traffic load cell, hardware load cell.
4. According to the method described in claim 3, it is characterized in that,

   If the first resource status request message includes the first registration request cell, the resource status report includes the running time-frequency resource utilization rate of the first base station；

   If the first resource status request message eats dishes without rice or wine to load cell described in including, the resource status report eats dishes without rice or wine to load including the first base station；

   If the first resource status request message includes the S1 traffic load cell, the resource status report includes that the S1 of the first base station is loaded；

   If the first resource status request message includes the hardware load cell, the resource status report includes the hardware load of the first base station.
5. A kind of detection method of BTS service state characterized by comprising

   Second base station receives the starting control command that network O&M management system OSS is sent；Wherein, the starting control command OSS is detected sends after first base station disconnects communication connection with the OSS, and the starting control command is used to indicate second base station and sends first resource state to the first base station Request message；

   Second base station sends the first resource status request message to the first base station according to the starting control command；The first resource status request message includes the first registration request cell, the first registration request cell is used to indicate the service condition that the first base station measures the first base station, and the service condition is carried and is sent to second base station in resource status report；

   Second base station receives the resource status report that the first base station is sent；

   Second base station sends the resource status report to the OSS, and the resource status report is used to indicate the service condition that the OSS determines the first base station according to resource status report.
6. According to the method described in claim 5, it is characterized in that, the method also includes:

   Second base station receives the stopping control command that the OSS is sent；Wherein, the stopping control command being used to indicate second base station and sends Secondary resource status request message to the first base station；The Secondary resource status request message includes the second registration request cell, and the second registration request cell is used to indicate the service condition that the first base station stops measuring the first base station.
7. Method according to claim 5 or 6, which is characterized in that second base station receives before the resource status report that the first base station is sent, further includes:

   Second base station receives the first resource status response message that the first base station is sent, and the first resource status response message is used to indicate that the first base station has been turned on the measurement of the service condition of the first base station to second base station.
8. According to the described in any item methods of claim 5-7, which is characterized in that the first resource status request message further includes eating dishes without rice or wine to load at least one of cell, S1 traffic load cell, hardware load cell.
9. According to the method described in claim 8, it is characterized in that,

   If the first resource status request message includes the first registration request cell, the resource status report includes the running time-frequency resource utilization rate of the first base station；

   If the first resource status request message eats dishes without rice or wine to load cell described in including, the resource status report eats dishes without rice or wine to load including the first base station；

   If the first resource status request message includes the S1 traffic load cell, the resource status report includes that the S1 of the first base station is loaded；

   If the first resource status request message includes the hardware load cell, the resource status report includes the hardware load of the first base station.
10. A kind of network O&M management system characterized by comprising

    First determining module is communicated to connect for determining that first base station and the network O&M management system OSS disconnect；

    Sending module, for sending starting control command to the second base station；Wherein, the starting control command is used to indicate second base station and sends first resource status request message to the first base station；The first resource status request message includes the first registration request cell, the first registration request cell is used to indicate the service condition that the first base station measures the first base station, and the service condition is carried and is sent to second base station in resource status report；

    Receiving module, the resource status report sent for receiving second base station；

    Second determining module, for determining the service condition of the first base station according to resource status report.
11. Network O&M management system according to claim 10, which is characterized in that the sending module, which is also used to send to second base station, stops control command；Wherein, the stopping control command being used to indicate second base station and sends Secondary resource status request message to the first base station；The Secondary resource status request message includes the second registration request cell, and the second registration request cell is used to indicate the service condition that the first base station stops measuring the first base station.
12. Network O&M management system described in 0 or 11 according to claim 1, which is characterized in that the first resource status request message further includes eating dishes without rice or wine to load at least one of cell, S1 traffic load cell, hardware load cell.
13. Network O&M management system according to claim 12, which is characterized in that if the first resource status request message includes the first registration request cell, the resource status report includes the running time-frequency resource utilization rate of the first base station；

    If the first resource status request message eats dishes without rice or wine to load cell described in including, the resource status report eats dishes without rice or wine to load including the first base station；

    If the first resource status request message includes the S1 traffic load cell, the resource status report includes that the S1 of the first base station is loaded；

    If the first resource status request message includes the hardware load cell, the resource status report includes the hardware load of the first base station.
14. A kind of base station characterized by comprising

    Receiving module, for receiving the starting control command of network O&M management system OSS transmission；Wherein, The starting control command OSS is detected to be sent after first base station disconnects communication connection with the OSS, and the starting control command is used to indicate the base station and sends first resource status request message to the first base station；

    Sending module, for sending the first resource status request message to the first base station according to the starting control command；The first resource status request message includes the first registration request cell, the first registration request cell is used to indicate the service condition that the first base station measures the first base station, and the service condition is carried and is sent to the base station in resource status report；

    The receiving module is also used to receive the resource status report that the first base station is sent；

