WO2017000104A1 - Appareil, système et procédé de régulation d'économie d'énergie destinés à un dispositif de station - Google Patents

Appareil, système et procédé de régulation d'économie d'énergie destinés à un dispositif de station Download PDF

Info

Publication number
WO2017000104A1
WO2017000104A1 PCT/CN2015/082614 CN2015082614W WO2017000104A1 WO 2017000104 A1 WO2017000104 A1 WO 2017000104A1 CN 2015082614 W CN2015082614 W CN 2015082614W WO 2017000104 A1 WO2017000104 A1 WO 2017000104A1
Authority
WO
WIPO (PCT)
Prior art keywords
energy
saving
base station
master device
station master
Prior art date
Application number
PCT/CN2015/082614
Other languages
English (en)
Chinese (zh)
Inventor
段晓明
朱江
谢建湘
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/CN2015/082614 priority Critical patent/WO2017000104A1/fr
Priority to CN201580031700.XA priority patent/CN106489288A/zh
Publication of WO2017000104A1 publication Critical patent/WO2017000104A1/fr

Links

Images

Classifications

    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W24/00Supervisory, monitoring or testing arrangements
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W52/00Power management, e.g. TPC [Transmission Power Control], power saving or power classes
    • H04W52/02Power saving arrangements
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02DCLIMATE CHANGE MITIGATION TECHNOLOGIES IN INFORMATION AND COMMUNICATION TECHNOLOGIES [ICT], I.E. INFORMATION AND COMMUNICATION TECHNOLOGIES AIMING AT THE REDUCTION OF THEIR OWN ENERGY USE
    • Y02D30/00Reducing energy consumption in communication networks
    • Y02D30/70Reducing energy consumption in communication networks in wireless communication networks

Definitions

  • the embodiments of the present invention relate to the field of communications, and in particular, to a method, an apparatus, and a system for controlling energy saving of a site device.
  • the site equipment in the equipment room includes the base station main equipment, ventilation/cooling equipment, and power supply equipment.
  • the power consumption of the site equipment has always been a hot spot in the communication field. How to reduce the energy consumption of the site equipment and improve the energy efficiency of the entire wireless network has begun to be mentioned by the operators on the agenda.
  • the power consumption of the base station main equipment and the ventilation/cooling equipment accounts for about 95% of the total power consumption of the entire station equipment.
  • the power consumption of the base station main equipment is slightly higher than that of the ventilation/cooling equipment.
  • base station energy-saving technologies have made great progress. For example, high-efficiency RF power amplifiers, high-integration baseband processing chips, and software energy-saving management applications are maturing, and the power consumption of base station main equipment can be reduced to several hundred watts, and capacity. And the performance has also been significantly improved, greatly improving the energy efficiency of the base station's main equipment.
  • Embodiments of the present invention provide a method, a device, and a system for controlling energy saving of a site device, which can reduce energy consumption of the site device.
  • an embodiment of the present invention provides a method for controlling energy saving of a site device, including:
  • the energy-saving management system receives the running state information of the base station master device reported by the site controller and the running state information of the accessory device associated with the base station master device in the site device;
  • the energy-saving management system acquires a first energy-saving control parameter for the base station master device according to the operating state information of the base station master device and/or the running state information of the accessory device, and the matching The device acquires the second energy saving control parameter;
  • the energy saving management system transmits the first energy saving control parameter and the second energy saving control parameter to the site controller.
  • the operating state information of the base station master device includes: a power saving state of the base station master device, where the power saving state of the base station master device includes: The base station master device turns on or off the energy saving mode;
  • the operation status information of the accessory device includes: a backup energy state of the accessory device and a power saving state of the accessory device, and the energy-saving state of the accessory device includes: the accessory device turning on or off the energy-saving mode;
  • the energy-saving management system acquires a first energy-saving control parameter for the base station master device and a second energy-saving control parameter for the accessory device, according to the running state information of the base station master device and/or the running state information of the accessory device. ,include:
  • the energy-saving management system determines whether the standby energy state of the accessory device meets the preset first condition. If the backup energy state of the accessory device does not meet the first condition, the energy-saving management system acquires, for the base station master device, a first energy-saving control parameter that needs to extend the service time of the base station master device, If the backup energy state of the accessory device does not meet the first condition and the accessory device turns off the energy-saving mode, the energy-saving management system acquires a second energy-saving control parameter that changes the energy-saving state for the accessory device;
  • the energy-saving management system determines whether the standby power state of the accessory device meets the preset second condition. If the backup energy state of the accessory device meets the second condition, the energy-saving management system acquires, for the base station master device, a first energy-saving control parameter that changes a power-saving state, and if the backup device has the backup energy.
