WO2015135102A1 - 多频电调天线管理方法、装置和系统 - Google Patents

多频电调天线管理方法、装置和系统 Download PDF

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Publication number
WO2015135102A1
WO2015135102A1 PCT/CN2014/073110 CN2014073110W WO2015135102A1 WO 2015135102 A1 WO2015135102 A1 WO 2015135102A1 CN 2014073110 W CN2014073110 W CN 2014073110W WO 2015135102 A1 WO2015135102 A1 WO 2015135102A1
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WO
WIPO (PCT)
Prior art keywords
ret
base station
antenna device
authority
command
Prior art date
Application number
PCT/CN2014/073110
Other languages
English (en)
French (fr)
Inventor
米文博
蒋立新
董经纬
Original Assignee
华为技术有限公司
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by 华为技术有限公司 filed Critical 华为技术有限公司
Priority to PCT/CN2014/073110 priority Critical patent/WO2015135102A1/zh
Priority to CN201480003863.2A priority patent/CN104995941B/zh
Publication of WO2015135102A1 publication Critical patent/WO2015135102A1/zh

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Classifications

    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01QANTENNAS, i.e. RADIO AERIALS
    • H01Q1/00Details of, or arrangements associated with, antennas
    • H01Q1/12Supports; Mounting means
    • H01Q1/22Supports; Mounting means by structural association with other equipment or articles
    • H01Q1/24Supports; Mounting means by structural association with other equipment or articles with receiving set
    • H01Q1/241Supports; Mounting means by structural association with other equipment or articles with receiving set used in mobile communications, e.g. GSM
    • H01Q1/246Supports; Mounting means by structural association with other equipment or articles with receiving set used in mobile communications, e.g. GSM specially adapted for base stations
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01QANTENNAS, i.e. RADIO AERIALS
    • H01Q3/00Arrangements for changing or varying the orientation or the shape of the directional pattern of the waves radiated from an antenna or antenna system
    • H01Q3/005Arrangements for changing or varying the orientation or the shape of the directional pattern of the waves radiated from an antenna or antenna system using remotely controlled antenna positioning or scanning
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W24/00Supervisory, monitoring or testing arrangements
    • H04W24/04Arrangements for maintaining operational condition