    The sending module, is also used to send the resource status report to the OSS, and the resource status report is used to indicate the service condition that the OSS determines the first base station according to resource status report.
15. Base station according to claim 14, which is characterized in that the receiving module is also used to receive the stopping control command that the OSS is sent；Wherein, the stopping control command being used to indicate the base station and sends Secondary resource status request message to the first base station；The Secondary resource status request message includes the second registration request cell, and the second registration request cell is used to indicate the service condition that the first base station stops measuring the first base station.
16. Base station according to claim 14 or 15, it is characterized in that, the receiving module, it is also used to before receiving the resource status report that the first base station is sent, the first resource status response message that the first base station is sent is received, the first resource status response message is used to indicate that the first base station has been turned on the measurement of the service condition of the first base station to the base station.
17. The described in any item base stations 4-16 according to claim 1, which is characterized in that the first resource status request message further includes eating dishes without rice or wine to load at least one of cell, S1 traffic load cell, hardware load cell.
18. Base station according to claim 17, which is characterized in that if the first resource status request message includes the first registration request cell, the resource status report includes the running time-frequency resource utilization rate of the first base station；

    If the first resource status request message eats dishes without rice or wine to load cell described in including, the resource status report eats dishes without rice or wine to load including the first base station；

    If the first resource status request message includes the S1 traffic load cell, the resource status report includes that the S1 of the first base station is loaded；

    If the first resource status request message includes the hardware load cell, the resource status report includes the hardware load of the first base station.
19. A kind of network O&M management system characterized by comprising

    Transmitter, for sending starting control command to the second base station after processor determines that first base station and the network O&M management system OSS disconnect communication connection；Wherein, the starting control command is used to indicate second base station and sends first resource status request message to the first base station；The first resource status request message includes the first registration request cell, the first registration request cell is used to indicate the service condition that the first base station measures the first base station, and the service condition is carried and is sent to second base station in resource status report；

    Receiver, the resource status report sent for receiving second base station；

    The service condition for the determining first base station of resource status report that processor is communicated to connect for determining that first base station and the network O&M management system OSS disconnect, and received according to the receiver.
20. Network O&M management system according to claim 19, which is characterized in that the transmitter, which is also used to send to second base station, stops control command；Wherein, the stopping control command being used to indicate second base station and sends Secondary resource status request message to the first base station；The Secondary resource status request message includes the second registration request cell, and the second registration request cell is used to indicate the service condition that the first base station stops measuring the first base station.
21. Network O&M management system described in 9 or 20 according to claim 1, which is characterized in that the first resource status request message further includes eating dishes without rice or wine to load at least one of cell, S1 traffic load cell, hardware load cell.
22. Network O&M management system according to claim 21, which is characterized in that if the first resource status request message includes the first registration request cell, the resource status report includes the running time-frequency resource utilization rate of the first base station；

    If the first resource status request message eats dishes without rice or wine to load cell described in including, the resource status report eats dishes without rice or wine to load including the first base station；

    If the first resource status request message includes the S1 traffic load cell, the resource status report includes that the S1 of the first base station is loaded；

    If the first resource status request message includes the hardware load cell, the resource status report includes the hardware load of the first base station.
23. A kind of base station characterized by comprising

    Receiver, for receiving the starting control command of network O&M management system OSS transmission；Wherein, the starting control command OSS is detected sends after first base station disconnects communication connection with the OSS, and the starting control command is used to indicate the base station and sends first resource status request message to the first base station；

    Transmitter, the starting control command for being received according to the receiver send the first resource status request message to the first base station；The first resource status request message includes the first registration request cell, the first registration request cell is used to indicate the service condition that the first base station measures the first base station, and the service condition is carried and is sent to the base station in resource status report；

    The receiver is also used to receive the resource status report that the first base station is sent；

    The transmitter, is also used to send the resource status report that the receiver receives to the OSS, and the resource status report is used to indicate the service condition that the OSS determines the first base station according to resource status report.
24. Base station according to claim 23, which is characterized in that the receiver is also used to receive the stopping control command that the OSS is sent；Wherein, the stopping control command being used to indicate the base station and sends Secondary resource status request message to the first base station；The Secondary resource status request message includes the second registration request cell, and the second registration request cell is used to indicate the service condition that the first base station stops measuring the first base station.
25. The base station according to claim 23 or 24, it is characterized in that, the receiver, it is also used to before receiving the resource status report that the first base station is sent, the first resource status response message that the first base station is sent is received, the first resource status response message is used to indicate that the first base station has been turned on the measurement of the service condition of the first base station to the base station.
26. According to the described in any item base stations claim 23-25, which is characterized in that the first resource status request message further includes eating dishes without rice or wine to load at least one of cell, S1 traffic load cell, hardware load cell.
27. Base station according to claim 26, which is characterized in that if the first resource status request message includes the first registration request cell, the resource status report includes the running time-frequency resource utilization rate of the first base station；

    If the first resource status request message eats dishes without rice or wine to load cell described in including, the resource status report eats dishes without rice or wine to load including the first base station；

    If the first resource status request message includes the S1 traffic load cell, the resource shape State report includes that the S1 of the first base station is loaded；

    If the first resource status request message includes the hardware load cell, the resource status report includes the hardware load of the first base station.