  • the energy-saving management system acquires the second energy-saving control parameter that changes the energy-saving state for the accessory device.
  • the operating state information of the base station master device includes: a power saving state of the base station master device, where the power saving state of the base station master device includes: The base station master device turns on or off the energy saving mode;
  • the running status information of the accessory device includes: an energy saving state of the accessory device, and the accessory
  • the energy-saving state of the device includes: the accessory device turns the energy-saving mode on or off;
  • the energy-saving management system acquires a first energy-saving control parameter for the base station master device and a second energy-saving control parameter for the accessory device, according to the running state information of the base station master device and/or the running state information of the accessory device. ,include:
  • the energy-saving management system determines that the base station master device is in the energy-saving mode according to the operating state information of the base station master device, if the accessory device starts the energy-saving mode, the energy-saving management system acquires the energy-saving change for the accessory device. a second energy saving control parameter of the state;
  • the energy-saving management system determines that the base station master device is in the energy-saving mode according to the operating state information of the base station master device, if the accessory device turns off the energy-saving mode, the energy-saving management system obtains the energy-saving change for the accessory device.
  • the second energy saving control parameter of the state is the first energy saving control parameter of the state.
  • the supporting device includes: a ventilation device, a cooling device, and a power device;
  • the operating status information of the accessory device includes: an outdoor temperature of the power device and the equipment room where the base station is located, and an indoor working environment temperature of the power device;
  • the energy-saving management system acquires a first energy-saving control parameter for the base station master device and a second energy-saving control parameter for the accessory device, according to the running state information of the base station master device and/or the running state information of the accessory device. ,include:
  • the energy saving management system acquires and operates the ventilation device to extract an outdoor cold air lowering station. a second energy-saving control parameter for the indoor working environment temperature;
  • the energy saving management system acquires and operates the refrigeration device to reduce the indoor working environment The second energy saving control parameter of the temperature.
  • the energy-saving management system receives, by the site controller, operation state information of the base station master device and related to the base station master device in the site device. After the running status information of the accessory device, the method further includes:
  • the energy saving management system obtains energy saving indication information according to the traffic volume carried by the base station primary device and the preset energy saving policy, where the energy saving The indication information includes: the energy saving management system determines whether the base station master device is allowed to enable or disable the energy saving mode;
  • the energy-saving management system sends the energy-saving indication information to the site controller, and the site controller sends the energy-saving indication information to the base station master device.
  • the energy-saving management system receives the running state information of the base station master device reported by the site controller and the running of the accessory device related to the base station master device After the status information, the method further includes:
  • the energy saving management system visualizes the presentation by using a chart Decoding power consumption information of the base station master device and power consumption information of the accessory device;
  • the energy-saving management system obtains an energy-saving effect according to the power consumption information of the base station master device and the power consumption information of the accessory device, and presents the energy-saving effect through a chart visualization.
  • an embodiment of the present invention provides a method for controlling energy saving of a site device, including:
  • the site controller acquires running state information of the base station master device, and acquires running state information of the accessory device related to the base station master device in the site device;
  • the site controller reports the running state information of the base station master device and the running state information of the accessory device to the energy saving management system;
  • the site controller receives the first energy-saving control parameter and the second energy-saving control parameter sent by the energy-saving management system, where the first energy-saving control parameter is the operating state information of the energy-saving management system according to the base station master device And the operating state information of the accessory device is obtained by the base station master device, and the second energy saving control parameter is that the energy saving management system is configured according to the operating state information of the base station master device and/or the accessory device.
  • the running status information is obtained by the accessory device;
  • the site controller sends the first energy saving control parameter to the base station master device, and sends the second power saving control parameter to the accessory device.
  • the site controller acquires the running state information of the base station master device, and acquires the accessory device related to the base station master device in the site device. Operation status information, including:
  • the site controller receives, by using a site control unit in the site controller, operational status information reported by the base station master device, where the site control unit is connected to the base station master device through an input/output I/O interface; or
  • the site controller receives, by the site control unit in the site controller, operation state information reported by the baseband processing unit BBU in the base station master device, where the site control unit is connected to the BBU through an I/O interface;
  • the site controller receives, by using a site control unit in the site controller, operational status information collected by the accessory device control unit from the accessory device, where the site control unit controls through the I/O interface and the accessory device. Unit connection.
  • the site controller acquires running state information of the base station master device, and acquires the accessory device related to the base station master device in the site device. Operation status information, including:
  • the site controller receives the operating state information reported by the radio remote unit RRU in the base station master device by using the control unit in the site controller and the BBU in the base station master device, and the control unit passes the I/ An O interface is connected to the RRU;
  • the site controller receives the running state information reported by the accessory device by using a control unit in the site controller, and the control unit is connected to the accessory device through an I/O interface.