Definitions

  • Multi-frequency electric adjustment antenna management method device and system
  • Embodiments of the present invention relate to the field of communications technologies, and in particular, to a multi-frequency ESC antenna management method, apparatus, and system. Background technique
  • the remote control unit is placed in the antenna, which eliminates the mapping relationship between the recording antenna and the remote electrical tuning unit (RET), and simplifies the configuration process of the antenna and RET. It makes the antenna and RET installation more convenient and faster.
  • a multi-frequency antenna can also be used to realize multiple frequency bands covering the same area. Therefore, multiple RETs are built in the multi-frequency antenna.
  • a RET can be configured by only one base station, and the base station 1 is scanned by the Antenna Interface Standard Group (AISG) port 1 to scan the RET1, RET2, and RET3 reported by the RCU.
  • AISG Antenna Interface Standard Group
  • the base station 1 selects to establish a communication connection with RET1 and configures the RET1; then the base station 2 scans the information of the RET2 and RET3 reported by the RCU through the AISG2 port (the RET1 is configured by the base station 1, and the RCU will not report the information of the RET1), the base station 2 Select to establish a communication connection with RET2 and RET3 and configure RET2 and RET3, so that multiple base stations can jointly manage the same multi-frequency ESC antenna.
  • the base station 1 if the base station 1 is configured incorrectly, that is, the base station 1 selects to establish a communication connection with RET1, RET2, and RET3 to configure these RETs, the base station 2 will not scan any RET information reported by the RCU through the AISG2 port, and therefore cannot It is directly determined whether the base station 1 configuration error or the physical connection between the AISG2 and the Smart Bias-Tee (SBT) is disconnected, so that the problem cannot be quickly located and the operation and maintenance cost is increased.
  • SBT Smart Bias-Tee
  • Multi-frequency electrical adjustment antenna management method, device and system provided by embodiments of the present invention for fast setting
  • the problem is that the operation and maintenance cost is reduced and the operation and maintenance efficiency and quality are improved.
  • an embodiment of the present invention provides a base station, including:
  • a sending unit configured to send a scan command to the antenna device, where the scan command is used to instruct the antenna device to send an identifier of all remote tonal units RET to the base station;
  • a receiving unit configured to receive an identifier of all the RETs sent by the antenna device
  • a processing unit configured to establish, according to the identifier of the first RET received by the receiving unit, a communication connection with the antenna device about the first RET
  • the first RET is any RET in the antenna device
  • the base station has the management authority for the first RET.
  • the sending unit is further configured to: after the processing unit establishes a communication connection with the antenna device with respect to the first RET according to the identifier of the first RET, The antenna device sends a first RET management authority setting command, where the first RET management authority setting command belongs to a newly added antenna interface standardized AISG interface command;
  • the receiving unit is further configured to receive a first RET management right setting response sent by the antenna device, so that the base station has the management right of the first RET.
  • the management authority is set by the antenna device by default for the base station.
  • the sending unit is specifically configured to send a first RET control authority setting command to the antenna device;
  • the receiving unit is specifically configured to receive a first RET control permission setting successful response sent by the antenna device;
  • the management authority includes a control authority.
  • the processing unit is configured to receive, by the receiving unit, the first RET control permission sent by the antenna device After the successful response is set, determining whether the base station needs to release the control right possessed by the first RET;
  • the sending unit is further configured to: when the processing unit determines that the control right possessed by the first RET needs to be released, send a first RET query authority setting command to the antenna device;
  • the receiving unit is further configured to receive the first RET query permission sent by the antenna device to be set to
  • the function is responsive to enable the base station to have the query authority for the first RET.
  • the management authority set by the antenna device by default includes the control authority
  • the first base station has established a communication connection with the antenna device with respect to the first RET and has control authority for the first RET.
  • the sending unit is further configured to: after the processing unit establishes a communication connection with the antenna device with respect to the first RET according to the identifier of the first RET, send the first to the antenna device
  • the receiving unit is further configured to receive a first RET control success response sent by the antenna device.
  • the sending unit is configured to send a first RET query permission setting command to the antenna device;
  • the receiving unit is further configured to receive a first RET query permission sent by the antenna device to set a functional response;
  • the management authority includes a query authority.
  • the sending unit is further configured to: before sending the first RET query permission setting command to the antenna device, Sending a first RET control authority setting command to the antenna device;
  • the receiving unit is further configured to receive a first RET control authority conflict response sent by the antenna device.
  • a ninth possible implementation manner of the first aspect if the base station establishes, by the base station, the first RET communication with the antenna device according to the identifier of the first RET The first base station already exists at the time of the connection, and the management authority set by default by the antenna device includes the query authority, and the first base station establishes a communication connection with the antenna device regarding the first RET and has a pair The control authority of the first RET.
  • the sending unit is further configured to:
  • An identifier of the RET after establishing a communication connection with the antenna device about the first RET, sending a first RET query command to the antenna device;
  • the receiving unit is further configured to receive a first RET query result sent by the antenna device.
  • the sending unit is specifically configured to send a first RET exclusive permission setting command to the antenna device;
  • the receiving unit is specifically configured to receive a first RET exclusive permission setting successful response sent by the antenna device;
  • the management authority includes exclusive rights.
  • the sending unit is further configured to After the communication unit establishes a communication connection with the antenna device with respect to the first RET according to the identifier of the first RET, the processing unit sends a first RET permission read command to the antenna device, where the first RET permission read command belongs to a new one. AISG interface command;
  • the receiving unit is further configured to receive a first RET permission result sent by the antenna device, to determine a management right that the base station has for the first RET.
  • an embodiment of the present invention provides an antenna device, including:
  • a receiving unit configured to receive a scan command sent by the base station, where the scan command is used to instruct the antenna device to send an identifier of all remote tonal units RET to the base station;
  • a sending unit configured to send, to the base station, an identifier of all the RETs
  • a processing unit configured to establish a communication connection with the base station, where the first RET is any RET in the antenna device;
  • the first RET is managed by the base station.
  • the receiving unit is further configured to: after the processing unit establishes a communication connection with the base station about the first RET, receive the first RET management sent by the base station The permission setting command, the first RET management authority setting command belongs to a newly added AISG interface command;
  • the sending unit is further configured to send a first RET management authority setting success response to the base station, so that the base station has a management right to the first RET.
  • the processing unit is further configured to, after establishing a communication connection with the base station about the first RET, set the base station to have the first RET by default. Managerial authority.
  • the receiving unit is specifically configured to receive a first RET control permission setting command sent by the base station;
  • the sending unit is specifically configured to send a first RET control authority setting success response to the base station;
  • the management authority includes a control authority.
  • the receiving unit is further configured to send, by the sending unit, the first RET control permission to the base station Receiving, by the base station, a first RET query authority setting command sent by the base station; the sending unit is further configured to send a first RET query authority setting success response to the base station, so that the base station owns the first RET Query permissions.
  • the processing unit is specifically configured to: when establishing a communication connection with the base station regarding the first RET If the first base station does not exist, the base station has a control right to the first RET by default, and the first base station establishes a communication connection with the antenna device about the first RET and has the Another base station that controls the first RET.
  • the receiving unit is further configured to: after the processing unit establishes a communication connection with the base station about the first RET, receive a first RET control command sent by the base station;
  • the processing unit is further configured to perform control processing on the first RET according to the first RET control command;
  • the sending unit is further configured to send a first RET control success response to the base station.
  • the receiving unit is specifically configured to receive a first RET query permission setting command sent by the base station;
  • the sending unit is specifically configured to send the first RET query permission setting to the base station successfully.
  • the management authority includes a query authority.
  • the receiving unit is further configured to: before receiving the first RET query permission setting command sent by the base station, Receiving a first RET control authority setting command sent by the base station;
  • the sending unit is further configured to: if the receiving unit has received the first RET control authority setting command sent by the first base station, send a first RET control rights conflict response to the base station, where the first base station has The antenna device establishes a communication connection with respect to the first RET.
  • the processing unit is specifically configured to: when establishing a communication connection with the base station regarding the first RET If the first base station already exists, the base station has the right to query the first RET by default, and the first base station has established a communication connection with the antenna device about the first RET and has the The base station of the first RET control authority.
  • the receiving unit is further configured to: After establishing a communication connection with respect to the first RET, receiving a first RET query command sent by the base station;
  • the processing unit is further configured to query the first RET according to the first RET query command;
  • the sending unit is further configured to send a first RET query result to the base station.
  • the receiving unit is specifically configured to receive a first RET exclusive permission setting command sent by the base station;
  • the sending unit is specifically configured to send, to the base station, a first RET exclusive permission setting success response;
  • the management authority includes exclusive rights.
  • the receiving unit is further configured to After the processing unit establishes a communication connection with the base station about the first RET, receiving a first RET rights read command sent by the base station, where the first RET rights read command belongs to the newly added AISG Interface command
  • the sending unit is further configured to send a first RET permission result to the base station, so that the base station determines a management right that the base station has for the first RET.
  • an embodiment of the present invention provides a multi-frequency electrical adjustment antenna management method, including: a base station sends a scan command to an antenna device, where the scan command is used to indicate that the antenna device identifies all remote electrical adjustment units RET Sent to the base station;
  • the base station establishes a communication connection with the antenna device with respect to the first RET according to the identifier of the first RET, where the first RET is any RET in the antenna device;
  • the base station has the management authority for the first RET.
  • the method further includes:
  • the base station sends a first RET management authority setting command to the antenna device, where the first RET management authority setting command belongs to a newly added antenna interface standardized AISG interface command;
  • the management authority is set by the antenna device by default for the base station.
  • the base station sends a first RET management authority setting command to the antenna device, including:
  • a first RET management permission setting success response sent by the antenna device including:
  • the method further includes:
  • the base station When the base station needs to release the control right owned by the first RET, the base station The antenna device sends a first RET query permission setting command;
  • the base station receives a first RET query permission setting success response sent by the antenna device, so that the base station has the query right of the first RET.
  • the management authority set by default by the antenna device includes control authority
  • the first base station has established a communication connection with the antenna device with respect to the first RET and has control authority for the first RET.
  • the base station After the base station establishes a communication connection with the antenna device with respect to the first RET according to the identifier of the first RET, the base station further includes:
  • the base station receives a first RET control success response sent by the antenna device.
  • the sending, by the base station, the first RET management right setting command to the antenna device The antenna device sends a first RET query permission setting command;
  • a first RET management permission setting success response sent by the antenna device including:
  • the base station receives a first RET query permission setting success response sent by the antenna device, where the management authority includes a query authority.
  • the method before the sending, by the base station, the first RET query permission setting command to the antenna device, the method further includes:
  • a ninth possible implementation manner of the third aspect if the base station establishes, according to the identifier of the first RET, the first RET communication with the antenna device The first base station already exists at the time of the connection, and the management authority set by default by the antenna device includes the query authority, and the first base station establishes a communication connection with the antenna device regarding the first RET and has a pair The control authority of the first RET.
  • the base station is established with the antenna device according to the identifier of the first RET After the communication connection of the first RET, the method further includes:
  • the base station receives a first RET query result sent by the antenna device.
  • the base station sends a first RET management authority setting command to the antenna device, including:
  • a first RET management permission setting success response sent by the antenna device including:
  • the base station is configured according to the identifier of the first RET, After establishing a communication connection with the antenna device regarding the first RET, the method further includes:
  • the base station receives a first RET permission result sent by the antenna device to determine a management right that the base station has for the first RET.
  • the embodiment of the present invention further provides a multi-frequency electrical adjustment antenna management method, including: the antenna device receives a scan command sent by a base station, where the scan command is used to instruct the antenna device to use all remote electrical adjustment units RET The identifier is sent to the base station;
  • the antenna device Establishing, by the antenna device, a communication connection with the base station regarding a first RET, the first RET Is any RET in the antenna device;
  • the base station has the management authority for the first RET.
  • the method further includes:
  • the antenna device sends a first RET management authority setting success response to the base station, so that the base station has the management authority for the first RET.
  • the method further includes:
  • the antenna device defaults to setting the base station to have the management authority for the first RET.
  • the receiving, by the antenna device, the first RET management permission setting command sent by the base station includes:
  • the antenna device receives a first RET control authority setting command sent by the base station; the antenna device sends a first RET control authority setting success response to the base station; where the management authority includes a control authority.
  • the method further includes:
  • the antenna device receives a first RET query authority setting command sent by the base station; the antenna device sends a first RET query authority setting success response to the base station, so that the base station has a query for the first RET Permissions.
  • the antenna device by default, the base station has the management right of the first RET, including :
  • the antenna device sets the base station to have control authority for the first RET by default, the first The base station is another base station that has established a communication connection with the antenna device with respect to the first RET and has control authority for the first RET.
  • the method further includes:
  • the antenna device performs control processing on the first RET according to the first RET control command
  • the antenna device transmits a first RET control success response to the base station.
  • the receiving, by the antenna device, the first RET management permission setting command sent by the base station includes:
  • the antenna device receives a first RET query permission setting command sent by the base station; the antenna device sends a first RET query permission setting success response to the base station; where the management authority includes a query authority.
  • the antenna device Receiving, by the antenna device, a first RET control authority setting command sent by the base station; if the antenna device determines that the first RET control authority setting command sent by the first base station is received, the antenna device sends the first RET control authority setting command to the base station The first RET control rights conflict response, the first base station has established a communication connection with the antenna device regarding the first RET.
  • the antenna device by default, has the management right of the first RET, including :
  • the antenna device sets the base station to have the query right of the first RET by default, the first The base station is a base station that has established a communication connection with the antenna device with respect to the first RET and has control authority for the first RET.
  • the antenna device and the base station establish a first RET After the communication connection, it also includes:
  • the antenna device queries the first RET according to the first RET query command; the antenna device sends a first RET query result to the base station.
  • the receiving, by the antenna device, the first RET management permission setting command sent by the base station includes:
  • the antenna device receives a first RET exclusive permission setting command sent by the base station; the antenna device sends a first RET exclusive permission setting success response to the base station; wherein the management right includes an exclusive right.
  • the method further includes:
  • the antenna device sends a first RET authority result to the base station, so that the base station determines management rights owned by the base station for the first RET.
  • the embodiment of the present invention provides a multi-frequency electrical adjustment antenna management system, including: the base station provided in the foregoing first aspect, and the antenna device provided in the second aspect above.
  • the transmitting unit of the base station sends a scan command to the antenna device, where the scan command is used to instruct the antenna device to use all the remote electrical-tuning units RET Sending the identifier to the base station;
  • the receiving unit of the base station receives the identifiers of all the RETs sent by the antenna device;
  • the processing unit of the base station establishes the first RET with the antenna device according to the identifier of the first RET received by the receiving unit a communication connection, the first RET being any one of the RET devices; wherein the base station has administrative rights to the first RET. Since the base station can receive all the RET identifiers, when the base station cannot configure RET, the problem can be quickly located, the operation and maintenance cost is reduced, and the operation and maintenance efficiency and quality are improved.
  • FIG. 1 is a schematic diagram of a multi-frequency ESC antenna management method provided by the prior art
  • FIG. 2 is a structure of a first embodiment of a base station according to the present invention.
  • FIG. 3 is a structure of a second embodiment of a base station according to the present invention.
  • FIG. 4 is a first embodiment of an antenna device according to the present invention.
  • Figure 5 is a second embodiment of the antenna device of the present invention.
  • FIG. 6 is an embodiment of a multi-frequency electrical adjustment antenna management system according to the present invention.
  • Embodiment 7 is a flowchart of Embodiment 1 of a multi-frequency electrical adjustment antenna management method according to the present invention.
  • FIG. 8 is a flow chart of a second embodiment of a multi-frequency electronically tuned method according to the present invention.
  • FIG. 9 is a flowchart of Embodiment 3 of a multi-frequency ESC method according to the present invention.
  • FIG. 10 is a flowchart of Embodiment 4 of a multi-frequency ESC method according to the present invention.
  • Embodiment 11 is a flow chart of Embodiment 5 of a multi-frequency ESC method according to the present invention.
  • FIG. 12 is a flowchart of Embodiment 6 of a multi-frequency ESC method according to the present invention.
  • Embodiment 13 is a flowchart of Embodiment 7 of a multi-frequency ESC method according to the present invention.
  • FIG. 14 is a flowchart of Embodiment 8 of a multi-frequency ESC method according to the present invention.
  • 15 is a schematic diagram of an application scenario of a multi-frequency ESC method according to the present invention.
  • FIG. 16 is a flowchart of Embodiment 9 of a multi-frequency ESC method according to the present invention.
  • FIG. 17 is a flowchart of Embodiment 10 of the multi-frequency ESC method according to the present invention.
  • the technical solutions in the embodiments of the present invention are clearly and completely described in the following with reference to the accompanying drawings in the embodiments of the present invention.
  • the embodiments are a part of the embodiments of the invention, and not all of the embodiments. All other embodiments obtained by those skilled in the art based on the embodiments of the present invention without creative efforts are within the scope of the present invention.
  • the technical solution of the present invention can be applied to various wireless communication systems, for example, Global System for Mobile Communications (GSM), General Packet Radio Service (GPRS) system, and code. Multiple access (Code Division Multiple Access, referred to as: CDMA) system, CDMA2000 system, Wideband Code Division Multiple Access (WCDMA) system, Long Term Evolution (LTE) system or global microwave access interoperability World Interoperability for Microwave Access (WiMAX) system.
  • GSM Global System for Mobile Communications
  • GPRS General Packet Radio Service
  • CDMA Code Division Multiple Access
  • CDMA2000 Code Division Multiple Access
  • WCDMA Wideband Code Division Multiple Access
  • LTE Long Term Evolution
  • WiMAX global microwave access interoperability World Interoperability for Microwave Access
  • the base station which may be a base station controller in a GSM system, a GPRS system, or a CDMA system (Base
  • BSC Station Controller
  • eNB Evolved NodeB
  • ASN access service network base station
  • BS and other network elements.
  • the antenna device is a multi-frequency ESC antenna device.
  • the base station in this embodiment may include: a sending unit 11, a receiving unit 12, and a processing unit 13, where the sending unit 11 is configured to send to the antenna device.
  • a scan command the scan command is used to instruct the antenna device to send the identifiers of all the remote electrical adjustment units RET to the base station;
  • the receiving unit 12 is configured to receive the identifiers of all the RETs sent by the antenna device;
  • the unit 13 is configured to establish, according to the identifier of the first RET received by the receiving unit 12, a communication connection with the antenna device, where the first RET is any one of the antenna devices, where The base station has administrative rights to the first RET.
  • RET when multiple base stations share the same multi-frequency electrical adjustment antenna device, multiple base stations need to jointly manage the same multi-frequency electrical adjustment antenna device, that is, multiple base stations need to jointly manage the multi-frequency electrical adjustment antenna device.
  • RET one RET corresponds to one frequency band.
  • a base station of a plurality of base stations is taken as an example, and the implementation manners of other base stations are similar.
  • the antenna device in this embodiment is a multi-frequency electrical adjustment antenna, wherein the control unit of the base station transmits a control signal to the antenna device. Therefore, the antenna device needs to be reached through the AISG port of the antenna device.
  • the sending unit of the base station sends a scan command to the antenna device, where the scan command is used to instruct the antenna device to send the identifier of all RETs in the antenna device to the base station, and the antenna device receives the base station to send The scan command, whether the base station and the antenna device establish a communication connection with the RET in the antenna device, the antenna device sends the identifier of all RETs in the antenna device to the base station according to the scan command, RET
  • the identifier of the RET may be the sequence number of the RET, and then the receiving unit of the base station receives the identifiers of all the RETs sent by the antenna device, where the receiving unit of the base station can receive the identifiers of all the RETs sent by the antenna device at one time.
  • the processing unit of the base station may also establish a communication connection with the antenna device for at least one RET.
  • the processing unit of the base station may establish a communication connection with the antenna device regarding the first RET according to the identifier of the first RET.
  • the base station may have the management right of the first RET, and the subsequent base station may manage the first RET by using the communication connection with the first RET, where the management authority may be actively configured by the base station or may be the default configuration of the antenna device.
  • the embodiment of the present invention does not limit this.
  • the management authority includes at least one of the following: control authority, query authority, and exclusive authority. It is noted that the base station having the control authority for the RET has the query permission for the RET by default. However, the management authority in the embodiment of the present invention is not limited to the above-mentioned authority.
  • the antenna device only sends the identifier of the RET that is not configured by the base station to the requesting base station. If the first base station has configured the first RET, the second RET, and the third RET, the second base station cannot be configured. a RET, and the second RET and the third RET are actually configured by the second base station. When the first base station and the second base station belong to different operators, the second base station cannot determine whether the first base station configuration error or the antenna device is The physical connection between the SBTs is broken, so that the problem cannot be quickly located.
  • the receiving unit of the base station is the identifier of all RETs sent by the receiving antenna device.
  • the receiving unit of the base station does not receive the identifier of the RET sent by the antenna device, it may be determined that the antenna device is between the antenna device and the SBT.
  • the physical connection is disconnected, which quickly locates the problem, reduces the operation and maintenance cost, and improves the operation and maintenance efficiency and quality.
  • the sending unit 11 is further configured to: after the processing unit 13 establishes a communication connection with the antenna device with respect to the first RET according to the identifier of the first RET, The first RET management authority setting command is sent to the antenna device by using the AISG port, where the first RET management authority setting command belongs to the newly added AISG interface command, and the receiving unit 12 is further configured to receive the A RET management authority setting is successfully responded to enable the base station to have the management authority for the first RET.
  • the management authority is set by the antenna device by default for the base station.
  • the sending unit 11 is specifically configured to send a first RET control authority setting command to the antenna device, where the receiving unit 12 is specifically configured to receive the first RET control right sent by the antenna device.
  • the limit setting is successfully responded; wherein the management authority includes a control authority.
  • the processing unit 13 is configured to determine, after the receiving unit 12 receives the first RET control permission setting success response sent by the antenna device, whether the base station needs to release the control authority owned by the first RET;
  • the unit 11 is further configured to: when the processing unit 13 determines that the control right possessed by the first RET needs to be released, send a first RET query authority setting command to the antenna device; the receiving unit 12 is further configured to receive the antenna
  • the first RET query permission sent by the device is successfully configured to enable the base station to have the query right of the first RET.
  • the management authority set by the antenna device by default includes: Controlling authority; wherein the first base station has established a communication connection with the antenna device regarding the first RET and has control authority for the first RET.
  • the sending unit 11 is further configured to: after the processing unit 13 establishes a communication connection with the antenna device with respect to the first RET according to the identifier of the first RET, send a first RET control command to the antenna device;
  • the unit 12 is further configured to receive a first RET control success response sent by the antenna device.
  • the sending unit 11 is specifically configured to send a first RET query permission setting command to the antenna device, where the receiving unit 12 is further configured to receive a first RET query permission setting success response sent by the antenna device, where Administrative privileges include query permissions.
  • the sending unit 11 is further configured to send a first RET control authority setting command to the antenna device before sending the first RET query authority setting command to the antenna device; the receiving unit 12 is further configured to receive the antenna The first RET control permission conflict response sent by the device.
  • the management authority set by the antenna device by default includes an inquiry.
  • the first base station has established a communication connection with the antenna device regarding the first RET and has control authority for the first RET.
  • the sending unit 11 is further configured to: after the processing unit 13 establishes a communication connection with the antenna device with respect to the first RET according to the identifier of the first RET, send a first RET query command to the antenna device; 12 is further configured to receive a first RET query result sent by the antenna device.
  • the sending unit 11 is specifically configured to send the first RET exclusive permission to the antenna device.
  • the receiving unit 12 is configured to receive a first RET exclusive permission setting success response sent by the antenna device, where the management authority includes an exclusive right.
  • the sending unit 11 is further configured to: after the processing unit 13 establishes a communication connection with the antenna device with respect to the first RET according to the identifier of the first RET, send a first RET permission read command to the antenna device,
  • the first RET privilege read command belongs to the newly added AISG interface command.
  • the receiving unit 12 is further configured to receive the first RET privilege result sent by the antenna device, to determine that the base station has the first RET. Administrative rights.
  • the base station in this embodiment may be used to perform the technical solution executed by the base station in the foregoing method embodiment of the present invention, and the implementation principle and technical effects are similar, and details are not described herein again.
  • FIG. 3 is a schematic structural diagram of Embodiment 2 of a base station according to the present invention.
  • the base station in this embodiment may include: a transmitter 21, a receiver 22, and a processor 23.
  • the transmitter 21 is configured to send a scan command to the antenna device, where the scan command is used to instruct the antenna device to send an identifier of all remote tonal units RET to the base station; and the receiver 22 is configured to receive the The identifier of the all RETs sent by the antenna device;
  • the processor 23 is configured to establish, according to the identifier of the first RET received by the receiver 22, a communication connection with the antenna device, where the first RET is Any RET in the antenna device; wherein the base station has management rights to the first RET.
  • the transmitter 21 is further configured to: after the processor 23 establishes a communication connection with the antenna device with respect to the first RET according to the identifier of the first RET, send the first to the antenna device
  • the RET management authority setting command, the first RET management authority setting command belongs to the newly added antenna interface standardized AISG interface command;
  • the receiver 22 is further configured to receive the first RET management authority setting successful response sent by the antenna device, so that The base station has the management authority to the first RET.
  • the management authority is set by the antenna device by default for the base station.
  • the transmitter 21 is specifically configured to send a first RET control authority setting command to the antenna device, where the receiver 22 is configured to receive a first RET control permission setting success response sent by the antenna device, where Administrative privileges include control permissions.
  • the processor 23 is further configured to determine, after the receiver 22 receives the first RET control permission setting success response sent by the antenna device, whether the base station needs to release the first RET
  • the controller 21 is further configured to: when the processor 23 determines that the control authority possessed by the first RET needs to be released, send a first RET query authority setting command to the antenna device; the receiver 22 further And receiving a first RET query permission setting sent by the antenna device to successfully respond, so that the base station has the query right of the first RET.
  • the management authority set by the antenna device by default includes: Controlling authority; wherein the first base station has established a communication connection with the antenna device regarding the first RET and has control authority for the first RET.
  • the transmitter 21 is further configured to: after the processor 23 establishes a communication connection with the antenna device with respect to the first RET according to the identifier of the first RET, send a first RET control command to the antenna device;
  • the device 22 is further configured to receive a first RET control success response sent by the antenna device.
  • the transmitter 21 is specifically configured to send a first RET query permission setting command to the antenna device.
  • the receiver 22 is further configured to receive a first RET query permission setting success response sent by the antenna device, where the management authority includes a query permission.
  • the transmitter 21 is further configured to send a first RET control authority setting command to the antenna device before sending the first RET query authority setting command to the antenna device; the receiver 22 is further configured to receive the antenna.
  • the management authority set by the antenna device by default includes an inquiry. Privilege, the first base station is established with the antenna device about the first
  • the transmitter 21 is further configured to: after the processor 23 establishes a communication connection with the antenna device with respect to the first RET according to the identifier of the first RET, send a first RET query command to the antenna device; 22 is further configured to receive a first RET query result sent by the antenna device.
  • the transmitter 21 is specifically configured to send a first RET exclusive permission setting command to the antenna device, where the receiver 22 is configured to receive a first RET exclusive permission setting successful response sent by the antenna device, where The administrative rights include exclusive rights.
  • the transmitter 21 is further configured by the processor 23 according to the identifier of the first RET, and the day After the line device establishes a communication connection with respect to the first RET, sending a first RET permission read command to the antenna device, the first RET rights read command belongs to a newly added AISG interface command; the receiver 22 is further configured to receive The first RET authority result sent by the antenna device determines a management right that the base station has for the first RET.
  • the base station in this embodiment may be used to perform the technical solution executed by the base station in the following method embodiments of the present invention.
  • the implementation principle and technical effects are similar, and details are not described herein again.
  • the antenna device of this embodiment may include: a receiving unit 31, a sending unit 32, and a processing unit 33, where the receiving unit 31 is configured to receive a base station. a scanning command for instructing the antenna device to send an identifier of all remote tonal units RET to the base station; the sending unit 32 is configured to send an identifier of all RETs to the base station; And configured to establish, by the base station, a communication connection with respect to the first RET, where the first RET is any one of the antenna devices, where the first RET is managed by the base station.
  • the antenna device in this embodiment is a multi-frequency electronically-tuned antenna.
  • the interaction between the antenna device and one of the plurality of base stations is taken as an example.
  • the implementation manners of other base stations are similar, wherein the antenna device needs to pass through the antenna device.
  • the AISG port receives control signaling sent by the base station.
  • the base station When the base station needs to configure the RET, the base station sends a scan command to the antenna device, where the scan command is used to instruct the antenna device to send the identifier of all RETs in the antenna device to the base station, and the receiving unit of the antenna device receives the base station to send a scan command, whether the base station and the antenna device establish a communication connection with the RET in the antenna device, the sending unit of the antenna device sends the identifier of all RETs in the antenna device to the antenna device according to the scan command.
  • the scan command is used to instruct the antenna device to send the identifier of all RETs in the antenna device to the base station
  • the receiving unit of the antenna device receives the base station to send a scan command, whether the base station and the antenna device establish a communication connection with the RET in the antenna device, the sending unit of the antenna device sends the identifier of all RETs in the antenna device to the antenna device according to the scan command.
  • the sending unit of the antenna device can send all the RET identifiers to the base station at one time, or can send all the RET identifiers to the base station multiple times (for example, the antenna device only needs to send a part of the RET identifier at a time and needs to send multiple times to make
  • the base station obtains the identifier of all RETs, and the identifier of the RET may be the sequence number of the RET, and then the processing unit of the antenna device may establish a communication connection with the base station for any RET, and the base station may also establish at least one RET related to the antenna device. Communication connection.
  • the processing unit of the antenna device can establish a communication connection with the base station for the first RET, and then the base station can have the management right for the first RET, and the subsequent base station can pass the first RET.
  • the first RET is managed by the link, and the management authority may be configured by the base station or may be configured by default. The embodiment of the present invention does not limit this.
  • the management authority includes at least one of the following: control permission, query permission, and exclusive permission. It is worth noting that the base station having the control authority for the RET has the query permission for the RET by default.
  • the management authority in the embodiment of the present invention is not limited to the above-mentioned authority.
  • the antenna device only sends the identifier of the RET that is not configured by the base station to the requesting base station. If the first base station has configured the first RET, the second RET, and the third RET, the second base station cannot be configured. a RET, and the second RET and the third RET are actually configured by the second base station. When the first base station and the second base station belong to different operators, the second base station cannot determine whether the first base station configuration error or the antenna device is The physical connection between the SBTs is broken, so that the problem cannot be quickly located.
  • the sending unit of the antenna device sends the identifiers of all the RETs to all the base stations.
  • the base station does not receive the identifier of the RET sent by the antenna device, the physics of the antenna device and the SBT may be determined.
  • the connection is disconnected, so that the problem is quickly located, the operation and maintenance success is reduced, and the operation and maintenance efficiency and quality are improved.
  • the receiving unit 31 is further used in the processing unit.
  • the processing unit 33 is further configured to, after establishing a communication connection with the base station about the first RET, set the base station to have the said first RET by default. Administrative rights.
  • the receiving unit 31 is specifically configured to receive a first RET control authority setting command sent by the base station, where the sending unit 32 is configured to send a first RET control authority setting success response to the base station, where the management authority Includes control permissions.
  • the receiving unit 31 is further configured to: after the sending unit 32 sends the first RET control authority setting success response to the base station, receive the first RET query authority setting command sent by the base station; The base station sends a first RET query authority setting success response, so that the base station has the query right of the first RET.
  • the processing unit 33 is specifically configured to: if the first RET is established with the base station If the first base station does not exist in the communication connection, the base station has the control right to the first RET by default, and the first base station has established a communication connection with the antenna device regarding the first RET and owns Another base station that has control authority over the first RET.
  • the receiving unit 31 is further configured to: after the processing unit 33 establishes a communication connection with the base station about the first RET, receive a first RET control command sent by the base station; the processing unit 33 is further configured to use, according to the a RET control command is used to perform control processing on the first RET; the sending unit 32 is further configured to send a first RET control success response to the base station.
  • the receiving unit 31 is configured to receive a first RET query permission setting command sent by the base station, where the sending unit 32 is configured to send a first RET query permission setting success response to the base station, where the management authority is Includes query permissions.
  • the receiving unit 31 is further configured to: before receiving the first RET query right setting command sent by the base station, receive a first RET control authority setting command sent by the base station; the sending unit 32 is further configured to: if the receiving unit After receiving the first RET control authority setting command sent by the first base station, the first RET control rights conflict response is sent to the base station, and the first base station has established with the antenna device about the first RET. Communication connection.
  • the processing unit 33 is specifically configured to: if the first base station already exists when establishing a communication connection with the base station for the first RET, the base station is configured to have the query right of the first RET by default.
  • the first base station is a base station that has established a communication connection with the antenna device with respect to the first RET and has control authority for the first RET.
  • the receiving unit 31 is further configured to: after the processing unit 33 establishes a communication connection with the base station about the first RET, receive a first RET query command sent by the base station; the processing unit 33 is further configured to use, according to the The RET query command is used to query the first RET.
  • the sending unit 32 is further configured to send the first RET query result to the base station.
  • the receiving unit 31 is specifically configured to receive a first RET exclusive permission setting command sent by the base station, where the sending unit 32 is configured to send a first RET exclusive permission setting success response to the base station, where Administrative privileges include exclusive permissions.
  • the receiving unit 31 is further configured to: after the processing unit 33 establishes a communication connection with the base station about the first RET, receive a first RET permission read command sent by the base station, where the first RET permission read The command belongs to the newly added AISG interface command; the sending unit 32 is further configured to send a first RET permission result to the base station, so that the base station determines that the base station is to the first RET The administrative rights that you have.
  • the antenna device in this embodiment may be a multi-frequency electrical adjustment antenna device.