  • the operating state information includes at least one of the following information
  • the power saving state includes: the base station master device, the accessory device, or the power saving mode is turned on or off.
  • the embodiment of the present invention further provides a method for controlling energy saving of a site device, including:
  • the base station master device reports the running status information of the base station master device to the site controller;
  • the base station master device determines, according to the first energy-saving control parameter, whether to change the energy-saving state of the base station master device, where the power-saving state includes: the base station master device turns on or disables the energy-saving mode.
  • the method further includes:
  • the base station master device Determining, by the base station master device, a power saving state of the base station master device according to the traffic volume carried by the base station master device and a preset energy saving policy, or the base station master device according to the energy saving indication information received from the site controller Determining a power saving state of the base station master device;
  • the base station master device reports the running status information of the base station master device to the site controller, specifically:
  • the base station master device carries the determined energy-saving state in the operating state information and sends the energy-saving state to the site controller, and the site controller sends the energy-saving state to the energy-saving management system.
  • the determining, by the base station, the base station, the determining, by the base station, the energy saving state of the base station is:
  • the base station master device changes the current power saving mode to the power saving mode
  • the base station master device changes the current power saving mode to the power saving mode.
  • the operating state information includes at least one of the following information The power consumption state, the temperature information, and the power saving state, where the power saving state includes: the base station master device turns on or off the energy saving mode.
  • an embodiment of the present invention provides a method for controlling energy saving of a site device, including:
  • the accessory device reports the running status information of the accessory device to the site controller, where the accessory device is one or more devices associated with the base station master device in the site device;
  • the accessory device determines, according to the second energy-saving control parameter, whether to change the energy-saving state of the accessory device, where the power-saving state includes: the accessory device turns the energy-saving mode on or off.
  • the method further includes:
  • the accessory device reports the running status information of the accessory device to the site controller, specifically:
  • the supporting device carries the determined energy-saving state in the operating state information and sends the energy-saving state to the site controller, and the site controller sends the energy-saving state to the energy-saving management system.
  • the accessory device determines, according to the second energy-saving control parameter, whether to change an energy-saving state of the accessory device, including:
  • the accessory device changes the current power-on mode to the power-off mode
  • the accessory device changes the current power-off mode to the power-saving mode.
  • the supporting device includes: a ventilation device, a cooling device, and a power device;
  • Determining, according to the second energy-saving control parameter, whether the energy-saving state of the accessory device is changed including:
  • the ventilation device If the second energy-saving control parameter indicates that the ventilation device is operated to extract the outdoor cold air to reduce the indoor working environment temperature, the ventilation device turns off the energy-saving mode, and then extracts the outdoor cold air to the power device and the base station main device. engine room;
  • the cooling device turns off the energy saving mode, and then starts to generate cold air to be delivered to the power device and the equipment room where the base station master device is located.
  • an embodiment of the present invention further provides an energy-saving management system, including:
  • a receiving module configured to receive operation state information of the base station master device reported by the site controller, and operation state information of the accessory device related to the base station master device in the site device;
  • An energy-saving control parameter obtaining module configured to acquire a first energy-saving control parameter for the base station master device and acquire a second power-saving control parameter for the base station master device according to the operating state information of the base station master device and/or the running state information of the accessory device Energy saving control parameters;
  • a sending module configured to send the first energy saving control parameter and the second power saving control parameter to the site controller.
  • the operating state information of the base station master device includes: a power saving state of the base station master device, where the power saving state of the base station master device includes: The base station master device turns on or off the energy saving mode;
  • the operation status information of the accessory device includes: a backup energy state of the accessory device and a power saving state of the accessory device, and the energy-saving state of the accessory device includes: the accessory device turning on or off the energy-saving mode;
  • the energy saving control parameter obtaining module includes:
  • a first control module configured to determine, when the energy-saving management system determines, according to the operating state information of the base station master device, that the base station master device is in a power-saving mode, determining whether the standby energy state of the accessory device meets a preset a condition, if the standby energy state of the accessory device does not satisfy the first condition, acquiring, by the base station master device, a first energy-saving control parameter that needs to extend the service time of the base station master device, if the accessory device The backup energy state does not satisfy the first condition and the accessory device When the energy saving mode is turned off, the second energy saving control parameter that changes the energy saving state is obtained for the accessory device;
  • a second control module configured to determine, when the energy-saving management system determines, according to the operating state information of the base station master device, that the base station master device starts the energy-saving mode, whether the standby energy state of the accessory device meets a preset And the second energy-saving control parameter for changing the energy-saving state of the base station master device, if the standby power state of the accessory device meets the second condition, if the standby device energy state of the accessory device meets When the second condition is described and the accessory device turns on the energy-saving mode, the second energy-saving control parameter that changes the energy-saving state is obtained for the accessory device.