  • the antenna device of the present embodiment can be used to implement the technical solution of the antenna device in the following method embodiments of the present invention.
  • the implementation principle and technical effects are similar, and details are not described herein again.
  • the antenna device of this embodiment may include: a receiver 41, a transmitter 42 and a processor 43, wherein the receiver 41 is configured to receive a base station. a scanning command for instructing the antenna device to send an identifier of all remote tonal units RET to the base station; the transmitter 42 is configured to send the identifiers of all the RETs to the base station; The device 43 is configured to establish a communication connection with the base station, where the first RET is any one of the antenna devices, where the first RET is managed by the base station.
  • the receiver 41 is further configured to: after the processor 43 establishes a communication connection with the base station about the first RET, receive the first RET management permission setting command sent by the base station.
  • the first RET management authority setting command belongs to the newly added AISG interface command.
  • the transmitter 42 is further configured to send a first RET management authority setting success response to the base station, so that the base station owns the first RET. Administrative rights.
  • the processor 43 is further configured to: after the establishing a communication connection with the base station about the first RET, set the base station to have the Administrative rights.
  • the receiver 41 is specifically configured to receive a first RET control permission setting command sent by the base station, where the transmitter 42 is configured to send a first RET control permission setting success response to the base station, where the management authority is Includes control permissions.
  • the receiver 41 is further configured to: after the transmitter 42 sends the first RET control authority setting success response to the base station, receive the first RET query authority setting command sent by the base station; the transmitter 42 is further used to The base station sends a first RET query authority setting success response, so that the base station has the query right of the first RET.
  • the processor 43 is specifically configured to: if the first base station does not exist when establishing a communication connection with the base station for the first RET, the base station is configured to have the control right of the first RET by default.
  • the first base station is another base station that has established a communication connection with the antenna device with respect to the first RET and has control authority for the first RET.
  • the receiver 41 is further configured to: after the processor 43 establishes a communication connection with the base station about the first RET, receive a first RET control command sent by the base station; the processor 43 is further configured to use, according to the A RET control command is used to perform control processing on the first RET; the transmitter 42 is further configured to send a first RET control success response to the base station.
  • the receiver 41 is specifically configured to receive a first RET query permission setting command sent by the base station, where the transmitter 42 is configured to send a first RET query permission setting success response to the base station, where the management authority is Includes query permissions.
  • the receiver 41 is further configured to: before receiving the first RET query permission setting command sent by the base station, receive a first RET control permission setting command sent by the base station; and the transmitter 42 is further configured to: if the receiver After receiving the first RET control authority setting command sent by the first base station, the first RET control right conflict response is sent to the base station, and the first base station has established a first RET with the antenna device. Communication connection.
  • the processor 43 is specifically configured to: if the first base station already exists when establishing a communication connection with the base station for the first RET, the base station is configured to have the query right of the first RET by default.
  • the first base station is a base station that has established a communication connection with the antenna device with respect to the first RET and has control authority for the first RET.
  • the receiver 41 is further configured to: after the processor 43 establishes a communication connection with the base station about the first RET, receive a first RET query command sent by the base station; the processor 43 is further configured to use, according to the The RET query command is used to query the first RET.
  • the transmitter 42 is further configured to send a first RET query result to the base station.
  • the receiver 41 is specifically configured to receive a first RET exclusive permission setting command sent by the base station, where the transmitter 42 is configured to send a first RET exclusive permission setting success response to the base station, where Administrative privileges include exclusive permissions.
  • the receiver 41 is further configured to: after the processor 43 establishes a communication connection with the base station about the first RET, receive a first RET permission read command sent by the base station, where the first RET permission is read.
  • the command belongs to the newly added AISG interface command; the transmitter 42 is further configured to send the first RET permission result to the base station, so that the base station determines the management authority that the base station has for the first RET.
  • the processor 43 of the antenna device of the embodiment may be an RCU, and the antenna device may be a multi-frequency electrical adjustment antenna device.
  • the antenna device of this embodiment may be used to perform the technical solution performed by the antenna device in the following method embodiments of the present invention. The implementation principle and technical effects are similar, and details are not described herein again.
  • FIG. 6 is a schematic structural diagram of an embodiment of a multi-frequency electronically-tuned antenna management system according to the present invention.
  • the system in this embodiment includes: a base station 10 and an antenna device 20, where the base station 10 can adopt the method shown in FIG. 2 or FIG.
  • the antenna device 20 can adopt the structure of any of the device embodiments shown in FIG. 4 or FIG. 5, and the antenna device 20 can be a multi-frequency electrical adjustment antenna device, which can correspondingly perform the antenna device in the following method embodiments of the present invention.
  • the implementation of the technical solution, its implementation principle and technical effect are similar, and will not be described here.
  • FIG. 7 is a flowchart of Embodiment 1 of a method for managing a multi-frequency electronically-tuned antenna according to the present invention. As shown in FIG. 7, the method in this embodiment may include:
  • the base station sends a scan command to the antenna device, where the scan command is used to instruct the antenna device to send all the identifiers of the RET to the base station.
  • the base station receives the identifiers of all the RETs sent by the antenna device.
  • the base station establishes, according to the identifier of the first RET, the first device with the antenna device.
  • the first RET being any RET in the antenna device.
  • RET when multiple base stations share the same multi-frequency electrical adjustment antenna device, multiple base stations need to jointly manage the same multi-frequency electrical adjustment antenna device, that is, multiple base stations need to jointly manage the multi-frequency electrical adjustment antenna device.
  • RET one RET corresponds to one frequency band.
  • one of the plurality of base stations is taken as an example for description, and the implementation manners of the other base stations are similar.
  • the antenna device in this embodiment is a multi-frequency electrical adjustment antenna, where the control signaling transmitted by the base station to the antenna device is required. The antenna device is reached via the AISG port of the antenna device.
  • the base station When the base station needs to configure the RET, the base station sends a scan command to the antenna device, where the scan command is used to instruct the antenna device to send the identifier of all RETs in the antenna device to the base station, and the antenna device receives the scan command sent by the base station.
  • the antenna device sends the identifier of all RETs in the antenna device to the base station according to the scan command, and the identifier of the RET may be The sequence number of the RET, and then the base station receives the identifiers of all the RETs sent by the antenna device, where the base station can receive the identifiers of all the RETs sent by the antenna device at one time, or can receive the identifiers of all the RETs sent by the antenna device multiple times (for example, the base station).
  • a communication connection can be established with the antenna device for any RET, and the base station can also establish a communication connection with the antenna device for at least one RET.
  • the base station and the antenna device establish a communication connection with one of the RETs (for example, the first RET), and the base station may establish a communication connection with the antenna device for the first RET according to the identifier of the first RET.
  • the specific implementation process may be: The base station adds the identifier of the first RET to the list of RETs managed by the base station, and then the base station sends the first RET identifier addition command to the antenna device, and the antenna device receives the first RET identifier addition command sent by the base station, That is, the base station and the antenna device have established a communication connection with respect to the first RET, and then the base station can have the management right for the first RET, and the subsequent base station can manage the first RET by using the communication connection with the first RET,
  • the management authority may be configured by the base station or may be configured by default. The embodiment of the present invention does not limit this.
  • the management authority includes at least one of the following: control authority, query authority, and exclusive authority. It is noted that the base station having the control authority for the RET has the query permission for the RET by default. However, the management authority in the embodiment of the present invention is not limited to the above-mentioned authority.
  • the other base stations may also establish a communication connection with the antenna device for the first RET according to the steps of S101-S103, and therefore, multiple base stations and antenna devices may be established.
  • the communication connection of the same RET it should be noted that, in this case, only one base station has the control authority in the management authority for the first RET.
  • the method of the present invention is not limited to the following two implementation manners, so that the base station has the management rights to the first RET.
  • the base station sends a first RET management authority setting command to the antenna device, where the first RET management authority setting command belongs to a newly added AISG interface command;
  • the first RET management authority setting sent by the antenna device is successfully responded, so that the base station has the management authority for the first RET.
  • the base station may actively set the management right owned by the first RET, that is, the base station may send a first RET management authority setting command to the antenna device, where the first RET management authority Set the command to the new AISG interface command.
  • the antenna device receives the first RET management authority setting command sent by the base station, and learns that the base station determines to actively configure the management right of the first RET, and then the antenna device sends a first RET management authority setting success response to the base station, to notify the base station that the pair has been successfully configured.
  • the management right of the first RET and then the base station receives the first RET management authority setting sent by the antenna device to successfully respond, so that the base station has the right The management right of the first RET, so that the base station can actively configure the management authority for the RET. It should be noted that, when the base station needs to re-establish a communication connection with the first RET with the antenna device, the base station needs to send the first RET management right setting command again and receive the first RET management permission setting success response, so as to have the right A RET management authority.
  • the management right of the first RET owned by the base station is set by the antenna device for the base station, and after the base station establishes a communication connection with the antenna device for the first RET, the base station may not The management authority of the first RET needs to be set actively, but the management authority of the first RET is set by the antenna device by default, that is, after the communication connection is established, the antenna device defaults to the base station owning the The first RET management authority.
  • the antenna device only sends the identifier of the RET that is not configured by the base station to the requesting base station. If the first base station has configured the first RET, the second RET, and the third RET, the second base station cannot be configured. a RET, and the second RET and the third RET are actually configured by the second base station. When the first base station and the second base station belong to different operators, the second base station cannot determine whether the first base station configuration error or the antenna device is The physical connection between the SBTs is broken, so that the problem cannot be quickly located. In the embodiment of the present invention, the antenna device sends the identifiers of all the RETs to all the base stations.
  • the base station does not receive the identifier of the RET sent by the antenna device, it may be determined that the physical connection between the antenna device and the SBT is disconnected. Therefore, the problem is quickly located, the operation and maintenance cost is reduced, and the operation and maintenance efficiency and quality are improved.
  • FIG. 8 is a flowchart of Embodiment 2 of a method for managing a multi-frequency electronically-tuned antenna according to the present invention. As shown in FIG. 8, the method in this embodiment may include:
  • the antenna device receives a scan command sent by the base station, where the scan command is used to instruct the antenna device to send all the identifiers of the RET to the base station.
  • the antenna device sends the identifier of all the RETs to the base station.
  • the antenna device establishes a communication connection with the base station about a first RET, where the first RET is any RET in the antenna device.
  • the antenna device in this embodiment is a multi-frequency electronically-tuned antenna.
  • the interaction between the antenna device and one of the plurality of base stations is taken as an example.
  • the implementation manners of other base stations are similar, wherein the antenna device needs to pass through the antenna device.
  • the AISG port receives control signaling sent by the base station.
  • the base station When the base station needs to configure the RET, the base station sends a scan command to the antenna device, where the scan command is used to instruct the antenna device to send the identifier of all RETs in the antenna device to the base station, and the antenna device receives the scan command sent by the base station.
  • the antenna device sends the identifiers of all the RETs in the antenna device to the base station according to the scan command, where the antenna device
  • the identifiers of all RETs can be sent to the base station at one time, and the identifiers of all RETs sent to the base station can be sent to the base station multiple times (for example, the antenna device only needs to send a part of the RET identifier at a time and needs to send multiple times to enable the base station to obtain the identifiers of all RETs), RET
  • the identifier may be the serial number of the RET, and then the antenna device may establish a communication connection with the base station for any RET, and the base station may also establish a communication connection with the antenna device regarding at least one RET.
  • the communication device may establish a communication connection with the base station for the first RET.
  • the specific implementation process may be: the base station adds the identifier of the first RET to the base station.
  • the base station sends the first RET identifier addition command to the antenna device.
  • the antenna device After receiving the first RET identifier addition command sent by the base station, the antenna device indicates that the base station and the antenna device have established the first RET.
  • the communication connection the base station may have the management right of the first RET, and the subsequent base station may manage the first RET by using the communication connection with the first RET, where the management authority may be actively configured by the base station or may be an antenna device.
  • the embodiment of the present invention does not limit this.
  • the management authority includes at least one of the following: control authority, query authority, and exclusive authority. It is noted that the base station having the control authority for the RET has the query permission for the RET by default. However, the management authority in the embodiment of the present invention is not limited to the above-mentioned authority.
  • the antenna device may also establish a communication connection with the other base station for the first RET according to the steps of S201-S203 above. Therefore, the antenna device may be established with multiple base stations.
  • the communication connection of the same RET it should be noted that, in this case, only one base station has the control authority in the management authority for the first RET.
  • the method of the present invention is not limited to the following two implementation manners, so that the base station has the management rights to the first RET.
  • the antenna device receives a first RET management authority setting command sent by the base station, where the first RET management authority setting command belongs to a newly added AISG interface command;
  • the base station sends a first RET management authority setting success response, so that the base station has the management right to the first RET.
  • the base station may actively set the management right owned by the first RET, that is, the base station may send a first RET management authority setting command to the antenna device, where the first RET management authority Set the command to the new AISG interface command.
  • the antenna device receives the first RET management authority setting command sent by the base station, and learns that the base station determines to actively configure the management right of the first RET, and then the antenna device sends a first RET management authority setting success response to the base station, to notify the base station that the pair has been successfully configured.
  • the management authority of the first RET, and then the base station receives the first RET management authority setting success response sent by the antenna device, so that the base station has the management right of the first RET, so that the base station can actively configure the management authority for the RET.
  • the antenna device needs to receive the first RET management authority setting command sent by the base station again and send the first RET management to the base station.
  • the permission setting is successfully responded to determine that the base station has the management right for the first RET.
  • the antenna device presets that the base station has the management right of the first RET. After the base station establishes a communication connection with the antenna device for the first RET, the base station may not need to actively set the management right owned by the first RET, but the antenna device sets the management authority of the first RET to the first RET by default. That is, after the above communication connection is established, the antenna device defaults to the base station having the management right for the first RET.
  • the antenna device only sends the identifier of the RET that is not configured by the base station to the requesting base station. If the first base station has configured the first RET, the second RET, and the third RET, the second base station cannot be configured. a RET, and the second RET and the third RET are actually configured by the second base station. When the first base station and the second base station belong to different operators, the second base station cannot determine whether the first base station configuration error or the antenna device is The physical connection between the SBTs is broken, so that the problem cannot be quickly located. In the embodiment of the present invention, the antenna device sends the identifiers of all the RETs to all the base stations.
  • the base station may be determined that the physical connection between the antenna device and the SBT is disconnected. Therefore, the problem is quickly located, the operation and maintenance success is reduced, and the operation and maintenance efficiency and quality are improved.
  • FIG. 9 is a flowchart of Embodiment 3 of a method for managing a multi-frequency electronically-tuned antenna according to the present invention.
  • the management authority of the base station for the first RET is set by the base station, and the method in this embodiment may include: S301, sending Scan command.
  • the base station may actively set the management right owned by the first RET, where the management authority includes the control authority, that is, the base station may send the first RET control permission setting command to the antenna device.
  • the first RET control permission setting command is a new AISG interface command. It should be noted that the base station sends the first RET control authority setting command, that is, the base station needs to configure the control right of the first RET, when the base station has the right When the control authority of the first RET is normal, the base station has the query right of the first RET.
  • the antenna device receives the first RET control authority setting command sent by the base station, and learns that the base station determines to actively configure the control right of the first RET, and then the antenna device sends a first RET control authority setting success response to the base station, to notify the base station that the base station has successfully configured Controlling the first RET, and then the base station receives the first RET control authority setting success response sent by the antenna device, so that the base station has the control right of the first RET, so that the base station can actively configure and have the control of the RET. Permissions.
  • the antenna device sends a first RET control permission setting success response to the base station.
  • the base station when the base station establishes a communication connection with the antenna device about the first RET, the base station other than the base station establishes a communication connection with the antenna device about the first RET, that is, at this time, The antenna device establishes a communication connection with the first eNB only for the first RET. Therefore, the antenna device receives the first RET control authority setting command sent by the base station, and determines the base station according to the fact that only one base station has the control authority for the first RET. It may have control authority for the first RET, and then send a first RET control authority setting success response to the base station to indicate that the base station may have control authority for the first RET.
  • the base station when the base station establishes a communication connection with the antenna device for the first RET, another base station establishes a communication connection with the antenna device for the first RET, that is, the antenna device has multiple The base station establishes a communication connection with respect to the first RET, and the other base stations only have the right to query the first RET. If the antenna device receives the first RET control permission setting command sent by the base station, according to only one base station, the first RET has control rights, determine this The base station may have control authority for the first RET, and then send a first RET control authority setting success response to the base station to indicate that the base station may have control authority for the first RET.
  • the base station needs to re-establish the communication connection with the first RET with the antenna device, the base station needs to have the control authority for the first RET by re-passing the manners of S304 and S305 as described above.
  • the method in this embodiment may further include:
  • Step 5307 Perform control processing on the first RET according to the first RET control command.
  • the base station may send the first RET control to the antenna device.
  • a command correspondingly, the antenna device receives the first RET control command sent by the base station, and performs control processing on the first RET according to the first RET control command, if the first RET control command is used to set the first RET downtilt angle
  • the antenna device sets the downtilt size of the first RET to the downtilt value required by the base station. If the first RET control command is a command for calibrating the first RET, the antenna device calibrates the first RET.
  • the antenna device sends a first RET control success response to the base station.
  • the base station receives the first RET control success response sent by the antenna device, indicating that the antenna device has processed the first RET according to the control indication of the base station.
  • the method in this embodiment may further include:
  • the base station after the base station receives the first RET control authority setting successfully sent by the antenna device, the base station needs to release the control right that the base station has for the first RET, for example, the base station acquires an instruction issued by the management personnel.
  • the command instructs the base station to release the control right of the base station to the first RET, and the base station determines that the base station needs to release the control authority of the first RET.
  • the manager of another base station triggers the negotiation with the administrator of the base station in this embodiment.
  • the base station sends a first RET query permission setting command to the antenna device, and the first RET query permission setting command belongs to the newly added AISG interface command.
  • the antenna device receives the first RET query authority setting command sent by the base station, and determines that the base station can have the query right of the first RET according to the principle that multiple base stations can have the same RET query right, and release the The base station has the control right of the first RET, and then the antenna device sends a first RET query right configuration success response to the base station, so that the base station has the right to query the first RET, and accordingly, the base station receives the antenna device to send The first RET query authority configuration is successfully responded, so that the base station releases the control right of the first RET and has the query right of the first RET, so that the base station can set the base station to the first RET through the AISG interface command in real time. Permission category.
  • the embodiment may further include:
  • the base station may send a first RET query command to the antenna device by using the AISG port, and correspondingly, the antenna device sends the base station to send through the AISG interface.
  • the first RET query command, and querying the first RET according to the first RET query command for example: the first RET query command may be a command for querying a first RET downtilt, and the antenna device is first The downtilt angle of RET is queried, and the downtilt angle of the first RET obtained by the query is the first RET query result. Then, the antenna device sends a first RET query result to the base station, and correspondingly, the base station receives the first RET query result sent by the antenna device, so that the base station can acquire the related information of the first RET.
  • the base station After the base station and the antenna device establish a communication connection with the first RET, the base station sends a first RET control authority command to the antenna device to set the base station to have the first RET. Control permissions.
  • the base station needs to release the control right owned by the base station, the base station sends a first RET query authority command to the antenna device to release the control right of the first RET owned by the base station, so that other base stations can own the first RET. Control permissions. Therefore, the base station can actively and in real time change the permission category of the first RET through the AISG interface command.
  • Embodiment 4 is a flowchart of Embodiment 4 of a method for managing a multi-frequency electrical adjustment antenna according to the present invention, as shown in FIG.
  • the management authority of the base station to the first RET is set by the base station, and the method in this embodiment may include:
  • the base station After the basic base station and the antenna antenna device are set up to establish a connection with the first RREETT, the base station can be set by the main active station.
  • the management authority permission limit includes enclosing the query permission limit, that is, the base station can be Sending a first RREETT query inquiry permission permission setting command to send a device to the antenna antenna line, the first first RREETT query inquiry right permission setting setting command command
  • the command command that is, the table indicates that the base station needs to be configured to set a check permission limit for the first RREETT.
  • the antenna antenna line device is configured to receive and receive the first RREETT query and query permission right limit setting and setting the command command, and obtain the knowledge base base station to determine the main active active configuration. Paired against the first first RREETT
  • the antenna line device is set up to send to the base station to send and send the first RREETT query query permission limit setting to set a successful power response response, so as to notify the base station that the base station has already been completed.
  • the successful configuration of the first RREETT is set to the first RREETT of the first RREETT, and then the first base RTRETT is sent by the base station to receive the antenna.
  • the real base station can realize the query and query permission limit of the RREETT in the active configuration.
  • the method of the embodiment of the present invention may also include a package:
  • the first RREETT is inquired for inquiry. .
  • the SS440066--SS440088 has a specific implementation process and the SS331111-SS331133 in the third embodiment of the present invention.
  • the specific implementation of the actual process class is similar, and will not be described here. .
  • the method of the embodiment of the present invention may further include a package before: executing the execution of the SS440044:
  • the base station may actively set the control right owned by the first RET, that is, the base station may send the first RET control permission setting command to the antenna device,
  • the base station sends a first RET control authority setting command, that is, the base station needs to configure the control authority for the first RET, and when the base station has the control authority for the first RET, the base station has the default RET. Query permissions.
  • the antenna device receives the first RET control authority setting command sent by the base station, and learns that the base station determines that the active configuration has the control authority for the first RET, and if the antenna device has established a communication connection with the first base station about the first RET, and the antenna device has Receiving the first RET control authority setting command sent by the first base station, that is, the first base station has actively set the control authority for the first RET.
  • the antenna device has the first RET control authority setting command sent by the base station in the embodiment, and the antenna device cannot determine that the base station has the control right of the first RET.
  • the antenna device sends a first RET control rights conflict response to the base station to notify the base station that the control authority of the first RET is configured to be in conflict, and then the base station receives the first RET control rights conflict response sent by the antenna device, so that the base station can determine the When the control authority of the first RET is not available, the base station actively configures the query permission for the RET, and sends a first RET query permission setting command to the antenna device according to the first RET control permission conflict response.
  • the specific implementation process is as shown in S404 and S405. Show.
  • the base station After the base station and the antenna device establish a communication connection with the first RET, the base station sends a first RET query authority command to the antenna device to set the base station to have the first RET. Query permissions. Further, when the base station setting has a conflict of control authority for the first RET, the base station may set the query right to the first RET. Therefore, the base station can actively and in real time change the permission category of the first RET through the AISG interface command.
  • FIG. 11 is a flowchart of Embodiment 5 of a method for managing a multi-frequency electronically-tuned antenna according to the present invention.
  • the management authority of the first RET by the base station may be set by default by the antenna device, and the method in this embodiment may include :
  • the base station has a control right of the first RET by default.
  • the base station may not need to actively set the management right owned by the first RET, but the antenna device sets the management authority of the base station by default.
  • the base station when the base station establishes a communication connection with the antenna device regarding the first RET, the other base stations other than the base station establish a communication connection with the antenna device regarding the first RET, that is, the antenna device at this time.
  • a communication connection with respect to the first RET is established only with the one base station.
  • the base station when the base station establishes a communication connection with the antenna device for the first RET, the first base station does not exist, and the first base station has established a communication connection with the antenna device regarding the first RET and has the first RET.
  • Controlling authority that is, another base station has established a communication connection with the antenna device regarding the first RET, that is, the antenna device has established a communication connection with the plurality of base stations regarding the first RET, and the other base stations only have the first connection Query permission for RET.
  • the antenna device can set the base station to have control of the first RET by default.
  • the method in this embodiment may further include:
  • the specific implementation process of the S505-S507 is similar to the specific implementation process of the method embodiment S306-S308 of the present invention, and details are not described herein again.
  • the base station set by the antenna device has the control right of the first RET.
  • the base station has the priority to set the control right of the first RET, that is, the antenna device has set the base station to have the first RET by default.
  • the control authority when the other base station sends the first RET control authority setting command, the antenna device releases the control authority of the first RET that was previously set by default. Therefore, optionally, the method in this embodiment may further include:
  • FIG. 12 is a flowchart of Embodiment 6 of a multi-frequency electrical adjustment antenna management method according to the present invention, as shown in FIG.
  • the management rights of the base station to the first RET may be set by default by the antenna device.
  • the method in this embodiment may include:
  • the base station has a query permission for the first RET by default.
  • the base station may not need to actively set the management right owned by the first RET, but the antenna device sets the management authority of the base station by default.
  • the base station establishes a communication connection with the antenna device for the first RET, the first base station already exists, the first base station has established a communication connection with the antenna device regarding the first RET and has control authority for the first RET, at this time, the antenna The device has established a communication connection with the plurality of base stations for the first RET. According to the principle that only one base station has the control authority for the first RET, the antenna device can set the base station to have the query right of the first RET by default.
  • the method in this embodiment may further include:
  • the base station since the management authority of the first RET owned by the base station is set by the antenna device, the base station does not determine the permission type owned by the base station, and if the base station sends the first RET control command to the antenna device, the antenna device receives the base station. After the first RET control command is sent, the antenna device sets the base station to have the first RET control permission conflict response, and the base station receives the first RET control permission conflict sent by the antenna device. In response, the base station can determine that it does not have control rights to the first RET but that other base stations already have control rights to the first RET.
  • the base station may actively set the control right of the first RET.
  • the base station may actively set the control right of the first RET.
  • FIG. 13 is a flowchart of Embodiment 7 of a method for managing a multi-frequency electronically-tuned antenna according to the present invention.
  • the management authority of the base station for the first RET can be set by the base station, and the method in this embodiment can be Includes:
  • the base station may actively set the management right owned by the first RET, and the management authority includes exclusive rights, that is, the base station may send the first RET exclusive permission to the antenna device.
  • the setting command, the first RET exclusive permission setting command is a new AISG interface command. It should be noted that the base station sends the first RET exclusive permission setting command, that is, the base station needs to configure the exclusive permission for the first RET.
  • the base station has the exclusive right to the first RET, the base station has the control right to the first RET by default.
  • the antenna device receives the first RET exclusive permission setting command sent by the base station, and learns that the base station determines to actively configure the exclusive right to the first RET, and then the antenna device sends the first RET exclusive permission setting success response to the base station, and further, the antenna
  • the device determines that the first RET exclusive permission setting command sent by the first base station is not received
  • the device sends a first RET exclusive permission setting success response to the base station to notify the base station that the control right of the first RET has been successfully configured, and then the base station
  • the first RET exclusive permission setting sent by the receiving antenna device is successfully responded, so that the base station has the exclusive right to the first RET, and the first base station has established a communication connection with the antenna device regarding the first RET.
  • the antenna device has established a communication connection with the first RET with the plurality of base stations, and the antenna device will release the control authority or the query permission of the other base station for the first RET. At this time, the other base stations cannot control the first RET and/or Or query.
  • the antenna device will reply to the first RET exclusive permission conflict response.
  • FIG. 14 is a flowchart of Embodiment 8 of the method for managing a multi-frequency electronically-tuned antenna according to the present invention. As shown in FIG. 14, the method of this embodiment is based on the foregoing method embodiments of the present invention. The method in this embodiment may include:
  • the base station may send a first RET permission read command to the antenna device, where the first RET permission read command belongs to the new one.
  • the AISG interface command correspondingly, the antenna device receives the first RET permission read command sent by the base station, determines the management right of the first RET owned by the base station at this time, and then sends the first RET permission result to the base station, and accordingly, The base station receives the first RET permission result sent by the antenna device, so that the base station determines the management authority that the base station has for the first RET.
  • the result of the first RET permission may be a control right, or a query right, or an exclusive right, or a null right. If other base stations already have exclusive rights to the first RET, the base station has empty authority for the first RET (ie, no rights).
  • FIG. 15 is a schematic diagram of an application scenario of a multi-frequency electrical adjustment antenna management method according to the present invention.
  • the communication between the base station and the antenna device passes through a radio remote unit (Radio Remote Unit, RRU), an RRU, and an antenna.
  • RRU Radio Remote Unit
  • SBT is set between the AISG ports of the device. SBT is used to divert data sent by the base station to the antenna. All data sent by the base station to the antenna device reaches the SBT through the RRU, and the SBT sends control data to the AISG port of the antenna device to reach the antenna device.
  • the SBT sends the service data to the radio frequency (Radio Frequency, RF for short) of the antenna device to reach the antenna device.
  • the method embodiments of the present embodiment can be applied to the application scenario shown in FIG. 15, and the following two embodiments are illustrated in the application scenario shown in FIG.
  • FIG. 16 is a flowchart of Embodiment 9 of a method for managing a multi-frequency electronically-tuned antenna according to the present invention.
  • this embodiment uses an RET (for example, RET1) in an antenna device as an example.
  • the method in this embodiment may be used.
  • the base station 1 can send a scan command to the antenna device through the AISG1 port of the antenna device, where the scan command is used to instruct the antenna device to send all the identifiers of the RET to the base station 1. Then, the antenna device transmits the identifier of RET1, the identifier of RET2, and the identifier of RET3 to the base station 1 according to the scan command. Then, the base station 1 can establish a communication connection with the antenna device regarding the RET1 with the identifier of RET1. Pick up.
  • the base station 1 can be configured to have control permission for RET1, and send a RET1 control authority setting command to the antenna device through the AISG1 port; when the antenna device determines that the base station does not have control authority for the REI1 at this time, the antenna device returns a RET1 control authority setting to the base station to successfully respond. Therefore, the base station 1 has the control right of the RET1, and then the base station 1 can perform the control and/or the query by the RET1.
  • the base station 2 can send a scan command to the antenna device through the AISG2 port of the antenna device, where the scan command is used to instruct the antenna device to send all the identifiers of the RET to the base station 2. Then, the antenna device transmits the identifier of RET1, the identifier of RET2, and the identifier of RET3 to the base station 2 according to the scan command. The base station 2 can then establish a communication connection with the antenna device regarding RET1 with the identity of RET1.
  • the base station 2 is configured to have control permission for the RET1, and can send a RET1 control authority setting command to the antenna device through the AISG1 port; at this time, the antenna device determines that the base station 1 has the control authority for the REI1, and the antenna device can only have one base station for the same RET. With control permission, the RET1 control authority conflict response is returned to the base station, indicating that the base station 2 cannot have control authority for RET1 at this time.
  • the base station 2 can send the RET1 query to the antenna device through the AISG2 port of the antenna device. Permission setting command.
  • the antenna device can have the right to query the same RET according to multiple base stations, and send the RET1 query permission to the base station 2 to set a successful response.
  • the base station 2 can then perform the query by using the RET1.
  • the method for managing the multi-frequency electrical adjustment antenna transmits the identifiers of RET1, RET2, and RET3 to both the base station 1 and the base station 2 through the antenna device, thereby solving the problems in the prior art, and the antenna device supports the base station 1 and Base station 2 establishes a communication connection with respect to the same RET, Each base station can set different rights to the same RET, so that the base station 1 can control both RET1 and RET1 information with the base station 2.
  • the base station 2 that sets the control authority to the antenna device reports the control permission conflict, so that the control rights of the same RET can be negotiated between the base stations.
  • FIG. 17 is a flowchart of Embodiment 10 of a method for managing a multi-frequency electronically-tuned antenna according to the present invention.
  • this embodiment uses an RET (for example, RET1) in an antenna device as an example.
  • the method in this embodiment may be used.
  • the specific implementation process of the S1001-1010 is similar to the specific implementation process of the S901-S910 in the ninth embodiment of the present invention, and details are not described herein again.
  • S1011 Send a RET1 query permission setting command.
  • the base station 2 if the base station 2 actually has the control authority for RET1, it indicates that the configuration of the RET1 of the base station 1 is in error.
  • the administrator of the base station 2 After the base station 2 receives the first RET control authority conflict command sent by the antenna device, the administrator of the base station 2 The administrator of the base station 1 may be required to release the control right of the RET1, and then the base station 1 may send a RET1 query authority setting command to the antenna device through the AISG1 port of the antenna device to release the control right of the RET1, and the antenna device sends the RET1 query to the base station 1.
  • the permission setting successfully responds, indicating that the base station 1 has successfully released the control authority for RET1 and has the query right for RET1.
  • the base station 2 can send a RET1 control authority setting command to the antenna device through the AISG2 port of the antenna device, to set the control authority for the RET1, and the antenna device to the base station 2 Sending the RET1 query permission setting successfully responds, indicating that the base station 2 has successfully obtained the control right of RET1 and has the query right of RET1.
  • the method for managing the multi-frequency electrical adjustment antenna transmits the identifiers of RET1, RET2, and RET3 to both the base station 1 and the base station 2 through the antenna device, thereby solving the problems in the prior art, and the antenna device supports the base station 1 and
  • the base station 2 establishes a communication connection with respect to the same RET, and each base station can set different rights to the same RET, so that the base station 1 can control both RET1 and RET1 information with the base station 2.
  • the base station 2 that sets the control authority to the antenna device reports the control right conflict.
  • the base station 1 releases the control right of the RET1, and the base station 2 re-
  • the control authority for the RET is configured so that the base station 2 can control both RET1 and RET1 information with the base station 1.