  • the operating state information of the base station master device includes: a power saving state of the base station master device, where the power saving state of the base station master device includes: The base station master device turns on or off the energy saving mode;
  • the operation status information of the accessory device includes: the energy-saving state of the accessory device, and the energy-saving state of the accessory device includes: the accessory device turns the energy-saving mode on or off;
  • the energy-saving control parameter obtaining module is specifically configured to: when the energy-saving management system determines, according to the operating state information of the base station master device, that the base station master device turns off the energy-saving mode, if the accessory device starts the energy-saving mode, The supporting device obtains the second energy-saving control parameter that changes the energy-saving state; when the energy-saving management system determines that the base station master device turns on the energy-saving mode according to the operating state information of the base station master device, if the accessory device turns off the energy-saving mode, And acquiring, by the accessory device, a second energy-saving control parameter that changes a power-saving state.
  • the accessory device includes: a ventilation device, a cooling device, and a power device
  • the running status information of the accessory device includes: the power device and The outdoor temperature of the equipment room where the base station is located and the indoor working environment temperature of the power supply device;
  • the energy-saving control parameter obtaining module is specifically configured to: when the indoor working environment temperature of the power supply device is higher than a preset temperature threshold, and the outdoor temperature is lower than the indoor working environment temperature, acquire and operate the ventilation device Extracting, by the outdoor cold air, a second energy-saving control parameter for reducing the temperature of the indoor working environment; when the indoor working environment temperature of the power supply device is higher than a preset temperature threshold, and the outdoor temperature is higher than the indoor working environment temperature Obtaining a second energy-saving control parameter for operating the refrigeration device to reduce the temperature of the indoor working environment.
  • the energy-saving management system further includes: an energy-saving indication module, configured to receive, by the receiving module, a base station that is reported by the site controller After the running state information of the standby base station and the running state information of the associated device in the site device, the operating state information of the base station master device includes the traffic volume carried by the base station master device, according to the Obtaining the energy saving indication information, where the energy saving management system determines whether the base station master device is allowed to enable or disable the energy saving mode;
  • the sending module is further configured to send the energy saving indication information to the site controller, where the site controller sends the energy saving indication information to the base station master device.
  • the energy-saving management system further includes: a display processing module, configured to receive, by the receiving module, operation state information of the base station master device reported by the site controller And the running state information of the base station master device includes the power consumption information of the base station master device, and the running state information of the accessory device includes the The power consumption information of the accessory device is used to visualize the power consumption information of the base station master device and the power consumption information of the accessory device, and obtain the power consumption information of the base station master device and the power consumption information of the accessory device. Energy saving effect, and the energy saving effect is presented through a chart visualization.
  • an embodiment of the present invention further provides a site controller, including:
  • An acquiring module configured to acquire running state information of a base station master device, and obtain running state information of the accessory device related to the base station master device in the site device;
  • a first sending module configured to report, to the energy-saving management system, operation state information of the base station master device and running state information of the accessory device;
  • a receiving module configured to receive a first energy saving control parameter and a second power saving control parameter sent by the energy saving management system, where the first energy saving control parameter is an operating state information of the energy saving management system according to the base station master device And the operating state information of the accessory device is obtained by the base station master device, and the second energy saving control parameter is that the energy saving management system is configured according to the operating state information of the base station master device and/or the accessory device.
  • the running status information is obtained by the accessory device;
  • a second sending module configured to send the first power saving control parameter to the base station master device, and send the second power saving control parameter to the accessory device.
  • the acquiring module is configured to receive, by using a site control unit in the site controller, operation state information reported by the base station master device,
  • the site control unit is connected to the base station master device through an input/output I/O interface
  • the site controller receives the running status information reported by the baseband processing unit BBU in the base station master device by using the site control unit in the site controller, and the site control unit passes the I/O interface and the a BBU connection; receiving, by the site control unit in the site controller, operation state information collected by the accessory device control unit from the accessory device, where the site control unit passes the I/O interface and the accessory device control unit connection.
  • the acquiring module is configured to receive, by using, a control unit in the site controller and a BBU in the base station master device
  • the operating state information reported by the radio remote unit RRU in the master device the control unit is connected to the RRU through the I/O interface, and the operating state information reported by the accessory device is received by the control unit in the site controller.
  • the control unit is connected to the accessory device through an I/O interface.
  • the operating state information includes at least one of the following information
  • the power saving state includes: the base station master device, the accessory device, or the power saving mode is turned on or off.
  • the embodiment of the present invention further provides a base station master device, including:
  • a sending module configured to report, to the site controller, operation state information of the base station master device
  • a receiving module configured to receive a first energy saving control parameter sent by the site controller
  • the energy-saving control module is configured to determine, according to the first energy-saving control parameter, whether to change a power-saving state of the base station master device, where the power-saving state includes: the base station master device turns on or disables a power-saving mode.
  • the power saving control module is further configured to determine, according to the traffic volume carried by the base station master device and the preset energy saving policy, the base station master device The energy-saving state of the base station, or the base station master device determines the energy-saving state of the base station master device according to the energy-saving indication information received from the site controller;
  • the sending module is configured to carry the determined energy saving state in the running state information and send the information to the site controller, where the site controller sends the energy saving state to the energy saving management system.
  • the power saving control module is specifically configured to: if the first power saving control parameter indicates that the base station primary device service time needs to be extended, and the base station The main device is currently powered off, then the current power off mode is turned on. a power saving mode; if the first power saving control parameter indicates that the base station master device turns off the power saving mode and the base station master device currently turns on the power saving mode, the current power saving mode is changed to the power saving mode.
  • the operating state information includes at least one of the following information The power consumption state, the temperature information, and the power saving state, where the power saving state includes: the base station master device turns on or off the energy saving mode.
  • the embodiment of the present invention further provides an accessory device, where the accessory device is one or more devices associated with the base station master device in the site device, and the accessory device includes:
  • a sending module configured to report, to the site controller, operation status information of the accessory device
  • a receiving module configured to receive a second energy saving control parameter sent by the site controller
  • the energy-saving control module is configured to determine, according to the second energy-saving control parameter, whether to change the energy-saving state of the accessory device, where the power-saving state includes: the accessory device turns the energy-saving mode on or off.
  • the energy-saving control module is further configured to determine, according to the standby energy state, the temperature information, and the preset energy-saving policy of the accessory device, Energy-saving status of the supporting equipment;
  • the sending module is configured to carry the determined energy saving state in the running state information and send the information to the site controller, where the site controller sends the energy saving state to the energy saving management system.
  • the energy-saving control module is configured to: if the second energy-saving control parameter indicates that the accessory device is in a power-saving mode, and the accessory device is currently If the energy-saving mode is enabled, the current energy-saving mode is changed to the power-saving mode; if the second energy-saving control parameter indicates that the accessory device is in the energy-saving mode and the accessory device is currently in the energy-saving mode, the current mode is turned off. The energy saving mode is changed to the energy saving mode.
  • the supporting device includes: a ventilation device, a cooling device, and a power device;
  • the energy-saving control module is specifically configured to: if the second energy-saving control parameter indicates that the ventilation device is configured to extract outdoor cold air to reduce the indoor working environment temperature, turn off the energy-saving mode of the ventilation device, and then extract the outdoor cold air to the The power equipment and the equipment room where the base station is located; if the second energy-saving control parameter indicates that the cooling equipment is operated to reduce the indoor working environment temperature, the office is shut down The energy saving mode of the refrigeration device is then started to generate cold air delivery to the power room and the equipment room where the base station master device is located.
  • the ninth aspect, the embodiment of the present invention further provides an energy-saving control system for a site device, comprising: the energy-saving management system according to any one of the fifth aspects, the site controller according to any one of the sixth aspects The base station master device according to any one of the seventh aspect, wherein the accessory device is any one of the eighth aspects.
  • the energy-saving management system monitors, processes, and analyzes the running status information of the base station main equipment and the running status information of the supporting equipment, respectively, and formulates energy-saving control parameters for the base station main equipment and the supporting equipment, respectively, Energy-saving linkage control between devices can reduce the overall energy consumption of site equipment.
  • FIG. 1 is a schematic diagram of a network architecture of a method for controlling energy saving of a site device according to an embodiment of the present invention
  • FIG. 2 is a schematic block diagram of a method for controlling energy saving of a site device according to an embodiment of the present invention
  • FIG. 3 is a schematic diagram of an energy-saving linkage state transition according to an embodiment of the present invention.
  • FIG. 3 is a schematic diagram of another embodiment of energy-saving linkage state transition according to an embodiment of the present invention.
  • FIG. 4 is a schematic block diagram showing another method for controlling energy saving of a site device according to an embodiment of the present invention.
  • FIG. 5 is a schematic block diagram of another method for controlling energy saving of a site device according to an embodiment of the present disclosure
  • FIG. 6 is a schematic block diagram of another method for controlling energy saving of a site device according to an embodiment of the present disclosure
  • 7-a is a schematic structural diagram of an implementation of energy saving linkage of a site device based on SON according to an embodiment of the present invention
  • 7-b is a flow chart of a method for controlling energy-saving linkage of a site device according to an embodiment of the present invention
  • FIG. 7-c is a schematic diagram of another implementation architecture of a SON-based site device energy-saving linkage according to an embodiment of the present invention.