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Abstract

本发明实施例提供一种多频电调天线管理方法、装置和系统,其中,参与多频电调天线管理的基站包括:发送单元,用于通过向天线设备发送扫描命令,所述扫描命令用于指示所述天线设备将所有的远程电调单元RET的标识发送给所述基站;接收单元,用于接收所述天线设备发送的所述所有RET 的标识;处理单元,用于根据所述接收单元接收的第一RET的标识,与所述天线设备建立关于第一RET的通信连接,所述第一RET为所述天线设备中的任一RET;其中,所述基站拥有对所述第一RET的管理权限。由于基站可以接收所有RET的标识,当基站不能配置RET时可以快速定位问题,降低了运维成本,提高了运维效率和质量。

Description

多频电调天线管理方法、 装置和系统
技术领域
本发明实施例涉及通信技术领域,尤其涉及一种多频电调天线管理方法、 装置和系统。 背景技术
目前, 将远程控制单元(Remote Control Unit, 简称: RCU)放置在天线 中,可以免去记录天线与远程电调单元(Remote Electrical Tilting,简称: RET) 的映射关系, 简化天线与 RET的配置过程, 使得天线与 RET安装更加方便、 快捷, 同时为了减少天线安装次数和节约天线的占用空间, 也可以采用一个 多频天线来实现多个频段覆盖同一个区域, 因此多个 RET内置于多频天线中 成为天线发展的趋势, 当多个基站共用一个多频电调天线时, 需要管理多个 基站与同一个多频电调天线之间的关系。
现有技术中, 如图 1所示, 一个 RET只能由一个基站进行配置, 基站 1 通过天线接口标准化 (Antenna Interface Standard Group, 简称: AISG) 端口 1扫描到 RCU上报的 RET1、 RET2和 RET3的信息后, 基站 1选择与 RET1 建立通信连接并配置该 RET1 ;然后基站 2通过 AISG2端口扫描到 RCU上报 的 RET2和 RET3的信息(RET1由基站 1配置, RCU将不上报 RET1的信息), 基站 2选择与 RET2和 RET3建立通信连接并配置 RET2和 RET3, 从而实现 多个基站共同管理同一个多频电调天线。
然而, 现有技术中若基站 1配置出错, 即基站 1选择与 RET1、 RET2和 RET3建立通信连接配置这些 RET,则基站 2通过 AISG2端口将扫描不到 RCU 上报的任何 RET的信息, 因此, 无法直接确定是基站 1配置出错还是 AISG2 与智能偏置器 (Smart Bias-Tee, 简称: SBT) 之间的物理连线断开, 从而无 法快速定位问题, 增加了运维成本。 发明内容
本发明实施例提供的多频电调天线管理方法、 装置和系统, 用于快速定 位问题, 降低了运维成本, 提高了运维效率和质量。
第一方面, 本发明实施例提供一种基站, 包括:
发送单元, 用于通过向天线设备发送扫描命令, 所述扫描命令用于指示 所述天线设备将所有的远程电调单元 RET的标识发送给所述基站;
接收单元, 用于接收所述天线设备发送的所述所有 RET的标识; 处理单元, 用于根据所述接收单元接收的第一 RET的标识, 与所述天线 设备建立关于第一 RET的通信连接, 所述第一 RET为所述天线设备中的任 一 RET;
其中, 所述基站拥有对所述第一 RET的管理权限。
在第一方面的第一种可能的实现方式中, 所述发送单元还用于在所述处 理单元根据第一 RET的标识, 与所述天线设备建立关于第一 RET的通信连 接之后, 向所述天线设备发送第一 RET管理权限设置命令, 所述第一 RET 管理权限设置命令属于新增的天线接口标准化 AISG接口命令;
所述接收单元还用于接收所述天线设备发送的第一 RET管理权限设置成 功响应, 以使所述基站拥有对所述第一 RET的所述管理权限。
在第一方面的第二种可能的实现方式中, 所述管理权限由所述天线设备 为所述基站所默认设置。
结合第一方面的第二种可能的实现方式中, 在第一方面的第三种可能的 实现方式中,所述发送单元具体用于向所述天线设备发送第一 RET控制权限 设置命令;
所述接收单元具体用于接收所述天线设备发送的第一 RET控制权限设置 成功响应;
其中, 所述管理权限包括控制权限。
结合第一方面的第三种可能的实现方式, 在第一方面的第四种可能的实 现方式中, 所述处理单元用于在所述接收单元接收所述天线设备发送的第一 RET控制权限设置成功响应之后, 确定所述基站是否需要释放对所述第一 RET所拥有的控制权限;
所述发送单元还用于, 当所述处理单元确定需要释放对所述第一 RET所 拥有的控制权限时, 向所述天线设备发送第一 RET查询权限设置命令;
所述接收单元还用于接收所述天线设备发送的第一 RET查询权限设置成 功响应, 以使所述基站拥有对所述第一 RET的查询权限。
结合第一方面的第二种可能的实现方式, 在第一方面的第五种可能的实 现方式中, 若在所述基站根据第一 RET的标识与所述天线设备建立关于第一
RET的通信连接时未存在第一基站时, 则所述天线设备所默认设置的所述管 理权限包括控制权限;
其中, 所述第一基站已与所述天线设备建立关于所述第一 RET的通信连 接并且拥有对所述第一 RET的控制权限。
结合第一方面的第三种可能的实现方式或第一方面的第四种可能的实现 方式或第一方面的第五种可能的实现方式, 在第一方面的第六种可能的实现 方式中, 所述发送单元, 还用于在所述处理单元根据第一 RET的标识, 与所 述天线设备建立关于第一 RET 的通信连接之后, 向所述天线设备发送第一
RET控制命令;
所述接收单元,还用于接收所述天线设备发送的第一 RET控制成功响应。 结合第一方面的第一种可能的实现方式, 在第一方面的第七种可能的实 现方式中, 所述发送单元具体用于向所述天线设备发送第一 RET查询权限设 置命令;
所述接收单元还用于接收所述天线设备发送的第一 RET查询权限设置成 功响应;
其中, 所述管理权限包括查询权限。
结合第一方面的第七种可能的实现方式, 在第一方面的第八种可能的实 现方式中, 所述发送单元还用于在向所述天线设备发送第一 RET查询权限设 置命令之前, 向所述天线设备发送第一 RET控制权限设置命令;
所述接收单元还用于接收所述天线设备发送的第一 RET控制权限冲突响 应。
结合第一方面的第二种可能的实现方式, 在第一方面的第九种可能的实 现方式中, 若在所述基站根据第一 RET的标识与所述天线设备建立关于第一 RET的通信连接时已存在第一基站, 则所述天线设备所默认设置的所述管理 权限包括查询权限, 所述第一基站为与所述天线设备已建立关于所述第一 RET的通信连接并且拥有对所述第一 RET的控制权限。
结合第一方面的第三至第九种中任意一种可能的实现方式, 在第一方面 的第十种可能的实现方式中, 所述发送单元还用于在所述处理单元根据第一
RET的标识, 与所述天线设备建立关于第一 RET的通信连接之后, 向所述天 线设备发送第一 RET查询命令;
所述接收单元还用于接收所述天线设备发送的第一 RET查询结果。 结合第一方面的第一种可能的实现方式, 在第一方面的第十一种可能的 实现方式中,所述发送单元具体用于向所述天线设备发送第一 RET独享权限 设置命令;
所述接收单元具体用于接收所述天线设备发送的第一 RET独享权限设置 成功响应;
其中, 所述管理权限包括独享权限。
结合第一方面或第一方面的第一至第十一种中任意一种可能的实现方 式, 在第一方面的第十二种可能的实现方式中, 所述发送单元还用于在所述 处理单元根据第一 RET的标识, 与所述天线设备建立关于第一 RET的通信 连接之后, 向所述天线设备发送第一 RET权限读取命令, 所述第一 RET权 限读取命令属于新增的 AISG接口命令;
所述接收单元还用于接收所述天线设备发送的第一 RET权限结果, 以确 定所述基站对所述第一 RET所拥有的管理权限。
第二方面, 本发明实施例提供一种天线设备, 包括:
接收单元, 用于接收基站发送的扫描命令, 所述扫描命令用于指示所述 天线设备将所有的远程电调单元 RET的标识发送给所述基站;
发送单元, 用于向所述基站发送所述所有 RET的标识;
处理单元, 用于与所述基站建立关于第一 RET 的通信连接, 所述第一 RET为所述天线设备中的任一 RET;
其中, 所述第一 RET由所述基站管理。
在第二方面的第一种可能的实现方式中, 所述接收单元还用于在所述处 理单元与所述基站建立关于第一 RET的通信连接之后, 接收所述基站发送的 第一 RET管理权限设置命令, 所述第一 RET管理权限设置命令属于新增的 AISG接口命令;
所述发送单元还用于向所述基站发送第一 RET管理权限设置成功响应, 以使所述基站拥有对所述第一 RET的管理权限。 在第二方面的第二种可能的实现方式中, 所述处理单元还用于在与所述 基站建立关于第一 RET的通信连接之后, 默认设置所述基站拥有对所述第一 RET的所述管理权限。
结合第二方面的第二种可能的实现方式中, 在第二方面的第三种可能的 实现方式中,所述接收单元具体用于接收所述基站发送的第一 RET控制权限 设置命令;
所述发送单元具体用于向所述基站发送第一 RET控制权限设置成功响 应;
其中, 所述管理权限包括控制权限。
结合第二方面的第三种可能的实现方式, 在第二方面的第四种可能的实 现方式中, 所述接收单元还用于所述发送单元向所述基站发送第一 RET控制 权限设置成功响应之后, 接收所述基站发送的第一 RET查询权限设置命令; 所述发送单元还用于向所述基站发送第一 RET查询权限设置成功响应, 以使所述基站拥有对所述第一 RET的查询权限。
结合第二方面的第二种可能的实现方式, 在第二方面的第五种可能的实 现方式中, 所述处理单元具体用于, 若在与所述基站建立关于第一 RET的通 信连接时未存在第一基站, 则默认设置所述基站拥有对所述第一 RET的控制 权限, 所述第一基站为与所述天线设备已建立关于所述第一 RET的通信连接 并且拥有对所述第一 RET的控制权限的另一基站。
结合第二方面的第三种可能的实现方式或第二方面的第四种可能的实现 方式或第二方面的第五种可能的实现方式, 在第二方面的第六种可能的实现 方式中, 所述接收单元还用于在所述处理单元与所述基站建立关于第一 RET 的通信连接之后, 接收所述基站发送的第一 RET控制命令;
所述处理单元还用于根据所述第一 RET控制命令, 对所述第一 RET进 行控制处理;
所述发送单元还用于向所述基站发送第一 RET控制成功响应。
结合第二方面的第一种可能的实现方式, 在第二方面的第七种可能的实 现方式中, 所述接收单元具体用于接收所述基站发送的第一 RET查询权限设 置命令;
所述发送单元具体用于向所述基站发送第一 RET 查询权限设置成功响 应;
其中, 所述管理权限包括查询权限。
结合第二方面的第七种可能的实现方式, 在第二方面的第八种可能的实 现方式中, 所述接收单元还用于在接收所述基站发送的第一 RET查询权限设 置命令之前, 接收所述基站发送的第一 RET控制权限设置命令;
所述发送单元还用于, 若所述接收单元已接收到第一基站发送的第一 RET控制权限设置命令, 则向所述基站发送第一 RET控制权限冲突响应, 所 述第一基站已与所述天线设备建立关于所述第一 RET的通信连接。
结合第二方面的第二种可能的实现方式, 在第二方面的第九种可能的实 现方式中, 所述处理单元具体用于, 若在与所述基站建立关于第一 RET的通 信连接时已存在第一基站, 则默认设置所述基站拥有对所述第一 RET的查询 权限, 所述第一基站为与所述天线设备已建立关于所述第一 RET的通信连接 并且拥有对所述第一 RET的控制权限的基站。
结合第二方面的第三至第九种中任意一种可能的实现方式, 在第二方面 的第十种可能的实现方式中, 所述接收单元还用于在所述处理单元与所述基 站建立关于第一 RET的通信连接之后, 接收所述基站发送的第一 RET查询 命令;
所述处理单元还用于根据所述第一 RET查询命令, 对所述第一 RET进 行查询;
所述发送单元还用于向所述基站发送第一 RET查询结果。
结合第二方面的第一种可能的实现方式, 在第二方面的第十一种可能的 实现方式中,所述接收单元具体用于接收所述基站发送的第一 RET独享权限 设置命令;
所述发送单元具体用于向所述基站发送第一 RET独享权限设置成功响 应;
其中, 所述管理权限包括独享权限。
结合第二方面或第二方面的第一至第十一种中任意一种可能的实现方 式, 在第二方面的第十二种可能的实现方式中, 所述接收单元还用于在所述 处理单元与所述基站建立关于第一 RET的通信连接之后, 接收所述基站发送 的第一 RET权限读取命令, 所述第一 RET权限读取命令属于新增加的 AISG 接口命令;
所述发送单元还用于向所述基站发送第一 RET权限结果, 以使所述基站 确定所述基站对所述第一 RET所拥有的管理权限。
第三方面, 本发明实施例提供一种多频电调天线管理方法, 包括: 基站向天线设备发送扫描命令, 所述扫描命令用于指示所述天线设备将 所有的远程电调单元 RET的标识发送给所述基站;
所述基站接收所述天线设备发送的所述所有 RET的标识;
所述基站根据第一 RET的标识, 与所述天线设备建立关于第一 RET的 通信连接, 所述第一 RET为所述天线设备中的任一 RET;
其中, 所述基站拥有对所述第一 RET的管理权限。
在第三方面的第一种可能的实现方式中,所述基站根据第一 RET的标识, 与所述天线设备建立关于第一 RET的通信连接之后, 还包括:
所述基站向所述天线设备发送第一 RET 管理权限设置命令, 所述第一 RET管理权限设置命令属于新增的天线接口标准化 AISG接口命令;
所述基站接收所述天线设备发送的第一 RET管理权限设置成功响应, 以 使所述基站拥有对所述第一 RET的所述管理权限。
在第三方面的第二种可能的实现方式中, 所述管理权限由所述天线设备 为所述基站所默认设置。
结合第三方面的第二种可能的实现方式中, 在第三方面的第三种可能的 实现方式中, 所述基站向所述天线设备发送第一 RET管理权限设置命令, 包 括:
所述基站向所述天线设备发送第一 RET控制权限设置命令;
所述基站接收所述天线设备发送的第一 RET管理权限设置成功响应, 包 括:
所述基站接收所述天线设备发送的第一 RET控制权限设置成功响应; 其中, 所述管理权限包括控制权限。
结合第三方面的第三种可能的实现方式, 在第三方面的第四种可能的实 现方式中, 所述基站接收所述天线设备发送的第一 RET控制权限设置成功响 应之后, 还包括:
当所述基站需要释放对所述第一 RET所拥有的控制权限时, 所述基站向 所述天线设备发送第一 RET查询权限设置命令;
所述基站接收所述天线设备发送的第一 RET查询权限设置成功响应, 以 使所述基站拥有对所述第一 RET的查询权限。
结合第三方面的第二种可能的实现方式, 在第三方面的第五种可能的实 现方式中, 若在所述基站根据第一 RET的标识与所述天线设备建立关于第一 RET的通信连接时未存在第一基站时, 则所述天线设备所默认设置的所述管 理权限包括控制权限;
其中, 所述第一基站已与所述天线设备建立关于所述第一 RET的通信连 接并且拥有对所述第一 RET的控制权限。
结合第三方面的第三种可能的实现方式或第三方面的第四种可能的实现 方式或第三方面的第五种可能的实现方式, 在第三方面的第六种可能的实现 方式中, 所述基站根据第一 RET的标识, 与所述天线设备建立关于第一 RET 的通信连接之后, 还包括:
所述基站向所述天线设备发送第一 RET控制命令;
所述基站接收所述天线设备发送的第一 RET控制成功响应。
结合第三方面的第一种可能的实现方式, 在第三方面的第七种可能的实 现方式中,所述基站向所述天线设备发送第一 RET管理权限设置命令,包括: 所述基站向所述天线设备发送第一 RET查询权限设置命令;
所述基站接收所述天线设备发送的第一 RET管理权限设置成功响应, 包 括:
所述基站接收所述天线设备发送的第一 RET查询权限设置成功响应; 其中, 所述管理权限包括查询权限。
结合第三方面的第七种可能的实现方式, 在第三方面的第八种可能的实 现方式中, 所述基站向所述天线设备发送第一 RET查询权限设置命令之前, 还包括:
所述基站向所述天线设备发送第一 RET控制权限设置命令;
所述基站接收所述天线设备发送的第一 RET控制权限冲突响应; 所述基站向所述天线设备发送第一 RET查询权限设置命令, 包括: 所述基站根据所述第一 RET控制权限冲突响应,通过向所述天线设备发 送第一 RET查询权限设置命令。 结合第三方面的第二种可能的实现方式, 在第三方面的第九种可能的实 现方式中, 若在所述基站根据第一 RET的标识与所述天线设备建立关于第一 RET的通信连接时已存在第一基站, 则所述天线设备所默认设置的所述管理 权限包括查询权限, 所述第一基站为与所述天线设备已建立关于所述第一 RET的通信连接并且拥有对所述第一 RET的控制权限。
结合第三方面的第三至第九种中任意一种可能的实现方式, 在第三方面 的第十种可能的实现方式中, 所述基站根据第一 RET的标识, 与所述天线设 备建立关于第一 RET的通信连接之后, 还包括:
所述基站向所述天线设备发送第一 RET查询命令;
所述基站接收所述天线设备发送的第一 RET查询结果。
结合第三方面的第一种可能的实现方式, 在第三方面的第十一种可能的 实现方式中, 所述基站向所述天线设备发送第一 RET管理权限设置命令, 包 括:
所述基站向所述天线设备发送第一 RET独享权限设置命令;
所述基站接收所述天线设备发送的第一 RET管理权限设置成功响应, 包 括:
所述基站接收所述天线设备发送的第一 RET独享权限设置成功响应; 其中, 所述管理权限包括独享权限。
结合第三方面或第三方面的第一至第十一种中任意一种可能的实现方 式, 在第三方面的第十二种可能的实现方式中, 所述基站根据第一 RET的标 识, 与所述天线设备建立关于第一 RET的通信连接之后, 还包括:
所述基站向所述天线设备发送第一 RET权限读取命令, 所述第一 RET 权限读取命令属于新增的 AISG接口命令;
所述基站接收所述天线设备发送的第一 RET权限结果, 以确定所述基站 对所述第一 RET所拥有的管理权限。
第四方面, 本发明实施例还提供一种多频电调天线管理方法, 包括: 天线设备接收基站发送的扫描命令, 所述扫描命令用于指示所述天线设 备将所有的远程电调单元 RET的标识发送给所述基站;
所述天线设备向所述基站发送所述所有 RET的标识;
所述天线设备与所述基站建立关于第一 RET的通信连接,所述第一 RET 为所述天线设备中的任一 RET;
其中, 所述基站拥有对所述第一 RET的管理权限。
在第四方面的第一种可能的实现方式中, 所述天线设备与所述基站建立 关于第一 RET的通信连接之后, 还包括:
所述天线设备接收所述基站发送的第一 RET管理权限设置命令, 所述第 一 RET管理权限设置命令属于新增的 AISG接口命令;
所述天线设备向所述基站发送第一 RET管理权限设置成功响应, 以使所 述基站拥有对所述第一 RET的管理权限。
在第四方面的第二种可能的实现方式中, 所述天线设备与所述基站建立 关于第一 RET的通信连接之后, 还包括:
所述天线设备默认设置所述基站拥有对所述第一 RET的所述管理权限。 结合第四方面的第二种可能的实现方式中, 在第四方面的第三种可能的 实现方式中,所述天线设备接收所述基站发送的第一 RET管理权限设置命令, 包括:
所述天线设备接收所述基站发送的第一 RET控制权限设置命令; 所述天线设备向所述基站发送第一 RET控制权限设置成功响应; 其中, 所述管理权限包括控制权限。
结合第四方面的第三种可能的实现方式, 在第四方面的第四种可能的实 现方式中, 所述天线设备向所述基站发送第一 RET控制权限设置成功响应之 后, 还包括:
所述天线设备接收所述基站发送的第一 RET查询权限设置命令; 所述天线设备向所述基站发送第一 RET查询权限设置成功响应, 以使所 述基站拥有对所述第一 RET的查询权限。
结合第四方面的第二种可能的实现方式, 在第四方面的第五种可能的实 现方式中, 所述天线设备默认设置所述基站拥有对所述第一 RET的所述管理 权限, 包括:
若在所述天线设备与所述基站建立关于第一 RET的通信连接时未存在第 一基站,则所述天线设备默认设置所述基站拥有对所述第一 RET的控制权限, 所述第一基站为与所述天线设备已建立关于所述第一 RET的通信连接并且拥 有对所述第一 RET的控制权限的另一基站。 结合第四方面的第三种可能的实现方式或第四方面的第四种可能的实现 方式或第四方面的第五种可能的实现方式, 在第四方面的第六种可能的实现 方式中, 所述天线设备与所述基站建立关于第一 RET的通信连接之后, 还包 括:
所述天线设备接收所述基站发送的第一 RET控制命令;
所述天线设备根据所述第一 RET控制命令, 对所述第一 RET进行控制 处理;
所述天线设备向所述基站发送第一 RET控制成功响应。
结合第四方面的第一种可能的实现方式, 在第四方面的第七种可能的实 现方式中, 所述天线设备接收所述基站发送的第一 RET管理权限设置命令, 包括:
所述天线设备接收所述基站发送的第一 RET查询权限设置命令; 所述天线设备向所述基站发送第一 RET查询权限设置成功响应; 其中, 所述管理权限包括查询权限。
结合第四方面的第七种可能的实现方式, 在第四方面的第八种可能的实 现方式中, 所述天线设备接收所述基站发送的第一 RET查询权限设置命令之 前, 还包括 Γ
所述天线设备接收所述基站发送的第一 RET控制权限设置命令; 若所述天线设备确定已接收到第一基站发送的第一 RET控制权限设置命 令, 则所述天线设备向所述基站发送第一 RET控制权限冲突响应, 所述第一 基站已与所述天线设备建立关于所述第一 RET的通信连接。
结合第四方面的第二种可能的实现方式, 在第四方面的第九种可能的实 现方式中, 所述天线设备默认设置所述基站拥有对所述第一 RET的所述管理 权限, 包括:
若在所述天线设备与所述基站建立关于第一 RET的通信连接时已存在第 一基站,则所述天线设备默认设置所述基站拥有对所述第一 RET的查询权限, 所述第一基站为与所述天线设备已建立关于所述第一 RET的通信连接并且拥 有对所述第一 RET的控制权限的基站。
结合第四方面的第三至第九种中任意一种可能的实现方式, 在第四方面 的第十种可能的实现方式中, 所述天线设备与所述基站建立关于第一 RET的 通信连接之后, 还包括:
所述天线设备接收所述基站发送的第一 RET查询命令;
所述天线设备根据所述第一 RET查询命令, 对所述第一 RET进行查询; 所述天线设备向所述基站发送第一 RET查询结果。
结合第四方面的第一种可能的实现方式, 在第四方面的第十一种可能的 实现方式中,所述天线设备接收所述基站发送的第一 RET管理权限设置命令, 包括:
所述天线设备接收所述基站发送的第一 RET独享权限设置命令; 所述天线设备向所述基站发送第一 RET独享权限设置成功响应; 其中, 所述管理权限包括独享权限。
结合第四方面或第四方面的第一至第十一种中任意一种可能的实现方 式, 在第四方面的第十二种可能的实现方式中, 所述天线设备与所述基站建 立关于第一 RET的通信连接之后, 还包括:
所述天线设备接收所述基站发送的第一 RET权限读取命令, 所述第一 RET权限读取命令属于新增加的 AISG接口命令;
所述天线设备向所述基站发送第一 RET权限结果, 以使所述基站确定所 述基站对所述第一 RET所拥有的管理权限。
第五方面, 本发实施例提供一种多频电调天线管理系统, 包括: 如上第 一方面提供的基站和如上第二方面提供的天线设备。
本发明实施例提供的多频电调天线管理方法、 装置和系统, 基站的发送 单元通过向天线设备发送扫描命令, 所述扫描命令用于指示所述天线设备将 所有的远程电调单元 RET的标识发送给所述基站; 基站的接收单元接收所述 天线设备发送的所有 RET的标识; 基站的处理单元根据所述接收单元接收的 第一 RET的标识, 与所述天线设备建立关于第一 RET的通信连接, 所述第 一 RET为所述天线设备中的任一 RET;其中,所述基站拥有对所述第一 RET 的管理权限。 由于基站可以接收所有 RET的标识, 当基站不能配置 RET时 可以快速定位问题, 降低了运维成本, 提高了运维效率和质量。 附图说明
为了更清楚地说明本发明实施例或现有技术中的技术方案, 下面将对实 施例或现有技术描述中所需要使用的附图作一简单地介绍, 显而易见地, 下 面描述中的附图是本发明的一些实施例, 对于本领域普通技术人员来讲, 在 不付出创造性劳动的前提下, 还可以根据这些附图获得其他的附图。
图 1为现有技术提供的多频电调天线管理方法的示意图;
图 2为本发明基站实施例一的结构 ^
图 3为本发明基站实施例二的结构 ^
图 4为本发明天线设备实施例一的
图 5为本发明天线设备实施例二的
图 6为本发明多频电调天线管理系统实施例的;
图 7为本发明多频电调天线管理方法实施例一的流程图
图 8为本发明多频电调天 里方法实施例二的流程图
图 9为本发明多频电调天 里方法实施例三的流程图
图 10为本发明多频电调天^ 皆理方法实施例四的流程图
图 11为本发明多频电调天^ 皆理方法实施例五的流程图
图 12为本发明多频电调天^ 皆理方法实施例六的流程图
图 13为本发明多频电调天^ 皆理方法实施例七的流程图
图 14为本发明多频电调天^ 皆理方法实施例八的流程图
图 15为本发明多频电调天^ 理方法的一种应用场景示意图;
图 16为本发明多频电调天^ 皆理方法实施例九的流程图
图 17为本发明多频电调天^ 皆理方法实施例十的流程图。 具体实施方式 为使本发明实施例的目的、 技术方案和优点更加清楚, 下面将结合本发 明实施例中的附图, 对本发明实施例中的技术方案进行清楚、 完整地描述, 显然, 所描述的实施例是本发明一部分实施例, 而不是全部的实施例。 基于 本发明中的实施例, 本领域普通技术人员在没有作出创造性劳动前提下所获 得的所有其他实施例, 都属于本发明保护的范围。
本发明的技术方案, 可以应用于各种无线通信系统, 例如: 全球移动通 信系统 (Global System for Mobile Communications, 简称: GSM) 、 通用分 组无线业务( General Packet Radio Service,简称: GPRS )系统、码分多址( Code Division Multiple Access, 简称: CDMA) 系统、 CDMA2000系统、 宽带码分 多址 (Wideband Code Division Multiple Access, 简称: WCDMA) 系统、 长 期演进 (Long Term Evolution, 简称: LTE) 系统或全球微波接入互操作性 (World Interoperability for Microwave Access, 简称: WiMAX) 系统等。
基站,可以是 GSM系统、 GPRS系统或 CDMA系统中的基站控制器(Base
Station Controller,简称: BSC),还可以是 LTE系统中的演进型基站(Evolved NodeB,简称: eNB ),还可以是 WiMAX网络中的接入服务网络的基站(Access Service Network Base Station, 简称: ASN BS )等网元。 天线设备为多频电调 天线设备。
图 2为本发明基站实施例一的结构示意图, 如图 2所示, 本实施例的基 站可以包括: 发送单元 11、 接收单元 12和处理单元 13, 其中, 发送单元 11 用于向天线设备发送扫描命令, 所述扫描命令用于指示所述天线设备将所有 的远程电调单元 RET的标识发送给所述基站; 接收单元 12用于接收所述天 线设备发送的所述所有 RET的标识; 处理单元 13用于根据接收单元 12接收 的第一 RET的标识, 与所述天线设备建立关于第一 RET的通信连接, 所述 第一 RET为所述天线设备中的任一 RET; 其中, 所述基站拥有对所述第一 RET的管理权限。
本实施例中, 当多个基站共用同一个多频电调天线设备时, 需要多个基 站共同管理同一个多频电调天线设备, 即需要多个基站共同管理多频电调天 线设备中的 RET, —个 RET对应一个频段。本实施例中以多个基站中一个基 站为例进行说明, 其它基站的实现方式类似, 本实施例中的天线设备为多频 电调天线, 其中, 基站的发送单元向天线设备传送的控制信令, 需要经过天 线设备的 AISG端口到达该天线设备。
当基站需要对 RET进行配置时, 则基站的发送单元向天线设备发送扫描 命令, 该扫描命令用于指示该天线设备将该天线设备中所有的 RET的标识发 送给该基站, 天线设备接收基站发送的扫描命令, 无论是否已有基站与该天 线设备建立关于该天线设备中的 RET的通信连接, 该天线设备均会根据该扫 描命令, 将该天线设备中所有 RET的标识发送给该基站, RET的标识可以 为 RET的序列号, 然后基站的接收单元接收到天线设备发送的所有 RET的 标识,其中,基站的接收单元可以一次接收天线设备发送的所有 RET的标识, 也可以多次接收天线设备发送的所有 RET的标识(例如基站每次只接收一部 分 RET的标识从而需要接收多次以获取所有 RET的标识) , 然后基站的处 理单元可以与天线设备建立关于任一 RET的通信连接, 该基站的处理单元也 可以与该天线设备建立有关至少一个 RET的通信连接, 例如基站的处理单元 可以根据第一 RET的标识, 与天线设备建立关于该第一 RET的通信连接, 然后基站可以拥有对该第一 RET的管理权限, 后续基站可以通过关于该第一 RET的通信连接对该第一 RET进行管理,该管理权限可以是基站主动配置的 也可以是天线设备默认配置的, 本发明实施例对此不做限制。 其中, 该管理 权限包括如下至少一种: 控制权限、 查询权限和独享权限, 值得注意的是, 拥有对 RET的控制权限的基站默认拥有对该 RET的查询权限。 但本发明实 施例中的管理权限并不限于上述的权限。
而现有技术中, 天线设备只将未被基站配置的 RET的标识发送给请求基 站, 若第一基站已经配置了第一 RET、第二 RET和第三 RET, 而第二基站却 不能配置任一 RET, 并且第二 RET和第三 RET实际是由第二基站配置的, 当第一基站与第二基站属于不同的运营商时, 第二基站不能确定是第一基站 配置出错还是天线设备与 SBT之间的物理连线断开,从而无法快速定位问题。 而本发明实施例中,基站的接收单元是接收天线设备发送的所有 RET的标识, 因此, 若基站的接收单元未接收到天线设备发送的 RET的标识, 则可确定是 天线设备与 SBT之间的物理连接断开,从而快速定位问题,降低了运维成本, 提高了运维效率和质量。
可选地, 在本实施例的第一种可行的实现方式中, 发送单元 11还用于在 处理单元 13根据第一 RET的标识, 与所述天线设备建立关于第一 RET的通 信连接之后, 通过所述 AISG端口向所述天线设备发送第一 RET管理权限设 置命令, 所述第一 RET管理权限设置命令属于新增的 AISG接口命令; 接收 单元 12还用于接收所述天线设备发送的第一 RET管理权限设置成功响应, 以使所述基站拥有对所述第一 RET的所述管理权限。
在本实施例的第二种可行的实现方式中, 所述管理权限由所述天线设备 为所述基站所默认设置。
可选地, 发送单元 11具体用于向所述天线设备发送第一 RET控制权限 设置命令; 接收单元 12具体用于接收所述天线设备发送的第一 RET控制权 限设置成功响应; 其中, 所述管理权限包括控制权限。
可选地, 处理单元 13用于在接收单元 12接收所述天线设备发送的第一 RET控制权限设置成功响应之后, 确定所述基站是否需要释放对所述第一 RET所拥有的控制权限; 发送单元 11还用于, 当处理单元 13确定需要释放 对所述第一 RET所拥有的控制权限时, 向所述天线设备发送第一 RET查询 权限设置命令; 接收单元 12还用于接收所述天线设备发送的第一 RET查询 权限设置成功响应, 以使所述基站拥有对所述第一 RET的查询权限。
可选地, 若在所述基站根据第一 RET的标识与所述天线设备建立关于第 一 RET的通信连接时未存在第一基站时, 则所述天线设备所默认设置的所述 管理权限包括控制权限; 其中, 所述第一基站已与所述天线设备建立关于所 述第一 RET的通信连接并且拥有对所述第一 RET的控制权限。
可选地, 发送单元 11, 还用于在处理单元 13根据第一 RET的标识, 与 所述天线设备建立关于第一 RET的通信连接之后, 向所述天线设备发送第一 RET控制命令; 接收单元 12, 还用于接收所述天线设备发送的第一 RET控 制成功响应。
可选地, 发送单元 11具体用于向所述天线设备发送第一 RET查询权限 设置命令; 接收单元 12还用于接收所述天线设备发送的第一 RET查询权限 设置成功响应; 其中, 所述管理权限包括查询权限。
可选地, 发送单元 11还用于在向所述天线设备发送第一 RET查询权限 设置命令之前, 向所述天线设备发送第一 RET控制权限设置命令; 接收单元 12还用于接收所述天线设备发送的第一 RET控制权限冲突响应。
可选地, 若在所述基站根据第一 RET的标识与所述天线设备建立关于第 一 RET的通信连接时已存在第一基站, 则所述天线设备所默认设置的所述管 理权限包括查询权限, 所述第一基站为与所述天线设备已建立关于所述第一 RET的通信连接并且拥有对所述第一 RET的控制权限。
可选地, 发送单元 11还用于在处理单元 13根据第一 RET的标识, 与所 述天线设备建立关于第一 RET 的通信连接之后, 向所述天线设备发送第一 RET查询命令; 接收单元 12还用于接收所述天线设备发送的第一 RET查询 结果。
可选地, 发送单元 11具体用于向所述天线设备发送第一 RET独享权限 设置命令; 接收单元 12具体用于接收所述天线设备发送的第一 RET独享权 限设置成功响应; 其中, 所述管理权限包括独享权限。
可选地, 发送单元 11还用于在处理单元 13根据第一 RET的标识, 与所 述天线设备建立关于第一 RET 的通信连接之后, 向所述天线设备发送第一 RET权限读取命令,所述第一 RET权限读取命令属于新增的 AISG接口命令; 接收单元 12还用于接收所述天线设备发送的第一 RET权限结果, 以确定所 述基站对所述第一 RET所拥有的管理权限。
本实施例的基站, 可以用于执行本发明上述方法实施例中基站所执行的 技术方案, 其实现原理和技术效果类似, 此处不再赘述。
图 3为本发明基站实施例二的结构示意图, 如图 3所示, 本实施例的基 站可以包括: 发送器 21、 接收器 22和处理器 23。 其中, 发送器 21用于通过 向天线设备发送扫描命令, 所述扫描命令用于指示所述天线设备将所有的远 程电调单元 RET的标识发送给所述基站; 接收器 22用于接收所述天线设备 发送的所述所有 RET的标识;处理器 23用于根据接收器 22接收的第一 RET 的标识, 与所述天线设备建立关于第一 RET的通信连接, 所述第一 RET为 所述天线设备中的任一 RET; 其中, 所述基站拥有对所述第一 RET的管理权 限。
在第一种可行的实现方式中,发送器 21还用于在处理器 23根据第一 RET 的标识, 与所述天线设备建立关于第一 RET的通信连接之后, 向所述天线设 备发送第一 RET管理权限设置命令, 所述第一 RET管理权限设置命令属于 新增的天线接口标准化 AISG接口命令; 接收器 22还用于接收所述天线设备 发送的第一 RET管理权限设置成功响应,以使所述基站拥有对所述第一 RET 的所述管理权限。
在第二种可行的实现方式中, 所述管理权限由所述天线设备为所述基站 所默认设置。
可选地, 发送器 21具体用于向所述天线设备发送第一 RET控制权限设 置命令; 接收器 22具体用于接收所述天线设备发送的第一 RET控制权限设 置成功响应; 其中, 所述管理权限包括控制权限。
可选地,处理器 23还用于在接收器 22接收所述天线设备发送的第一 RET 控制权限设置成功响应之后, 确定所述基站是否需要释放对所述第一 RET所 拥有的控制权限; 发送器 21还用于, 当处理器 23确定需要释放对所述第一 RET所拥有的控制权限时,向所述天线设备发送第一 RET查询权限设置命令; 接收器 22还用于接收所述天线设备发送的第一 RET查询权限设置成功响应, 以使所述基站拥有对所述第一 RET的查询权限。
可选地, 若在所述基站根据第一 RET的标识与所述天线设备建立关于第 一 RET的通信连接时未存在第一基站时, 则所述天线设备所默认设置的所述 管理权限包括控制权限; 其中, 所述第一基站已与所述天线设备建立关于所 述第一 RET的通信连接并且拥有对所述第一 RET的控制权限。
可选地, 发送器 21, 还用于在处理器 23根据第一 RET的标识, 与所述 天线设备建立关于第一 RET的通信连接之后,向所述天线设备发送第一 RET 控制命令;接收器 22,还用于接收所述天线设备发送的第一 RET控制成功响 应。
可选地, 发送器 21具体用于向所述天线设备发送第一 RET查询权限设 置命令;
接收器 22还用于接收所述天线设备发送的第一 RET查询权限设置成功 响应; 其中, 所述管理权限包括查询权限。
可选地, 发送器 21还用于在向所述天线设备发送第一 RET查询权限设 置命令之前, 向所述天线设备发送第一 RET控制权限设置命令; 接收器 22 还用于接收所述天线设备发送的第一 RET控制权限冲突响应。
可选地, 若在所述基站根据第一 RET的标识与所述天线设备建立关于第 一 RET的通信连接时已存在第一基站, 则所述天线设备所默认设置的所述管 理权限包括查询权限, 所述第一基站为与所述天线设备已建立关于所述第一
RET的通信连接并且拥有对所述第一 RET的控制权限。
可选地, 发送器 21还用于在处理器 23根据第一 RET的标识, 与所述天 线设备建立关于第一 RET 的通信连接之后, 向所述天线设备发送第一 RET 查询命令; 接收器 22还用于接收所述天线设备发送的第一 RET查询结果。
可选地, 发送器 21具体用于向所述天线设备发送第一 RET独享权限设 置命令; 接收器 22具体用于接收所述天线设备发送的第一 RET独享权限设 置成功响应; 其中, 所述管理权限包括独享权限。
可选地, 发送器 21还用于在处理器 23根据第一 RET的标识, 与所述天 线设备建立关于第一 RET 的通信连接之后, 向所述天线设备发送第一 RET 权限读取命令, 所述第一 RET权限读取命令属于新增的 AISG接口命令; 接 收器 22还用于接收所述天线设备发送的第一 RET权限结果, 以确定所述基 站对所述第一 RET所拥有的管理权限。
本实施例的基站, 可以用于执行本发明下述方法实施例中基站所执行的 技术方案, 其实现原理和技术效果类似, 此处不再赘述。
图 4为本发明天线设备实施例一的结构示意图, 如图 4所示, 本实施例 的天线设备可以包括: 接收单元 31、 发送单元 32和处理单元 33, 其中, 接 收单元 31用于接收基站发送的扫描命令,所述扫描命令用于指示所述天线设 备将所有的远程电调单元 RET的标识发送给所述基站; 发送单元 32用于向 所述基站发送所有 RET的标识; 处理单元 33用于与所述基站建立关于第一 RET的通信连接, 所述第一 RET为所述天线设备中的任一 RET; 其中, 所述 第一 RET由所述基站管理。
本实施例中, 当多个基站共用同一个多频电调天线时, 需要多个基站共 同管理同一个多频电调天线, 即需要多个基站共同管理多频电调天线中的 RET。 本实施例中的天线设备为多频电调天线, 本实施例中以天线设备与多 个基站中一个基站的交互为例进行说明, 其它基站的实现方式类似, 其中, 天线设备需要通过天线设备的 AISG端口接收基站发送的控制信令。
当基站需要对 RET进行配置时, 则基站向天线设备发送扫描命令, 该扫 描命令用于指示该天线设备将该天线设备中所有的 RET的标识发送给该基 站, 天线设备的接收单元接收基站发送的扫描命令, 无论是否已有基站与该 天线设备建立关于该天线设备中的 RET的通信连接, 该天线设备的发送单元 均会根据该扫描命令,将该天线设备中所有 RET的标识发送给该基站,其中, 天线设备的发送单元可以一次向基站发送所有 RET的标识, 也可以多次向基 站发送的所有 RET的标识 (例如天线设备每次只发送一部分 RET的标识从 而需要发送多次才使基站获取所有 RET的标识) , RET的标识可以为 RET 的序列号, 然后天线设备的处理单元可以与基站建立关于任一 RET的通信连 接, 该基站也可以与该天线设备建立有关至少一个 RET的通信连接。 例如天 线设备的处理单元可以与基站建立关于该第一 RET的通信连接, 然后基站可 以拥有对该第一 RET的管理权限, 后续基站可以通过关于该第一 RET的通 信连接对该第一 RET进行管理, 该管理权限可以是基站主动配置的也可以是 天线设备默认配置的, 本发明实施例对此不做限制。 其中, 该管理权限包括 如下至少一种:控制权限、查询权限和独享权限,值得注意的是,拥有对 RET 的控制权限的基站默认拥有对该 RET的查询权限。但本发明实施例中的管理 权限并不限于上述的权限。
而现有技术中, 天线设备只将未被基站配置的 RET的标识发送给请求基 站, 若第一基站已经配置了第一 RET、第二 RET和第三 RET, 而第二基站却 不能配置任一 RET, 并且第二 RET和第三 RET实际是由第二基站配置的, 当第一基站与第二基站属于不同的运营商时, 第二基站不能确定是第一基站 配置出错还是天线设备与 SBT之间的物理连线断开,从而无法快速定位问题。 而本发明实施例中, 天线设备的发送单元是将所有 RET的标识发送给所有基 站, 因此, 若基站未接收到天线设备发送的 RET的标识, 则可确定是天线设 备与 SBT之间的物理连接断开, 从而快速定位问题, 降低了运维成功, 提高 了运维效率和质量。
在本实施例的一种可行的实现方式中, 接收单元 31还用于在处理单元
33与所述基站建立关于第一 RET的通信连接之后,接收所述基站发送的第一 RET管理权限设置命令, 所述第一 RET管理权限设置命令属于新增的 AISG 接口命令; 发送单元 32还用于向所述基站发送第一 RET管理权限设置成功 响应, 以使所述基站拥有对所述第一 RET的管理权限。
在本实施例的另一种可行的实现方式中,处理单元 33还用于在与所述基 站建立关于第一 RET 的通信连接之后, 默认设置所述基站拥有对所述第一 RET的所述管理权限。
可选地, 接收单元 31具体用于接收所述基站发送的第一 RET控制权限 设置命令; 发送单元 32具体用于向所述基站发送第一 RET控制权限设置成 功响应; 其中, 所述管理权限包括控制权限。
可选地, 接收单元 31还用于发送单元 32向所述基站发送第一 RET控制 权限设置成功响应之后, 接收所述基站发送的第一 RET查询权限设置命令; 发送单元 32还用于向所述基站发送第一 RET查询权限设置成功响应, 以使 所述基站拥有对所述第一 RET的查询权限。
可选地, 处理单元 33具体用于, 若在与所述基站建立关于第一 RET的 通信连接时未存在第一基站, 则默认设置所述基站拥有对所述第一 RET的控 制权限, 所述第一基站为与所述天线设备已建立关于所述第一 RET的通信连 接并且拥有对所述第一 RET的控制权限的另一基站。
可选地,接收单元 31还用于在处理单元 33与所述基站建立关于第一 RET 的通信连接之后, 接收所述基站发送的第一 RET控制命令; 处理单元 33还 用于根据所述第一 RET控制命令, 对所述第一 RET进行控制处理; 发送单 元 32还用于向所述基站发送第一 RET控制成功响应。
可选地, 接收单元 31具体用于接收所述基站发送的第一 RET查询权限 设置命令; 发送单元 32具体用于向所述基站发送第一 RET查询权限设置成 功响应; 其中, 所述管理权限包括查询权限。
可选地, 接收单元 31还用于在接收所述基站发送的第一 RET查询权限 设置命令之前, 接收所述基站发送的第一 RET控制权限设置命令; 发送单元 32还用于, 若接收单元 31已接收到第一基站发送的第一 RET控制权限设置 命令, 则向所述基站发送第一 RET控制权限冲突响应, 所述第一基站已与所 述天线设备建立关于所述第一 RET的通信连接。
可选地, 处理单元 33具体用于, 若在与所述基站建立关于第一 RET的 通信连接时已存在第一基站, 则默认设置所述基站拥有对所述第一 RET的查 询权限, 所述第一基站为与所述天线设备已建立关于所述第一 RET的通信连 接并且拥有对所述第一 RET的控制权限的基站。
可选地,接收单元 31还用于在处理单元 33与所述基站建立关于第一 RET 的通信连接之后, 接收所述基站发送的第一 RET查询命令; 处理单元 33还 用于根据所述第一 RET查询命令, 对所述第一 RET进行查询; 发送单元 32 还用于向所述基站发送第一 RET查询结果。