  • FIG. 7-d is a schematic diagram of another implementation architecture of a SON-based site device energy-saving linkage according to an embodiment of the present invention.
  • FIG. 8-a is a schematic structural diagram of an energy-saving management system according to an embodiment of the present invention.
  • FIG. 8-b is a schematic structural diagram of an energy-saving control parameter obtaining module according to an embodiment of the present invention.
  • FIG. 8-c is a schematic structural diagram of another energy-saving management system according to an embodiment of the present invention.
  • FIG. 8-d is a schematic structural diagram of another energy-saving management system according to an embodiment of the present invention.
  • FIG. 9 is a schematic structural diagram of a structure of a site controller according to an embodiment of the present invention.
  • FIG. 10 is a schematic structural diagram of a base station master device according to an embodiment of the present disclosure.
  • FIG. 11 is a schematic structural diagram of a structure of a site device according to an embodiment of the present disclosure.
  • FIG. 12 is a schematic structural diagram of a structure of an energy-saving control system for a site device according to an embodiment of the present invention.
  • FIG. 13 is a schematic structural diagram of another energy-saving management system according to an embodiment of the present invention.
  • FIG. 14 is a schematic structural diagram of another station controller according to an embodiment of the present disclosure.
  • FIG. 15 is a schematic structural diagram of another base station master device according to an embodiment of the present disclosure.
  • FIG. 16 is a schematic structural diagram of another station device according to an embodiment of the present invention.
  • Embodiments of the present invention provide a method, a device, and a system for controlling energy saving of a site device, which can reduce energy consumption of the site device.
  • FIG. 1 is a schematic diagram of the network architecture of the energy-saving control method for the site device in the present invention, and implement energy-saving of the site device based on the energy-saving management system.
  • Linkage control can make full use of the ability and advantages of the upper-layer software of the network to calculate and process the information reported by the site equipment, and realize the adaptive optimization management of the energy consumption of the site equipment.
  • the site equipment includes: the base station main equipment and the supporting equipment, and the supporting equipment refers to One or more devices associated with the base station master device in the site device, and the accessory device may be a power device, a ventilation device, and a cooling device.
  • the site controller may be an entity that implements a control function for the site device.
  • the site controller is connected to the base station master device through an input/output (I/O, Input/Output) interface, and the site controller is also connected to the accessory device through the I/O interface. .
  • the base station master device and the accessory device report their respective states to the site controller respectively.
  • the site controller After the site controller obtains the respective operating states of the base station master device and the accessory device, the site controller reports the base station master device and the accessory device to the energy-saving management system. Their respective status information.
  • the energy-saving management system monitors, processes, and analyzes the status information of the primary and secondary devices of the base station, and formulates energy-saving plans for the primary and secondary devices of the base station.
  • the energy-saving management system sends the energy-saving control parameters of the base station master device and the accessory device to the site controller, and the station controller then distributes the parameters to the base station master device or the accessory device, and finally the base station master device and the accessory device respectively follow the energy-saving management system.
  • the control parameters are set to run, so that the energy-saving linkage control of the base station master device and the accessory device in the site device can be realized.
  • the energy-saving algorithm of the upper layer is formulated by the energy-saving management system, and the main equipment of the base station and the supporting equipment perform energy-saving linkage, so that the linkage control between the upper-layer energy-saving algorithm and the underlying device can be realized, and the site equipment of different manufacturers can be easily facilitated. Flexible application of site equipment energy management and energy-saving linkage scheme.
  • An embodiment of the energy saving control method of the site device of the present invention can be applied to an energy saving management system, as shown in FIG. 2 .
  • the method for controlling energy saving of a site device provided by an embodiment of the present invention may include the following steps:
  • the energy-saving management system receives the running state information of the base station master device reported by the site controller and the running state information of the accessory device related to the base station master device in the site device.
  • the energy-saving management system is the main body of the energy-saving scheme, and is independent of the site controller.
  • the site controller is the control entity of the site device, and the energy-saving management system and the site controller are connected.
  • the connection may refer to establishing a wireless connection or a wired connection of the communication, and the site controller is respectively connected with the base station master device and the accessory device in the site device; the site controller acquires the base station master device
  • the running status information of the running status information of the base station and the running status information of the supporting equipment are reported to the energy saving management system;
  • the energy saving management system acquires the base station main equipment from the station controller. Operation status information and running status information of the accessory equipment.