可选地, 接收单元 31具体用于接收所述基站发送的第一 RET独享权限 设置命令; 发送单元 32具体用于向所述基站发送第一 RET独享权限设置成 功响应; 其中, 所述管理权限包括独享权限。
可选地,接收单元 31还用于在处理单元 33与所述基站建立关于第一 RET 的通信连接之后, 接收所述基站发送的第一 RET权限读取命令, 所述第一 RET权限读取命令属于新增加的 AISG接口命令;发送单元 32还用于向所述 基站发送第一 RET权限结果, 以使所述基站确定所述基站对所述第一 RET 所拥有的管理权限。
本实施例中的天线设备可以为多频电调天线设备。
本实施例的天线设备, 可以用于执行本发明下述方法实施例中天线设备 的技术方案, 其实现原理和技术效果类似, 此处不再赘述。
图 5为本发明天线设备实施例二的结构示意图, 如图 5所示, 本实施例 的天线设备可以包括: 接收器 41、 发送器 42和处理器 43, 其中, 接收器 41 用于接收基站发送的扫描命令, 所述扫描命令用于指示所述天线设备将所有 的远程电调单元 RET的标识发送给所述基站; 发送器 42用于向所述基站发 送所述所有 RET的标识; 处理器 43用于与所述基站建立关于第一 RET的通 信连接, 所述第一 RET为所述天线设备中的任一 RET; 其中, 所述第一 RET 由所述基站管理。
在本实施例的一种可行的实现方式中, 接收器 41还用于在处理器 43与 所述基站建立关于第一 RET的通信连接之后,接收所述基站发送的第一 RET 管理权限设置命令, 所述第一 RET管理权限设置命令属于新增的 AISG接口 命令; 发送器 42还用于向所述基站发送第一 RET管理权限设置成功响应, 以使所述基站拥有对所述第一 RET的管理权限。
在本实施例的另一种可行的实现方式中,处理器 43还用于在与所述基站 建立关于第一 RET的通信连接之后,默认设置所述基站拥有对所述第一 RET 的所述管理权限。
可选地, 接收器 41具体用于接收所述基站发送的第一 RET控制权限设 置命令; 发送器 42具体用于向所述基站发送第一 RET控制权限设置成功响 应; 其中, 所述管理权限包括控制权限。
可选地, 接收器 41还用于发送器 42向所述基站发送第一 RET控制权限 设置成功响应之后, 接收所述基站发送的第一 RET查询权限设置命令; 发送 器 42还用于向所述基站发送第一 RET查询权限设置成功响应, 以使所述基 站拥有对所述第一 RET的查询权限。
可选地, 处理器 43具体用于, 若在与所述基站建立关于第一 RET的通 信连接时未存在第一基站, 则默认设置所述基站拥有对所述第一 RET的控制 权限, 所述第一基站为与所述天线设备已建立关于所述第一 RET的通信连接 并且拥有对所述第一 RET的控制权限的另一基站。 可选地, 接收器 41还用于在处理器 43与所述基站建立关于第一 RET的 通信连接之后, 接收所述基站发送的第一 RET控制命令; 处理器 43还用于 根据所述第一 RET控制命令, 对所述第一 RET进行控制处理; 发送器 42还 用于向所述基站发送第一 RET控制成功响应。
可选地, 接收器 41具体用于接收所述基站发送的第一 RET查询权限设 置命令; 发送器 42具体用于向所述基站发送第一 RET查询权限设置成功响 应; 其中, 所述管理权限包括查询权限。
可选地, 接收器 41还用于在接收所述基站发送的第一 RET查询权限设 置命令之前, 接收所述基站发送的第一 RET控制权限设置命令; 发送器 42 还用于, 若接收器 41已接收到第一基站发送的第一 RET控制权限设置命令, 则向所述基站发送第一 RET控制权限冲突响应, 所述第一基站已与所述天线 设备建立关于所述第一 RET的通信连接。
可选地, 处理器 43具体用于, 若在与所述基站建立关于第一 RET的通 信连接时已存在第一基站, 则默认设置所述基站拥有对所述第一 RET的查询 权限, 所述第一基站为与所述天线设备已建立关于所述第一 RET的通信连接 并且拥有对所述第一 RET的控制权限的基站。
可选地, 接收器 41还用于在处理器 43与所述基站建立关于第一 RET的 通信连接之后, 接收所述基站发送的第一 RET查询命令; 处理器 43还用于 根据所述第一 RET查询命令, 对所述第一 RET进行查询; 发送器 42还用于 向所述基站发送第一 RET查询结果。
可选地, 接收器 41具体用于接收所述基站发送的第一 RET独享权限设 置命令; 发送器 42具体用于向所述基站发送第一 RET独享权限设置成功响 应; 其中, 所述管理权限包括独享权限。
可选地, 接收器 41还用于在处理器 43与所述基站建立关于第一 RET的 通信连接之后, 接收所述基站发送的第一 RET权限读取命令, 所述第一 RET 权限读取命令属于新增加的 AISG接口命令; 发送器 42还用于向所述基站发 送第一 RET权限结果, 以使所述基站确定所述基站对所述第一 RET所拥有 的管理权限。
需要说明的是, 本实施例的天线设备的处理器 43可以为 RCU, 天线设 备可以为多频电调天线设备。 本实施例的天线设备, 可以用于执行本发明下述方法实施例中天线设备 所执行的技术方案, 其实现原理和技术效果类似, 此处不再赘述。
图 6为本发明多频电调天线管理系统实施例的结构示意图,如图 6所示, 本实施例的系统包括: 基站 10和天线设备 20, 其中, 基站 10可以采用图 2 或图 3所示的任一装置实施例的结构, 其对应地, 可以执行本发明下述方法 实施例中基站所执行的技术方案, 其实现原理和技术效果类似, 此处不再赘 述。天线设备 20可以采用图 4或图 5所示的任一装置实施例的结构, 天线设 备 20可以为多频电调天线设备, 其对应地, 可以执行本发明下述方法实施例 中天线设备所执行的技术方案, 其实现原理和技术效果类似, 此处不再赘述。
图 7为本发明多频电调天线管理方法实施例一的流程图, 如图 7所示, 本实施例的方法可以包括:
5101、 基站向天线设备发送扫描命令, 所述扫描命令用于指示所述天线 设备将所有的 RET的标识发送给所述基站。
5102、 所述基站接收所述天线设备发送的所述所有 RET的标识。
S103、 所述基站根据第一 RET 的标识, 与所述天线设备建立关于第一
RET的通信连接, 所述第一 RET为所述天线设备中的任一 RET。
本实施例中, 当多个基站共用同一个多频电调天线设备时, 需要多个基 站共同管理同一个多频电调天线设备, 即需要多个基站共同管理多频电调天 线设备中的 RET, —个 RET对应一个频段。本实施例中以多个基站中一个基 站为例进行说明, 其它基站的实现方式类似, 本实施例中的天线设备为多频 电调天线,其中,基站向天线设备传送的控制信令,需要经过天线设备的 AISG 端口到达该天线设备。
当基站需要对 RET进行配置时, 则基站向天线设备发送扫描命令, 该扫 描命令用于指示该天线设备将该天线设备中所有的 RET的标识发送给该基 站, 天线设备接收基站发送的扫描命令, 无论是否已有基站与该天线设备建 立关于该天线设备中的 RET的通信连接, 该天线设备均会根据该扫描命令, 将该天线设备中所有 RET的标识发送给该基站, RET的标识可以为 RET的 序列号, 然后基站接收到天线设备发送的所有 RET的标识, 其中, 基站可以 一次接收天线设备发送的所有 RET的标识, 也可以多次接收天线设备发送的 所有 RET的标识 (例如基站每次只接收一部分 RET的标识从而需要接收多 次以获取所有 RET的标识) , 可以与天线设备建立关于任一 RET的通信连 接, 该基站也可以与该天线设备建立有关至少一个 RET的通信连接。 以基站 与天线设备建立有关其中一个 RET (例如第一 RET) 的通信连接为例, 基站 可以根据第一 RET的标识, 与天线设备建立关于该第一 RET的通信连接, 具体实现过程可以为: 基站将第一 RET的标识添加至该基站所管理的 RET 的列表中, 然后基站将天线设备发送第一 RET的标识添加命令, 天线设备接 收到基站发送的该第一 RET的标识添加命令后, 即表示基站与天线设备已建 立关于第一 RET的通信连接, 然后基站可以拥有对该第一 RET的管理权限, 后续基站可以通过关于该第一 RET的通信连接对该第一 RET进行管理, 该 管理权限可以是基站主动配置的也可以是天线设备默认配置的, 本发明实施 例对此不做限制。 其中, 该管理权限包括如下至少一种: 控制权限、 查询权 限和独享权限, 值得注意的是, 拥有对 RET的控制权限的基站默认拥有对该 RET的查询权限。 但本发明实施例中的管理权限并不限于上述的权限。
该基站与天线设备建立该第一 RET的通信连接后, 其它基站也可以按照 上述 S101-S103的步骤与天线设备建立关于该第一 RET的通信连接, 因此, 可以存在多个基站与天线设备建立关于同一 RET的通信连接,需要说明的是, 在这种情况下, 只能有一个基站对该第一 RET拥有管理权限中的控制权限。
如何使得基站拥有对该第一 RET拥有管理权限, 可以有如下所述两种实 现方式, 本发明实施例并不限于下述两种实现方式。
在第一种可行的实现方式中,所述基站向所述天线设备发送第一 RET管 理权限设置命令, 所述第一 RET管理权限设置命令属于新增的 AISG接口命 令; 所述基站接收所述天线设备发送的第一 RET管理权限设置成功响应, 以 使所述基站拥有对所述第一 RET的所述管理权限。
在基站与天线设备建立关于第一 RET的通信连接之后, 基站可以主动设 置对该第一 RET拥有的管理权限, 即基站可以向天线设备发送第一 RET管 理权限设置命令, 该第一 RET管理权限设置命令为新增的 AISG接口命令。 天线设备接收基站发送的第一 RET管理权限设置命令, 获知基站决定主动配 置对该第一 RET的管理权限, 然后天线设备向基站发送第一 RET管理权限 设置成功响应, 以通知基站已经成功配置对该第一 RET的管理权限, 然后基 站接收天线设备发送的第一 RET管理权限设置成功响应, 以使该基站拥有对 该第一 RET的管理权限, 从而实现基站可以主动配置对 RET的管理权限。 需要说明的是, 当该基站需要与天线设备重新建立关于第一 RET的通信 连接时, 基站均需要再次发送第一 RET管理权限设置命令和接收第一 RET 管理权限设置成功响应, 才能拥有对第一 RET的管理权限。
在第二种可行的实现方式中, 基站拥有的对第一 RET的管理权限是由天 线设备为所述基站所设置的,在基站与天线设备建立关于第一 RET的通信连 接之后, 基站可以不需要主动设置对该第一 RET拥有的管理权限, 而是由天 线设备来默认设置基站对第一 RET所拥有的管理权限, 即上述的通信连接建 立好之后, 天线设备就默认该基站拥有对该第一 RET的管理权限。
而现有技术中, 天线设备只将未被基站配置的 RET的标识发送给请求基 站, 若第一基站已经配置了第一 RET、第二 RET和第三 RET, 而第二基站却 不能配置任一 RET, 并且第二 RET和第三 RET实际是由第二基站配置的, 当第一基站与第二基站属于不同的运营商时, 第二基站不能确定是第一基站 配置出错还是天线设备与 SBT之间的物理连线断开,从而无法快速定位问题。 而本发明实施例中, 天线设备是将所有 RET的标识发送给所有基站, 因此, 若基站未接收到天线设备发送的 RET的标识, 则可确定是天线设备与 SBT 之间的物理连接断开, 从而快速定位问题, 降低了运维成本, 提高了运维效 率和质量。
图 8为本发明多频电调天线管理方法实施例二的流程图, 如图 8所示, 本实施例的方法可以包括:
5201、 天线设备接收基站发送的扫描命令, 所述扫描命令用于指示所述 天线设备将所有的 RET的标识发送给所述基站。
5202、 所述天线设备向所述基站发送所述所有 RET的标识。
5203、所述天线设备与所述基站建立关于第一 RET的通信连接, 所述第 一 RET为所述天线设备中的任一 RET。
本实施例中, 当多个基站共用同一个多频电调天线时, 需要多个基站共 同管理同一个多频电调天线, 即需要多个基站共同管理多频电调天线中的 RET。 本实施例中的天线设备为多频电调天线, 本实施例中以天线设备与多 个基站中一个基站的交互为例进行说明, 其它基站的实现方式类似, 其中, 天线设备需要通过天线设备的 AISG端口接收基站发送的控制信令。 当基站需要对 RET进行配置时, 则基站向天线设备发送扫描命令, 该扫 描命令用于指示该天线设备将该天线设备中所有的 RET的标识发送给该基 站, 天线设备接收基站发送的扫描命令, 无论是否已有基站与该天线设备建 立关于该天线设备中的 RET的通信连接, 该天线设备均会根据该扫描命令, 将该天线设备中所有 RET的标识发送给该基站, 其中, 天线设备可以一次向 基站发送所有 RET的标识, 也可以多次向基站发送的所有 RET的标识 (例 如天线设备每次只发送一部分 RET的标识从而需要发送多次才使基站获取所 有 RET的标识) , RET的标识可以为 RET的序列号, 然后天线设备可以与 基站建立关于任一 RET的通信连接, 该基站也可以与该天线设备建立有关至 少一个 RET的通信连接。以其中一个 RET (例如第一 RET)的通信连接为例, 天线设备可以与基站建立关于该第一 RET的通信连接,具体实现过程可以为: 基站将第一 RET的标识添加至该基站所管理的 RET的列表中, 然后基站将 天线设备发送第一 RET的标识添加命令, 天线设备接收到基站发送的该第一 RET的标识添加命令后,即表示基站与天线设备已建立关于第一 RET的通信 连接, 然后基站可以拥有对该第一 RET的管理权限, 后续基站可以通过关于 该第一 RET的通信连接对该第一 RET进行管理, 该管理权限可以是基站主 动配置的也可以是天线设备默认配置的, 本发明实施例对此不做限制。其中, 该管理权限包括如下至少一种: 控制权限、 查询权限和独享权限, 值得注意 的是, 拥有对 RET的控制权限的基站默认拥有对该 RET的查询权限。 但本 发明实施例中的管理权限并不限于上述的权限。
该天线设备与基站建立关于第一 RET的通信连接后, 天线设备也可以按 照上述 S201-S203的步骤与其它基站建立关于该第一 RET的通信连接,因此, 可以存在天线设备与多个基站建立关于同一 RET的通信连接,需要说明的是, 在这种情况下, 只能有一个基站对该第一 RET拥有管理权限中的控制权限。
如何使得基站拥有对该第一 RET拥有管理权限, 可以有如下所述两种实 现方式, 本发明实施例并不限于下述两种实现方式。
在第一种可行的实现方式中, 所述天线设备接收所述基站发送的第一 RET管理权限设置命令, 所述第一 RET管理权限设置命令属于新增的 AISG 接口命令; 所述天线设备向所述基站发送第一 RET管理权限设置成功响应, 以使所述基站拥有对所述第一 RET的管理权限。 在基站与天线设备建立关于第一 RET的通信连接之后, 基站可以主动设 置对该第一 RET拥有的管理权限, 即基站可以向天线设备发送第一 RET管 理权限设置命令, 该第一 RET管理权限设置命令为新增的 AISG接口命令。 天线设备接收基站发送的第一 RET管理权限设置命令, 获知基站决定主动配 置对该第一 RET的管理权限, 然后天线设备向基站发送第一 RET管理权限 设置成功响应, 以通知基站已经成功配置对该第一 RET的管理权限, 然后基 站接收天线设备发送的第一 RET管理权限设置成功响应, 以使该基站拥有对 该第一 RET的管理权限, 从而实现基站可以主动配置对 RET的管理权限。
需要说明的是, 当该基站需要与天线设备重新建立关于第一 RET的通信 连接时, 天线设备均需要再次接收到该基站发送的第一 RET管理权限设置命 令和向该基站发送第一 RET管理权限设置成功响应, 才能确定基站拥有对第 一 RET的管理权限。
在第二种可行的实现方式中, 所述天线设备默认设置所述基站拥有对所 述第一 RET的所述管理权限。 在基站与天线设备建立关于第一 RET的通信 连接之后, 基站可以不需要主动设置对该第一 RET拥有的管理权限, 而是由 天线设备来默认设置基站对第一 RET所拥有的管理权限, 即上述的通信连接 建立好之后, 天线设备就默认该基站拥有对该第一 RET的管理权限。
而现有技术中, 天线设备只将未被基站配置的 RET的标识发送给请求基 站, 若第一基站已经配置了第一 RET、第二 RET和第三 RET, 而第二基站却 不能配置任一 RET, 并且第二 RET和第三 RET实际是由第二基站配置的, 当第一基站与第二基站属于不同的运营商时, 第二基站不能确定是第一基站 配置出错还是天线设备与 SBT之间的物理连线断开,从而无法快速定位问题。 而本发明实施例中, 天线设备是将所有 RET的标识发送给所有基站, 因此, 若基站未接收到天线设备发送的 RET的标识, 则可确定是天线设备与 SBT 之间的物理连接断开, 从而快速定位问题, 降低了运维成功, 提高了运维效 率和质量。
图 9为本发明多频电调天线管理方法实施例三的流程图, 如图 9所示, 基站对第一 RET所拥有的管理权限由基站设置, 本实施例的方法可以包括: S301、 发送扫描命令。
S302、 发送所有 RET的标识。 5303、 建立关于第一 RET的通信连接。
5304、 发送第一 RET控制权限设置命令。
5305、 发送第一 RET控制权限设置成功响应。
本实施例中, S301-S303的具体实现过程可以参见本发明方法实施例一或 实施例二中的相关记载, 此处不再赘述。
在基站与天线设备建立关于第一 RET的通信连接之后, 基站可以主动设 置对该第一 RET拥有的管理权限, 该管理权限包括控制权限, 即基站可以向 天线设备发送第一 RET控制权限设置命令, 该第一 RET控制权限设置命令 为新增的 AISG接口命令, 需要说明的是, 基站发送第一 RET控制权限设置 命令, 即表示基站需要配置对该第一 RET的控制权限, 当基站拥有对该第一 RET的控制权限时默认该基站拥有对该第一 RET的查询权限。天线设备接收 基站发送的第一 RET控制权限设置命令, 获知基站决定主动配置对该第一 RET的控制权限,然后天线设备向基站发送第一 RET控制权限设置成功响应, 以通知基站已经成功配置拥有对该第一 RET的控制权限, 然后基站接收天线 设备发送的第一 RET控制权限设置成功响应,以使该基站拥有对该第一 RET 的控制权限, 从而实现基站可以主动配置拥有对 RET的控制权限。
需要说明的是, 天线设备向基站发送第一 RET控制权限设置成功响应存 在两种实现方式。
在第一种可行的实现方式中, 基站与天线设备建立关于第一 RET的通信 连接时, 没有除该基站之外的其它基站与该天线设备建立关于第一 RET的通 信连接, 即此时, 天线设备只与该一个基站建立关于第一 RET的通信连接, 因此, 天线设备接收到该基站发送的第一 RET控制权限设置命令, 根据只有 一个基站对该第一 RET拥有控制权限, 确定该基站可以拥有对该第一 RET 的控制权限, 然后向该基站发送第一 RET控制权限设置成功响应, 以表示该 基站可以拥有对该第一 RET的控制权限。
在第二种可行的实现方式中, 基站与天线设备建立关于第一 RET的通信 连接时, 已经有其它基站与该天线设备建立关于第一 RET的通信连接, 即此 时天线设备已与多个基站建立关于第一 RET的通信连接, 并且这些其它基站 只拥有对该第一 RET的查询权限,若天线设备接收到该基站发送的第一 RET 控制权限设置命令, 根据只有一个基站对该第一 RET拥有控制权限, 确定该 基站可以拥有对该第一 RET的控制权限, 然后向该基站发送第一 RET控制 权限设置成功响应, 以表示该基站可以拥有对该第一 RET的控制权限。
需要说明的是, 当基站需要与天线设备重新建立关于第一 RET的通信连 接时, 基站均需要通过再次通过如上所述的 S304和 S305的方式, 才可以拥 有对第一 RET的控制权限。
可选地, 本实施例的方法还可以包括:
5306、 发送第一 RET控制命令。
5307、 根据所述第一 RET控制命令, 对所述第一 RET进行控制处理。
5308、 发送第一 RET控制成功响应。
本实施例中, 在所述基站接收到天线设备发送的第一 RET控制权限设置 成功命令之后, 表示基站已经拥有对该基站的控制权限, 所述基站可以向所 述天线设备发送第一 RET控制命令, 相应地, 天线设备接收基站发送的第一 RET控制命令, 以及根据该第一 RET控制命令对该第一 RET进行控制处理, 若该第一 RET控制命令为用于设置第一 RET下倾角的命令, 则天线设备将 第一 RET的下倾角大小设置为基站所要求的下倾角值。 若该第一 RET控制 命令为用于校准第一 RET的命令, 则天线设备对第一 RET进行校准。 然后 天线设备向基站发送第一 RET控制成功响应, 相应地, 基站接收天线设备发 送的第一 RET控制成功响应, 表示天线设备已按照基站的控制指示对第一 RET进行了处理。
可选地, 本实施例的方法还可以包括:
5309、 发送第一 RET查询权限设置命令。
5310、 发送第一 RET查询权限设置成功响应。
本实施例中, 基站接收到天线设备发送的第一 RET控制权限设置成功响 应之后, 该基站需要释放该基站对第一 RET所拥有的控制权限时, 例如: 基 站获取管理人员下发的指令, 该指令指示该基站释放该基站对第一 RET所拥 有的控制权限, 基站确定需要释放该基站对第一 RET所拥有的控制权限; 管 理人员下发上述指令可以是另一基站需要对该第一 RET拥有控制权限时另一 个基站的管理人员与本实施例中基站的管理人员进行协商后触发的。 由于基 站已经拥有了对第一 RET的控制权限, 基站向天线设备发送第一 RET查询 权限设置命令, 该第一 RET查询权限设置命令属于新增的 AISG接口命令, 相应地, 天线设备接收基站发送的第一 RET查询权限设置命令, 根据多个基 站可以拥有同一个 RET的查询权限的原则, 确定该基站可以拥有对该第一 RET的查询权限, 并且释放掉该基站对该第一 RET所拥有的控制权限, 然后 天线设备向基站发送第一 RET查询权限配置成功响应, 以使该基站拥有对该 第一 RET的查询权限, 相应地, 基站接收到天线设备发送的第一 RET查询 权限配置成功响应, 从而该基站释放了对第一 RET的控制权限并且拥有对该 第一 RET的查询权限, 实现了基站可以实时通过 AISG接口命令设置该基站 对第一 RET的权限类别。
需要说明的是, 其它基站需要设置拥有第一 RET的控制权限时, 可以通 过类似上述 S301-S305来实现。