  • the energy-saving management system needs to acquire the running state information of the site device as the input information necessary for formulating the energy-saving scheme; the running state information includes the state data generated by the device body during the working process.
  • the running status information of the site device is obtained according to the status information specified by the energy-saving management system.
  • the running status information that needs to be reported for each device included in the site device may be the same or different, and the site device and the energy-saving management system need to be combined. The actual situation to determine the specific content of the operating status information.
  • the running status information may include at least one of the following information: power consumption information, temperature information, energy saving state, and standby energy state
  • the energy saving state includes: whether the base station master device or the accessory device is Turn energy saving mode on or off.
  • the energy-saving mode refers to a state in which the main body of the device enters a state of being turned off or hibernating. When the energy-saving mode is turned on, the main body of the device is in a state of being turned off or hibernating, and the power consumed by the device itself is lower than that of the normal operating mode. less.
  • the running status information may include: power consumption information of the base station master device, temperature information of the base station master device, and energy saving status of the base station master device.
  • the energy-saving state of the base station master device refers to that the base station master device currently has the power-saving mode enabled or the power-saving mode is currently turned off.
  • the running status information includes: the power consumption information of the accessory device, the temperature information of the accessory device, and the energy-saving status of the accessory device.
  • the energy-saving state of the accessory device indicates that the accessory device is currently enabled with the energy-saving mode or is currently closed. Energy saving mode.
  • the running status information reported by the base station master device and the running status information reported by the accessory device may include one or more pieces of information of the foregoing content, and the content included in the running status information may also be managed according to energy saving.
  • the system develops the energy-saving scheme and adds other information content.
  • the base station master device and the supporting device can still report according to the information that the energy-saving management system needs to report.
  • the running status information of the base station master device may further include: the traffic volume carried by the base station master device, that is, the base station master device reports the traffic carried by the base station to the site controller, and the energy-saving management system may acquire the base station master device bearer from the site controller.
  • the energy-saving management system can separately formulate energy-saving schemes for the base station main equipment and the supporting equipment according to the traffic carried by the base station main equipment, and the site energy-saving technical solutions in the prior art are not based on the change of the base station traffic volume.
  • the present invention can be collected by the base station master device at different times of the day.
  • the amount of traffic carried by the primary equipment of the segment base station, and the primary device of the base station can also enable/disable the energy-saving mode according to the change of the traffic carried by the base station.
  • the energy-saving scheme formulated by the energy-saving management system for the supporting equipment can also consider the factors that change the amount of traffic carried by the base station, thereby establishing energy-saving linkage between the primary equipment and the supporting equipment of the base station. Therefore, the energy-saving management system can adjust the energy consumption of the supporting device according to the busy and idle working state of the base station main device, so as to achieve the optimal energy efficiency of the entire site device.
  • the energy-saving management system acquires the first energy-saving control parameter for the base station master device and the second energy-saving control parameter for the accessory device according to the running state information of the master device of the base station and/or the running state information of the accessory device.
  • the energy-saving management system may use the obtained running state information as the base station master device and the supporting device. Develop energy-saving plans separately.
  • the energy-saving management system formulates the energy-saving scheme, the running status information of the base station master device can be used, or the running state information of the supporting device can be used, and the state running information of the base station master device and the state running information of the supporting device can be simultaneously used.
  • the energy-saving management system may further set an energy-saving policy in advance, and the energy-saving management system may be the base station master device according to the preset energy-saving policy combined with the operation state information acquired from the base station master device and/or the operation state information acquired from the accessory device.
  • the energy-saving management system acquires the first energy-saving control parameter for the master device of the base station, and the energy-saving management system obtains the second energy-saving control parameter for the accessory device, and respectively carries the energy-saving management system for each device body in each energy-saving control parameter. .
  • the energy-saving scheme implemented by the master device of the base station and the energy-saving scheme implemented by the accessory device are uniformly formulated by the energy-saving management system, and the master device and the accessory device of the base station can perform energy-saving linkage operation under the unified control of the energy-saving management system to solve the prior art.
  • the problem of energy saving effect caused by energy saving by each device body in the site device is not ideal, and the overall energy consumption of the site device is reduced.
  • the energy-saving management system may use the running state information of the base station master device when the energy-saving scheme is determined by the base station master device, and may also use the running state information of the accessory device, and may also use the base station master device at the same time. Status operation information and status operation information of the accessory device.
  • the energy-saving management system formulates an energy-saving scheme for the supporting equipment, the operating state information of the base station master device can be used, and the running state information of the supporting device can also be used, and the state running information of the base station master device and the state running information of the supporting device can be simultaneously used.
  • the energy-saving management system obtains energy-saving control parameters for the master device and the accessory device of the base station to meet the energy-saving linkage between the master device and the accessory device. Need to improve the energy saving effect of the base station main equipment and supporting equipment.