可选地, 本实施例在执行 S305之后还可以包括:
5311、 发送第一 RET查询命令。
5312、 根据所述第一 RET查询命令, 对所述第一 RET进行查询。
5313、 发送第一 RET查询结果。
本实施例中, 当该基站拥有对第一 RET的查询权限时, 所述基站可以通 过所述 AISG端口向所述天线设备发送第一 RET查询命令, 相应地, 天线设 备通过 AISG接口接收基站发送的第一 RET查询命令, 以及根据该第一 RET 查询命令对该第一 RET进行查询, 例如: 该第一 RET查询命令可以为用于 查询第一 RET下倾角的命令, 则天线设备对第一 RET的下倾角进行查询, 查询得到的第一 RET的下倾角值为第一 RET查询结果。 然后天线设备向基 站发送第一 RET查询结果, 相应地, 基站接收天线设备发送的第一 RET查 询结果, 从而基站可以获取第一 RET的相关信息。
本发明实施例提供的多频电调天线管理方法, 在基站与天线设备建立关 于第一 RET的通信连接后, 基站向天线设备发送第一 RET控制权限命令来 设置该基站拥有对该第一 RET的控制权限。当基站需要释放该基站所拥有的 控制权限时, 基站向天线设备发送第一 RET查询权限命令来释放该基站所拥 有的对该第一 RET的控制权限, 以使其它基站可以拥有该第一 RET的控制 权限。 从而可以实现基站通过 AISG接口命令主动并且实时更改对第一 RET 的权限类别。
图 10为本发明多频电调天线管理方法实施例四的流程图,如图 10所示, 基站对第一 RET所拥有的管理权限由基站设置, 本实施例的方法可以包括:
5401、 发送扫描命令。
5402、 发送所有 RET的标识。
一 RET的通信连接。
Figure imgf000034_0001
55440055、、 发发送送第第一一 RREETT查查询询权权限限设设置置成成功功响响应应。。
本本实实施施例例中中,, SS440011--SS440033的的具具体体实实现现过过程程可可以以参参见见本本发发明明方方法法实实施施例例一一或或 实实施施例例二二中中的的相相关关记记载载,, 此此处处不不再再赘赘述述。。
在在基基站站与与天天线线设设备备建建立立关关于于第第一一 RREETT的的通通信信连连接接之之后后,, 基基站站可可以以主主动动设设
1100 置置对对该该第第一一 RREETT拥拥有有的的管管理理权权限限,, 该该管管理理权权限限包包括括查查询询权权限限,, 即即基基站站可可以以向向 天天线线设设备备发发送送第第一一 RREETT查查询询权权限限设设置置命命令令,, 该该第第一一 RREETT查查询询权权限限设设置置命命令令 为为新新增增的的 AAIISSGG接接口口命命令令,, 需需要要说说明明的的是是,, 基基站站发发送送第第一一 RREETT查查询询权权限限设设置置 命命令令,, 即即表表示示基基站站需需要要配配置置对对该该第第一一 RREETT的的查查询询权权限限。。 天天线线设设备备接接收收基基站站发发 送送的的第第一一 RREETT查查询询权权限限设设置置命命令令,, 获获知知基基站站决决定定主主动动配配置置对对该该第第一一 RREETT的的
1155 查查询询权权限限,, 由由于于本本实实施施例例中中多多个个基基站站可可以以同同时时拥拥有有同同一一 RREETT的的查查询询权权限限,, 然然 后后天天线线设设备备向向基基站站发发送送第第一一 RREETT查查询询权权限限设设置置成成功功响响应应,, 以以通通知知基基站站已已经经成成 功功配配置置对对该该第第一一 RREETT的的查查询询权权限限,, 然然后后基基站站接接收收天天线线设设备备发发送送的的第第一一 RREETT 查查询询权权限限设设置置成成功功响响应应,, 以以使使该该基基站站拥拥有有对对该该第第一一 RREETT的的查查询询权权限限,, 从从而而实实 现现基基站站可可以以主主动动配配置置对对 RREETT的的查查询询权权限限。。
2200 需需要要说说明明的的是是,, 当当基基站站需需要要与与天天线线设设备备重重新新建建立立关关于于第第一一 RREETT的的通通信信连连 接接时时,, 基基站站均均需需要要通通过过再再次次通通过过如如上上所所述述的的 SS440044和和 SS440055的的方方式式,, 才才可可以以拥拥 有有对对第第一一 RREETT的的查查询询权权限限。。
可可选选地地,, 本本实实施施例例的的方方法法还还可可以以包包括括::
55440066、、 发发送送第第一一 RREETT查查询询命命令令。。
2255 SS440077、、 根根据据所所述述第第一一 RREETT查查询询命命令令,, 对对所所述述第第一一 RREETT进进行行查查询询。。
SS440088、、 发发送送第第一一 RREETT查查询询结结果果。。
本本实实施施例例中中,, SS440066--SS440088的的具具体体实实现现过过程程与与本本发发明明方方法法实实施施例例三三中中的的 SS331111--SS331133的的具具体体实实现现过过程程类类似似,, 此此处处不不再再赘赘述述。。
可可选选地地,, 本本实实施施例例的的方方法法在在执执行行 SS440044之之前前还还可可以以包包括括::
Figure imgf000034_0002
S410、 发送第一 RET控制权限冲突响应。
本实施例中, 在基站与天线设备建立关于第一 RET的通信连接之后, 基 站可以主动设置对该第一 RET拥有的控制权限, 即基站可以向天线设备发送 第一 RET控制权限设置命令, 需要说明的是, 基站发送第一 RET控制权限 设置命令, 即表示基站需要配置对该第一 RET的控制权限, 当基站拥有对该 第一 RET的控制权限时默认该基站拥有对该第一 RET的查询权限。 天线设 备接收基站发送的第一 RET控制权限设置命令, 获知基站决定主动配置拥有 对该第一 RET的控制权限, 若天线设备已与第一基站建立关于第一 RET的 通信连接, 并且天线设备已经接收到该第一基站发送的第一 RET控制权限设 置命令, 即表示第一基站已经主动设置了拥有对该第一 RET的控制权限。 天 线设备根据只能有一个基站对该第一 RET拥有控制权限, 则本实施例中基站 发送的第一 RET控制权限设置命令存在冲突, 天线设备不能确定该基站拥有 对该第一 RET的控制权限, 然后天线设备向基站发送第一 RET控制权限冲 突响应, 以通知基站配置的该第一 RET的控制权限存在冲突, 然后基站接收 天线设备发送的第一 RET控制权限冲突响应, 从而基站可以确定此时不能拥 有对该第一 RET的控制权限, 然后基站主动配置对 RET的查询权限, 根据 第一 RET控制权限冲突响应向天线设备发送第一 RET查询权限设置命令, 具体实现过程如 S404和 S405所示。
本发明实施例提供的多频电调天线管理方法, 在基站与天线设备建立关 于第一 RET的通信连接后, 基站向天线设备发送第一 RET查询权限命令来 设置该基站拥有对该第一 RET的查询权限。 进一步地, 当基站设置拥有对该 第一 RET的控制权限存在冲突时, 基站可以设置拥有对该第一 RET的查询 权限。 从而可以实现基站通过 AISG接口命令主动并且实时更改对第一 RET 的权限类别。
图 11为本发明多频电调天线管理方法实施例五的流程图,如图 11所示, 基站对第一 RET所拥有的管理权限可以由天线设备所默认设置, 本实施例的 方法可以包括:
5501、 发送扫描命令。
5502、 发送所有 RET的标识。
S503、 建立关于第一 RET的通信连接。 5504、 默认设置所述基站拥有对所述第一 RET的控制权限。
本实施例中, S501-S503的具体实现过程可以参见本发明方法实施例一或 实施例二中的相关记载, 此处不再赘述。
在基站与天线设备建立关于第一 RET的通信连接之后, 基站可以不需要 主动设置对该第一 RET拥有的管理权限, 而是由天线设备来默认设置基站的 管理权限。 在第一种情况下, 当基站与天线设备建立关于第一 RET的通信连 接时, 没有除该基站之外的其它基站与该天线设备建立关于第一 RET的通信 连接, 即此时, 天线设备只与该一个基站建立关于第一 RET的通信连接。 在 第二种情况下, 基站与天线设备建立关于第一 RET的通信连接时未存在第一 基站, 该第一基站已与天线设备建立关于第一 RET的通信连接并且拥有对该 第一 RET的控制权限, 即已经有其它基站与该天线设备建立关于第一 RET 的通信连接, 即此时天线设备已与多个基站建立关于第一 RET的通信连接, 并且这些其它基站只拥有对该第一 RET的查询权限。 在上述两种情况下, 天 线设备可以默认设置该基站拥有对该第一 RET的控制权限。
可选地, 本实施例的方法还可以包括:
5505、 发送第一 RET控制命令。
5506、 根据所述第一 RET控制命令, 对所述第一 RET进行控制处理。
5507、 发送第一 RET控制成功响应。
本实施例中, S505-S507的具体实现过程与本发明方法实施例 S306-S308 的具体实现过程类似, 此处不再赘述。
值得注意的是, 天线设备所默认设置的基站拥有对第一 RET的控制权限 没有基站主动设置拥有对第一 RET的控制权限的优先级高, 即天线设备已经 默认设置该基站拥有该第一 RET的控制权限, 当其它基站发送第一 RET控 制权限设置命令时, 则天线设备释放之前默认设置的第一 RET的控制权限。 因此, 可选地, 本实施例的方法还可以包括:
5508、 发送第一 RET控制权限设置命令。
5509、 发送第一 RET控制权限设置成功响应。
本实施例中, S508和 S509的具体实现过程与本发明方法实施例 S304和 S305的具体实现过程类似, 此处不再赘述。
图 12为本发明多频电调天线管理方法实施例六的流程图,如图 12所示, 基站对第一 RET所拥有的管理权限可以由天线设备所默认设置, 本实施例的 方法可以包括:
5601、 发送扫描命令。
5602、 发送所有 RET的标识。
S603、 建立关于第一 RET的通信连接。
5604、 默认设置所述基站拥有对所述第一 RET的查询权限。
本实施例中, S601-S603的具体实现过程可以参见本发明方法实施例一或 实施例二中的相关记载, 此处不再赘述。
在基站与天线设备建立关于第一 RET的通信连接之后, 基站可以不需要 主动设置对该第一 RET拥有的管理权限, 而是由天线设备来默认设置基站的 管理权限。当基站与天线设备建立关于第一 RET的通信连接时已存在第一基 站, 该第一基站已与天线设备建立关于第一 RET的通信连接并且拥有对该第 一 RET的控制权限, 此时天线设备已与多个基站建立关于第一 RET的通信 连接, 根据只有一个基站拥有对第一 RET的控制权限的原则, 天线设备可以 默认设置该基站拥有对该第一 RET的查询权限。
可选地, 本实施例的方法还可以包括:
5605、 发送第一 RET控制命令。
5606、 发送第一 RET控制权限冲突响应。
本实施例中,由于基站所拥有对第一 RET的管理权限是由天线设备设置, 基站并不确定该基站所拥有的权限类别, 若基站向天线设备发送第一 RET控 制命令, 天线设备接收基站发送的第一 RET控制命令后, 由于天线设备设置 该基站拥有对第一 RET的查询权限, 所以天线设备向基站发送第一 RET控 制权限冲突响应, 基站接收天线设备发送的第一 RET控制权限冲突响应, 从 而基站可以确定其未拥有对第一 RET的控制权限而是已经有其它基站拥有对 该第一 RET的控制权限。
可选地, 若该基站实际上拥有第一 RET的控制权限, 则基站可以主动设 置拥有对该第一 RET的控制权限, 具体过程详见本发明方法实施例中 S304 和 S305的相关记载, 此处不再赘述。
图 13为本发明多频电调天线管理方法实施例七的流程图,如图 13所示, 基站对第一 RET所拥有的管理权限可以由基站所设置, 本实施例的方法可以 包括:
5701、 发送扫描命令。
5702、 发送所有 RET的标识。
5703、 建立关于第一 RET的通信连接。
S704、 发送第一 RET独享权限设置命令。
S705、 发送第一 RET独享权限设置成功响应。
本实施例中, S701-S703的具体实现过程可以参见本发明方法实施例一或 实施例二中的相关记载, 此处不再赘述。
在基站与天线设备建立关于第一 RET的通信连接之后, 基站可以主动设 置对该第一 RET拥有的管理权限, 该管理权限包括独享权限, 即基站可以向 天线设备发送第一 RET独享权限设置命令, 该第一 RET独享权限设置命令 为新增的 AISG接口命令, 需要说明的是, 基站发送第一 RET独享权限设置 命令, 即表示基站需要配置对该第一 RET的独享权限, 当基站拥有对该第一 RET的独享权限时默认该基站拥有对该第一 RET的控制权限。天线设备接收 基站发送的第一 RET独享权限设置命令, 获知基站决定主动配置对该第一 RET的独享权限,然后天线设备向基站发送第一 RET独享权限设置成功响应, 进一步地, 天线设备确定未接收到第一基站发送的第一 RET独享权限设置命 令时向基站发送第一 RET独享权限设置成功响应, 以通知基站已经成功配置 拥有对该第一 RET的控制权限, 然后基站接收天线设备发送的第一 RET独 享权限设置成功响应, 以使该基站拥有对该第一 RET的独享权限, 该第一基 站已与该天线设备建立关于第一 RET的通信连接, 此时, 天线设备已与多个 基站建立关于第一 RET的通信连接,天线设备将释放其它基站对该第一 RET 所拥有的控制权限或查询权限, 此时其它基站不能该第一 RET进行控制和 / 或查询。
进一步地, 若其它基站也向天线设备发送第一 RET独享权限设置命令, 则天线设备将回复第一 RET独享权限冲突响应。
图 14为本发明多频电调天线管理方法实施例八的流程图,如图 14所示, 本实施例的方法在本发明上述各方法实施例的基础上, 本实施例的方法可以 包括:
S801、 发送第一 RET权限读取命令。 S802、 发送第一 RET权限结果。
本实施例中, 当基站需要获取此时该基站对第一 RET所拥有的权限类别 时, 基站可以向天线设备发送第一 RET权限读取命令, 该第一 RET权限读 取命令属于新增的 AISG接口命令, 相应地, 天线设备接收基站发送的第一 RET权限读取命令, 确定此时该基站所拥有的对第一 RET的管理权限, 然后 向基站发送第一 RET权限结果, 相应地, 基站接收天线设备发送的第一 RET 权限结果, 以使基站确定该基站对第一 RET所拥有的管理权限。该第一 RET 权限结果可以为控制权限, 或者, 查询权限, 或者, 独享权限, 或者, 空权 限。 若已有其它基站拥有对该第一 RET的独享权限, 则该基站对第一 RET 所拥有的管理权限为空权限 (即没有任何权限) 。
图 15为本发明多频电调天线管理方法的一种应用场景示意图, 如图 15 所示, 基站与天线设备之间的通信经过射频远程单元 (Radio Remote Unit, 简称: RRU) , RRU与天线设备的 AISG端口之间设置有 SBT, SBT用于分 流基站向天线发送的数据, 基站向天线设备发送的所有数据通过 RRU到达 SBT, 由 SBT将控制数据发送至天线设备的 AISG端口以到达天线设备, 由 SBT将业务数据发送至天线设备的射频 (Radio Frequency, 简称: RF) 以到 达天线设备。 本实施例的各方法实施例均可应用于图 15所示的应用场景中, 下面在图 15所示的应用场景列举两个实施例进行说明。
图 16为本发明多频电调天线管理方法实施例九的流程图,如图 16所示, 本实施例以天线设备中的一个 RET (例如 RET1 ) 为例进行说明, 本实施例 的方法可以包括:
5901、 发送扫描命令。
5902、 发送 RET1的标识、 RET2的标识和 RET3的标识。
5903、 建立关于 RET1的通信连接。
S904、 发送 RET1控制权限设置命令。
S905、 发送 RET1控制权限设置成功响应。
本实施例中, 基站 1可以通过天线设备的 AISG1端口向天线设备发送扫 描命令, 该扫描命令用于指示天线设备将所有的 RET的标识发送给基站 1。 然后天线设备根据扫描命令向基站 1发送 RET1的标识、 RET2的标识、 RET3 的标识。 然后基站 1可以 RET1的标识与天线设备建立关于 RET1的通信连 接。 基站 1可以配置对 RET1拥有控制权限, 通过 AISG1端口向天线设备发 送 RET1控制权限设置命令;当天线设备确定此时还没有基站对 REI1拥有控 制权限时, 天线设备向基站回复 RET1控制权限设置成功响应, 从而基站 1 对 RET1拥有控制权限, 然后基站 1可以 RET1进行控制和 /或查询, 具体过 程详见本发明上述方法实施例中的相关记载, 此处不再赘述。
5906、 发送扫描命令。
5907、 发送 RET1的标识、 RET2的标识和 RET3的标识。
5908、 建立关于 RET1的通信连接。
5909、 发送 RET1控制权限设置命令。
S910、 发送 RET1控制权限冲突响应。
本实施例中, 基站 2可以通过天线设备的 AISG2端口向天线设备发送扫 描命令, 该扫描命令用于指示天线设备将所有的 RET的标识发送给基站 2。 然后天线设备根据扫描命令向基站 2发送 RET1的标识、 RET2的标识、 RET3 的标识。 然后基站 2可以 RET1的标识与天线设备建立关于 RET1的通信连 接。 基站 2欲配置对 RET1拥有控制权限, 可以通过 AISG1端口向天线设备 发送 RET1控制权限设置命令;此时天线设备确定基站 1已拥有对 REI1的控 制权限, 天线设备根据只能有一个基站对同一 RET拥有控制权限, 向基站回 复 RET1控制权限冲突响应, 以表示此时基站 2此时不能对 RET1拥有控制 权限。
S911、 发送 RET1查询权限设置命令。
S912、 发送 RET1查询权限设置成功响应。
本实施例中, 若基站 2实际未拥有对 RET1的控制权限, 在基站 2接收 到天线设备发送的第一 RET控制权限冲突命令后, 基站 2可以通过天线设备 的 AISG2端口向天线设备发送 RET1查询权限设置命令。 天线设备根据多个 基站可以同时拥有对同一个 RET的查询权限, 向基站 2发送 RET1查询权限 设置成功响应。 然后基站 2可以 RET1进行查询, 具体过程详见本发明上述 方法实施例中的相关记载, 此处不再赘述。
本发明实施例提供的多频电调天线管理方法, 通过天线设备向基站 1和 基站 2均发送 RET1、 RET2和 RET3的标识,解决了现在技术中存在的问题, 而且天线设备支持与基站 1和基站 2均建立关于同一 RET的通信连接, 同时 各基站对同一 RET可以设置不同的权限, 使基站 1既可以控制 RET1又可以 与基站 2共享 RET1的信息。 当基站 1与基站 2均需要设置拥有对 RET1的 控制权限, 天线设备向后设置控制权限的基站 2上报控制权限冲突, 方便各 基站间协商对同一 RET的控制权限配置。
图 17为本发明多频电调天线管理方法实施例十的流程图,如图 17所示, 本实施例以天线设备中的一个 RET (例如 RET1 ) 为例进行说明, 本实施例 的方法可以包括:
51001、 发送扫描命令。
51002、 发送 RET1的标识、 RET2的标识和 RET3的标识。
S1003、 建立关于 RET1的通信连接。
51004、 发送 RET1控制权限设置命令。
51005、 发送 RET1控制权限设置成功响应。
51006、 发送扫描命令。
51007、 发送 RET1的标识、 RET2的标识禾卩 RET3的标识。
S1008、 建立关于 RET1的通信连接。
51009、 发送 RET1控制权限设置命令。
51010、 发送 RET1控制权限冲突响应。
本实施例中, S1001-1010的具体实现过程与本发明方法实施例九中的 S901-S910的具体实现过程类似, 此处不再赘述。
S1011、 发送 RET1查询权限设置命令。
51012、 发送 RET1查询权限设置成功响应。
本实施例中, 若基站 2实际拥有对 RET1的控制权限, 则说明基站 1的 对 RET1的配置出错, 在基站 2接收到天线设备发送的第一 RET控制权限冲 突命令后, 基站 2的管理人员可以要求基站 1的管理人员释放对 RET1的控 制权限, 然后基站 1可以通过天线设备的 AISG1端口向天线设备发送 RET1 查询权限设置命令,以释放对 RET1的控制权限,天线设备向基站 1发送 RET1 查询权限设置成功响应, 表示基站 1已成功释放对 RET1的控制权限并且拥 有对 RET1的查询权限。
51013、 发送 RET1控制权限设置命令。
S1014、 发送 RET1控制权限设置成功响应。 本实施例中, 当基站 1已成功释放对 RET1的控制权限后, 基站 2可以 通过天线设备的 AISG2端口向天线设备发送 RET1控制权限设置命令, 以设 置对 RET1拥有控制权限, 天线设备向基站 2发送 RET1查询权限设置成功 响应, 表示基站 2已成功拥有对 RET1的控制权限并且拥有对 RET1的查询 权限。
本发明实施例提供的多频电调天线管理方法, 通过天线设备向基站 1和 基站 2均发送 RET1、 RET2和 RET3的标识,解决了现在技术中存在的问题, 而且天线设备支持与基站 1和基站 2均建立关于同一 RET的通信连接, 同时 各基站对同一 RET可以设置不同的权限, 使基站 1既可以控制 RET1又可以 与基站 2共享 RET1的信息。 当基站 1与基站 2均需要设置拥有对 RET1的 控制权限, 天线设备向后设置控制权限的基站 2上报控制权限冲突, 经各基 站间协商后, 基站 1释放对 RET1的控制权限, 基站 2再配置对 RET的控制 权限, 使基站 2既可以控制 RET1又可以与基站 1共享 RET1的信息。
本领域普通技术人员可以理解: 实现上述方法实施例的全部或部分步骤 可以通过程序指令相关的硬件来完成, 前述的程序可以存储于一计算机可读 取存储介质中, 该程序在执行时, 执行包括上述方法实施例的步骤; 而前述 的存储介质包括: ROM、 RAM, 磁碟或者光盘等各种可以存储程序代码的介 质。
最后应说明的是: 以上各实施例仅用以说明本发明的技术方案, 而非对 其限制; 尽管参照前述各实施例对本发明进行了详细的说明, 本领域的普通 技术人员应当理解:其依然可以对前述各实施例所记载的技术方案进行修改, 或者对其中部分或者全部技术特征进行等同替换; 而这些修改或者替换, 并 不使相应技术方案的本质脱离本发明各实施例技术方案的范围。

Claims

权 利 要 求 书
1、 一种基站, 其特征在于, 包括:
发送单元, 用于通过向天线设备发送扫描命令, 所述扫描命令用于指示 所述天线设备将所有的远程电调单元 RET的标识发送给所述基站;
接收单元, 用于接收所述天线设备发送的所述所有 RET的标识; 处理单元, 用于根据所述接收单元接收的第一 RET的标识, 与所述天线 设备建立关于第一 RET的通信连接, 所述第一 RET为所述天线设备中的任 一 RET;
其中, 所述基站拥有对所述第一 RET的管理权限。
2、 根据权利要求 1所述的基站, 其特征在于, 所述发送单元还用于在所 述处理单元根据第一 RET的标识, 与所述天线设备建立关于第一 RET的通 信连接之后, 向所述天线设备发送第一 RET 管理权限设置命令, 所述第一 RET管理权限设置命令属于新增的天线接口标准化 AISG接口命令;
所述接收单元还用于接收所述天线设备发送的第一 RET管理权限设置成 功响应, 以使所述基站拥有对所述第一 RET的所述管理权限。
3、 根据权利要求 1所述的基站, 其特征在于, 所述管理权限由所述天线 设备为所述基站所默认设置。
4、 根据权利要求 2所述的基站, 其特征在于, 所述发送单元具体用于向 所述天线设备发送第一 RET控制权限设置命令;
所述接收单元具体用于接收所述天线设备发送的第一 RET控制权限设置 成功响应;
其中, 所述管理权限包括控制权限。
5、 根据权利要求 4所述的基站, 其特征在于, 所述处理单元用于在所述 接收单元接收所述天线设备发送的第一 RET控制权限设置成功响应之后, 确 定所述基站是否需要释放对所述第一 RET所拥有的控制权限;
所述发送单元还用于, 当所述处理单元确定需要释放对所述第一 RET所 拥有的控制权限时, 向所述天线设备发送第一 RET查询权限设置命令; 所述接收单元还用于接收所述天线设备发送的第一 RET查询权限设置成 功响应, 以使所述基站拥有对所述第一 RET的查询权限。
6、 根据权利要求 3 所述的基站, 其特征在于, 若在所述基站根据第一 RET的标识与所述天线设备建立关于第一 RET的通信连接时未存在第一基站 时, 则所述天线设备所默认设置的所述管理权限包括控制权限;
其中, 所述第一基站已与所述天线设备建立关于所述第一 RET的通信连 接并且拥有对所述第一 RET的控制权限。
7、根据权利要求 4-6任意一项所述的基站,其特征在于,所述发送单元, 还用于在所述处理单元根据第一 RET的标识, 与所述天线设备建立关于第一 RET的通信连接之后, 向所述天线设备发送第一 RET控制命令;
所述接收单元,还用于接收所述天线设备发送的第一 RET控制成功响应。
8、 根据权利要求 2所述的基站, 其特征在于, 所述发送单元具体用于向 所述天线设备发送第一 RET查询权限设置命令;
所述接收单元还用于接收所述天线设备发送的第一 RET查询权限设置成 功响应;
其中, 所述管理权限包括查询权限。
9、 根据权利要求 8所述的基站, 其特征在于, 所述发送单元还用于在向 所述天线设备发送第一 RET查询权限设置命令之前, 向所述天线设备发送第 一 RET控制权限设置命令;
所述接收单元还用于接收所述天线设备发送的第一 RET控制权限冲突响 应。
10、 根据权利要求 3所述的基站, 其特征在于, 若在所述基站根据第一 RET 的标识与所述天线设备建立关于第一 RET 的通信连接时已存在第一基 站, 则所述天线设备所默认设置的所述管理权限包括查询权限, 所述第一基 站为与所述天线设备已建立关于所述第一 RET的通信连接并且拥有对所述第 一 RET的控制权限。
11、 根据权利要求 4-10任意一项所述的基站, 其特征在于, 所述发送单 元还用于在所述处理单元根据第一 RET的标识, 与所述天线设备建立关于第 一 RET的通信连接之后, 向所述天线设备发送第一 RET查询命令;
所述接收单元还用于接收所述天线设备发送的第一 RET查询结果。
12、 根据权利要求 2所述的基站, 其特征在于, 所述发送单元具体用于 向所述天线设备发送第一 RET独享权限设置命令;
所述接收单元具体用于接收所述天线设备发送的第一 RET独享权限设置 成功响应;
其中, 所述管理权限包括独享权限。
13、 根据权利要求 1-12任意一项所述的基站, 其特征在于, 所述发送单 元还用于在所述处理单元根据第一 RET的标识, 与所述天线设备建立关于第 一 RET的通信连接之后, 向所述天线设备发送第一 RET权限读取命令, 所 述第一 RET权限读取命令属于新增的 AISG接口命令;
所述接收单元还用于接收所述天线设备发送的第一 RET权限结果, 以确 定所述基站对所述第一 RET所拥有的管理权限。
14、 一种天线设备, 其特征在于, 包括:
接收单元, 用于接收基站发送的扫描命令, 所述扫描命令用于指示所述 天线设备将所有的远程电调单元 RET的标识发送给所述基站;
发送单元, 用于向所述基站发送所述所有 RET的标识;
处理单元, 用于与所述基站建立关于第一 RET 的通信连接, 所述第一 RET为所述天线设备中的任一 RET, 其中, 所述第一 RET由所述基站管理。
15、 根据权利要求 14所述的天线设备, 其特征在于, 所述接收单元还用 于在所述处理单元与所述基站建立关于第一 RET的通信连接之后,接收所述 基站发送的第一 RET管理权限设置命令, 所述第一 RET管理权限设置命令 属于新增的 AISG接口命令;
所述发送单元还用于向所述基站发送第一 RET管理权限设置成功响应, 以使所述基站拥有对所述第一 RET的管理权限。
16、 根据权利要求 14所述的天线设备, 其特征在于, 所述处理单元还用 于在与所述基站建立关于第一 RET的通信连接之后, 默认设置所述基站拥有 对所述第一 RET的管理权限。
17、 根据权利要求 15所述的天线设备, 其特征在于, 所述接收单元具体 用于接收所述基站发送的第一 RET控制权限设置命令;
所述发送单元具体用于向所述基站发送第一 RET控制权限设置成功响 应;
其中, 所述管理权限包括控制权限。
18、 根据权利要求 17所述的天线设备, 其特征在于, 所述接收单元还用 于所述发送单元向所述基站发送第一 RET控制权限设置成功响应之后, 接收 所述基站发送的第一 RET查询权限设置命令;
所述发送单元还用于向所述基站发送第一 RET查询权限设置成功响应, 以使所述基站拥有对所述第一 RET的查询权限。
19、 根据权利要求 16所述的天线设备, 其特征在于, 所述处理单元具体 用于, 若在与所述基站建立关于第一 RET的通信连接时未存在第一基站, 则 默认设置所述基站拥有对所述第一 RET的控制权限, 所述第一基站为与所述 天线设备已建立关于所述第一 RET的通信连接并且拥有对所述第一 RET的 控制权限的另一基站。
20、 根据权利要求 16-19任意一项所述的天线设备, 其特征在于, 所述 接收单元还用于在所述处理单元与所述基站建立关于第一 RET的通信连接之 后, 接收所述基站发送的第一 RET控制命令;
所述处理单元还用于根据所述第一 RET控制命令, 对所述第一 RET进 行控制处理;
所述发送单元还用于向所述基站发送第一 RET控制成功响应。
21、 根据权利要求 15所述的天线设备, 其特征在于, 所述接收单元具体 用于接收所述基站发送的第一 RET查询权限设置命令;
所述发送单元具体用于向所述基站发送第一 RET 查询权限设置成功响 应;
其中, 所述管理权限包括查询权限。
22、 根据权利要求 21所述的天线设备, 其特征在于, 所述接收单元还用 于在接收所述基站发送的第一 RET查询权限设置命令之前,接收所述基站发 送的第一 RET控制权限设置命令;
所述发送单元还用于, 若所述接收单元已接收到第一基站发送的第一 RET控制权限设置命令, 则向所述基站发送第一 RET控制权限冲突响应, 所 述第一基站已与所述天线设备建立关于所述第一 RET的通信连接。
23、 根据权利要求 16所述的天线设备, 其特征在于, 所述处理单元具体 用于, 若在与所述基站建立关于第一 RET的通信连接时已存在第一基站, 则 默认设置所述基站拥有对所述第一 RET的查询权限, 所述第一基站为与所述 天线设备已建立关于所述第一 RET的通信连接并且拥有对所述第一 RET的 控制权限的基站。
24、 根据权利要求 17-23任意一项所述的天线设备, 其特征在于, 所述 接收单元还用于在所述处理单元与所述基站建立关于第一 RET的通信连接之 后, 接收所述基站发送的第一 RET查询命令;
所述处理单元还用于根据所述第一 RET查询命令, 对所述第一 RET进 行查询;
所述发送单元还用于向所述基站发送第一 RET查询结果。
25、 根据权利要求 15所述的天线设备, 其特征在于, 所述接收单元具体 用于接收所述基站发送的第一 RET独享权限设置命令;
所述发送单元具体用于向所述基站发送第一 RET独享权限设置成功响 应;
其中, 所述管理权限包括独享权限。
26、 根据权利要求 14-25任意一项所述的天线设备, 其特征在于, 所述 接收单元还用于在所述处理单元与所述基站建立关于第一 RET的通信连接之 后, 接收所述基站发送的第一 RET权限读取命令, 所述第一 RET权限读取 命令属于新增加的 AISG接口命令;
所述发送单元还用于向所述基站发送第一 RET权限结果, 以使所述基站 确定所述基站对所述第一 RET所拥有的管理权限。
27、 一种多频电调天线管理方法, 其特征在于, 包括:
基站向天线设备发送扫描命令, 所述扫描命令用于指示所述天线设备将 所有的远程电调单元 RET的标识发送给所述基站;
所述基站接收所述天线设备发送的所述所有 RET的标识;
所述基站根据第一 RET的标识, 与所述天线设备建立关于第一 RET的 通信连接, 所述第一 RET为所述天线设备中的任一 RET;
其中, 所述基站拥有对所述第一 RET的管理权限。
28、根据权利要求 27所述的方法, 其特征在于, 所述基站根据第一 RET 的标识, 与所述天线设备建立关于第一 RET的通信连接之后, 还包括:
所述基站向所述天线设备发送第一 RET 管理权限设置命令, 所述第一 RET管理权限设置命令属于新增的天线接口标准化 AISG接口命令;
所述基站接收所述天线设备发送的第一 RET管理权限设置成功响应, 以 使所述基站拥有对所述第一 RET的所述管理权限。
29、 根据权利要求 27所述的方法, 其特征在于, 所述管理权限由所述天 线设备为所述基站所默认设置。
30、 根据权利要求 28所述的方法, 其特征在于, 所述基站向所述天线设 备发送第一 RET管理权限设置命令, 包括:
所述基站向所述天线设备发送第一 RET控制权限设置命令;
所述基站接收所述天线设备发送的第一 RET管理权限设置成功响应, 包 括:
所述基站接收所述天线设备发送的第一 RET控制权限设置成功响应; 其中, 所述管理权限包括控制权限。
31、 根据权利要求 30所述的方法, 其特征在于, 所述基站接收所述天线 设备发送的第一 RET控制权限设置成功响应之后, 还包括:
当所述基站需要释放对所述第一 RET所拥有的控制权限时, 所述基站向 所述天线设备发送第一 RET查询权限设置命令;
所述基站接收所述天线设备发送的第一 RET查询权限设置成功响应, 以 使所述基站拥有对所述第一 RET的查询权限。
32、 根据权利要求 29所述的方法, 其特征在于, 若在所述基站根据第一 RET的标识与所述天线设备建立关于第一 RET的通信连接时未存在第一基站 时, 则所述天线设备所默认设置的所述管理权限包括控制权限;
其中, 所述第一基站已与所述天线设备建立关于所述第一 RET的通信连 接并且拥有对所述第一 RET的控制权限。
33、 根据权利要求 30-32任意一项所述的方法, 其特征在于, 所述基站 根据第一 RET的标识, 与所述天线设备建立关于第一 RET的通信连接之后, 还包括:
所述基站向所述天线设备发送第一 RET控制命令;
所述基站接收所述天线设备发送的第一 RET控制成功响应。
34、 根据权利要求 28所述的方法, 其特征在于, 所述基站向所述天线设 备发送第一 RET管理权限设置命令, 包括:
所述基站向所述天线设备发送第一 RET查询权限设置命令;
所述基站接收所述天线设备发送的第一 RET管理权限设置成功响应, 包 括: 所述基站接收所述天线设备发送的第一 RET查询权限设置成功响应; 其中, 所述管理权限包括查询权限。
35、 根据权利要求 34所述的方法, 其特征在于, 所述基站向所述天线设 备发送第一 RET查询权限设置命令之前, 还包括:
所述基站向所述天线设备发送第一 RET控制权限设置命令;
所述基站接收所述天线设备发送的第一 RET控制权限冲突响应; 所述基站向所述天线设备发送第一 RET查询权限设置命令, 包括: 所述基站根据所述第一 RET控制权限冲突响应,通过向所述天线设备发 送第一 RET查询权限设置命令。
36、 根据权利要求 29所述的方法, 其特征在于, 若在所述基站根据第一
RET 的标识与所述天线设备建立关于第一 RET 的通信连接时已存在第一基 站, 则所述天线设备所默认设置的所述管理权限包括查询权限, 所述第一基 站为与所述天线设备已建立关于所述第一 RET的通信连接并且拥有对所述第 一 RET的控制权限。
37、 根据权利要求 30-36任意一项所述的方法, 其特征在于, 所述基站 根据第一 RET的标识, 与所述天线设备建立关于第一 RET的通信连接之后, 还包括:
所述基站向所述天线设备发送第一 RET查询命令;
所述基站接收所述天线设备发送的第一 RET查询结果。
38、 根据权利要求 28所述的方法, 其特征在于, 所述基站向所述天线设 备发送第一 RET管理权限设置命令, 包括:
所述基站向所述天线设备发送第一 RET独享权限设置命令;
所述基站接收所述天线设备发送的第一 RET管理权限设置成功响应, 包 括:
所述基站接收所述天线设备发送的第一 RET独享权限设置成功响应; 其中, 所述管理权限包括独享权限。
39、 根据权利要求 27-38任意一项所述的方法, 其特征在于, 所述基站 根据第一 RET的标识, 与所述天线设备建立关于第一 RET的通信连接之后, 还包括:
所述基站向所述天线设备发送第一 RET权限读取命令, 所述第一 RET 权限读取命令属于新增的 AISG接口命令;
所述基站接收所述天线设备发送的第一 RET权限结果, 以确定所述基站 对所述第一 RET所拥有的管理权限。
40、 一种多频电调天线管理方法, 其特征在于, 包括:
天线设备接收基站发送的扫描命令, 所述扫描命令用于指示所述天线设 备将所有的远程电调单元 RET的标识发送给所述基站;
所述天线设备向所述基站发送所述所有 RET的标识;
所述天线设备与所述基站建立关于第一 RET的通信连接,所述第一 RET 为所述天线设备中的任一 RET;
其中, 所述基站拥有对所述第一 RET的管理权限。
41、 根据权利要求 40所述的方法, 其特征在于, 所述天线设备与所述基 站建立关于第一 RET的通信连接之后, 还包括:
所述天线设备接收所述基站发送的第一 RET管理权限设置命令, 所述第 一 RET管理权限设置命令属于新增的 AISG接口命令;
所述天线设备向所述基站发送第一 RET管理权限设置成功响应, 以使所 述基站拥有对所述第一 RET的管理权限。
42、 根据权利要求 40所述的方法, 其特征在于, 所述天线设备与所述基 站建立关于第一 RET的通信连接之后, 还包括:
所述天线设备默认设置所述基站拥有对所述第一 RET的所述管理权限。
43、 根据权利要求 41所述的方法, 其特征在于, 所述天线设备接收所述 基站发送的第一 RET管理权限设置命令, 包括:
所述天线设备接收所述基站发送的第一 RET控制权限设置命令; 所述天线设备向所述基站发送第一 RET控制权限设置成功响应; 其中, 所述管理权限包括控制权限。
44、 根据权利要求 42所述的方法, 其特征在于, 所述天线设备向所述基 站发送第一 RET控制权限设置成功响应之后, 还包括:
所述天线设备接收所述基站发送的第一 RET查询权限设置命令; 所述天线设备向所述基站发送第一 RET查询权限设置成功响应, 以使所 述基站拥有对所述第一 RET的查询权限。
45、 根据权利要求 42所述的方法, 其特征在于, 所述天线设备默认设置 所述基站拥有对所述第一 RET的所述管理权限, 包括:
若在所述天线设备与所述基站建立关于第一 RET的通信连接时未存在第 一基站,则所述天线设备默认设置所述基站拥有对所述第一 RET的控制权限, 所述第一基站为与所述天线设备已建立关于所述第一 RET的通信连接并且拥 有对所述第一 RET的控制权限的另一基站。
46、 根据权利要求 42-45任意一项所述的方法, 其特征在于, 所述天线 设备与所述基站建立关于第一 RET的通信连接之后, 还包括:
所述天线设备接收所述基站发送的第一 RET控制命令;
所述天线设备根据所述第一 RET控制命令, 对所述第一 RET进行控制 处理;
所述天线设备向所述基站发送第一 RET控制成功响应。
47、 根据权利要求 41所述的方法, 其特征在于, 所述天线设备接收所述 基站发送的第一 RET管理权限设置命令, 包括:
所述天线设备接收所述基站发送的第一 RET查询权限设置命令; 所述天线设备向所述基站发送第一 RET查询权限设置成功响应; 其中, 所述管理权限包括查询权限。
48、 根据权利要求 47所述的方法, 其特征在于, 所述天线设备接收所述 基站发送的第一 RET查询权限设置命令之前, 还包括:
所述天线设备接收所述基站发送的第一 RET控制权限设置命令; 若所述天线设备确定已接收到第一基站发送的第一 RET控制权限设置命 令, 则所述天线设备向所述基站发送第一 RET控制权限冲突响应, 所述第一 基站已与所述天线设备建立关于所述第一 RET的通信连接。
49、 根据权利要求 42所述的方法, 其特征在于, 所述天线设备默认设置 所述基站拥有对所述第一 RET的所述管理权限, 包括:
若在所述天线设备与所述基站建立关于第一 RET的通信连接时已存在第 一基站,则所述天线设备默认设置所述基站拥有对所述第一 RET的查询权限, 所述第一基站为与所述天线设备已建立关于所述第一 RET的通信连接并且拥 有对所述第一 RET的控制权限的基站。
50、 根据权利要求 43-49任意一项所述的方法, 其特征在于, 所述天线 设备与所述基站建立关于第一 RET的通信连接之后, 还包括: 所述天线设备接收所述基站发送的第一 RET查询命令;
所述天线设备根据所述第一 RET查询命令, 对所述第一 RET进行查询; 所述天线设备向所述基站发送第一 RET查询结果。
51、 根据权利要求 41所述的方法, 其特征在于, 所述天线设备接收所述 基站发送的第一 RET管理权限设置命令, 包括:
所述天线设备接收所述基站发送的第一 RET独享权限设置命令; 所述天线设备向所述基站发送第一 RET独享权限设置成功响应; 其中, 所述管理权限包括独享权限。
52、 根据权利要求 40-51 任意一项所述的方法, 其特征在于, 所述天线 设备与所述基站建立关于第一 RET的通信连接之后, 还包括:
所述天线设备接收所述基站发送的第一 RET权限读取命令, 所述第一 RET权限读取命令属于新增加的 AISG接口命令;
所述天线设备向所述基站发送第一 RET权限结果, 以使所述基站确定所 述基站对所述第一 RET所拥有的管理权限。
53、 一种多频电调天线管理系统, 其特征在于, 包括: 如权利要求 1-13 任意一项所述的基站和如权利要求 14-26任意一项所述的天线设备。
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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2019000378A1 (zh) * 2017-06-30 2019-01-03 深圳市大疆创新科技有限公司 标识电调的方法、装置及动力系统、可移动平台
WO2022117910A1 (en) * 2020-12-03 2022-06-09 Elisa Oyj A computer implemented method for controlling a communications network

Families Citing this family (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US10367261B2 (en) 2016-06-17 2019-07-30 Commscope Technologies Llc Base station antennas with remotely reconfigurable electronic downtilt control paths and related methods of reconfiguring such antennas
CN111211848B (zh) * 2020-01-07 2022-07-08 中天通信技术有限公司 一种天线电调单元的自动测试方法、系统及相关组件
CN114499568A (zh) * 2021-12-30 2022-05-13 华为技术有限公司 一种通信方法及装置

Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN1905399A (zh) * 2006-08-08 2007-01-31 华为技术有限公司 一种实现2g网络电调天线集中控制的方法及系统
CN101035328A (zh) * 2007-04-25 2007-09-12 中兴通讯股份有限公司 一种无线通信系统中电调天线控制的方法及系统
CN102751574A (zh) * 2012-07-09 2012-10-24 广东博纬通信科技有限公司 电调装置、电调控制系统及电调控制方法
CN102780090A (zh) * 2012-07-24 2012-11-14 华为技术有限公司 一种电调天线以及控制方法、系统

Family Cites Families (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN101827374B (zh) * 2009-12-31 2013-08-07 中兴通讯股份有限公司 用于管理电调天线的操作维护系统、控制器和射频子系统

Patent Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN1905399A (zh) * 2006-08-08 2007-01-31 华为技术有限公司 一种实现2g网络电调天线集中控制的方法及系统
CN101035328A (zh) * 2007-04-25 2007-09-12 中兴通讯股份有限公司 一种无线通信系统中电调天线控制的方法及系统
CN102751574A (zh) * 2012-07-09 2012-10-24 广东博纬通信科技有限公司 电调装置、电调控制系统及电调控制方法
CN102780090A (zh) * 2012-07-24 2012-11-14 华为技术有限公司 一种电调天线以及控制方法、系统

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2019000378A1 (zh) * 2017-06-30 2019-01-03 深圳市大疆创新科技有限公司 标识电调的方法、装置及动力系统、可移动平台
WO2022117910A1 (en) * 2020-12-03 2022-06-09 Elisa Oyj A computer implemented method for controlling a communications network

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