  • the operating state information of the base station master device includes: a power saving state of the base station master device, for example, the base station master device turns the power saving mode on or off; and the running state information of the accessory device includes: the standby power state of the accessory device.
  • the energy-saving status of the accessory device for example, the accessory device turns the energy-saving mode on or off.
  • the energy saving management system of step 202 acquires the first energy saving control parameter for the base station master device and the second power saving control parameter for the accessory device according to the running state information of the base station master device and/or the running state information of the accessory device.
  • the method may include the following steps:
  • the energy-saving management system determines whether the standby energy state of the accessory device meets the preset first condition. If the backup energy state of the accessory device does not meet the first condition, the energy-saving management system acquires, for the base station master device, the first energy-saving control parameter that needs to extend the service time of the base station master device; if the backup device energy state of the accessory device does not satisfy the first condition.
  • the energy-saving management system obtains the second energy-saving control parameter that changes the energy-saving state for the accessory device.
  • the energy-saving management system determines whether the state of the standby energy of the accessory device meets the preset second condition. If the backup energy state of the accessory device meets the second condition, the energy-saving management system obtains the first energy-saving control parameter for changing the energy-saving state of the base station master device; if the backup energy state of the accessory device meets the second condition and the accessory device turns on the energy-saving mode The energy-saving management system acquires the second energy-saving control parameter that changes the energy-saving state for the accessory device.
  • FIG. 3-a a schematic diagram of the energy-saving linkage state transition provided by the embodiment of the present invention is shown.
  • the supporting device is the primary device and the primary device is the secondary device.
  • the energy-saving management system obtains the energy-saving status of the primary device of the base station.
  • the energy-saving management system can determine whether the primary device of the base station is currently enabled with the energy-saving mode.
  • the power save mode is turned off.
  • the energy-saving management system obtains the energy-saving status of the supporting equipment and the standby energy status of the supporting equipment.
  • the energy-saving management system can also determine whether the supporting equipment is currently enabled with the energy-saving mode or the energy-saving mode; the standby energy state of the supporting equipment is specifically the power supply device.
  • the state of the backup energy may be various power supply devices that are mixed with wind, light, varnish, and wind oil, and may also be various power supply devices for power supply, oil machine, fan, and solar power. Power devices are also known as power devices.
  • the standby energy state of the power supply device refers to the remaining state of energy stored in the power supply device for the base station main device and the ventilation device, the refrigeration device, and the like. Specifically, the power state of the power supply device It can also be measured by how long it can support the site device to work properly.
  • the base station master device is in the energy-saving mode, that is, the base station master device is in the normal working mode, and the energy-saving management system determines whether the standby device energy state of the accessory device meets the first condition, and the first condition may be One of the energy saving strategies set in the energy management system, for example, it may be an energy threshold of the backup energy. If the backup energy status of the accessory device meets the first condition, it indicates that the energy reserve of the accessory device is sufficient to ensure the normal operation of the master device of the base station; if the backup energy state of the accessory device does not meet the first condition, the accessory device is The energy reserve is small, which is not enough to ensure the normal operation of the base station master device.
  • the energy-saving management system needs to instruct the base station master device to extend the base station master device service time.
  • the first condition may also be a duration threshold for supporting the operation of the base station master device according to the backup power determined by the base station master device for the power consumption value of the power consumption.
  • the backup energy status of the accessory device does not meet the first condition, it indicates that the backup device has less backup energy, and the base station master device is in the power-saving mode.
  • the energy-saving management system needs to extend the base station master device for the base station master device.
  • the first energy saving control parameter of the service time Therefore, the base station master needs to switch the power saving mode to delay the service time of the base station master device.
  • the energy-saving management system obtains the second energy-saving control parameter for changing the energy-saving state for the accessory device, thereby enabling
  • the supporting equipment changes the energy saving state to save the energy consumption of the power supply equipment.
  • the base station master device starts the energy-saving mode, that is, the base station master device is in a state of being powered off or sleeping.
  • the energy-saving management system determines whether the standby energy state of the accessory device satisfies the second condition, and the second condition may be one of the energy-saving policies set in the energy-saving management system, for example, it may be an energy threshold of the backup energy. If the backup energy status of the accessory device meets the second condition, it indicates that the energy reserve of the accessory device is sufficient to ensure the normal operation of the master device of the base station; if the backup energy state of the accessory device does not meet the second condition, the accessory device is The energy reserve is small, which is not enough to ensure the normal operation of the base station master device.
  • the second condition may further be a duration threshold for supporting the operation of the base station master device according to the backup power determined by the base station master device for the power consumption value of the power consumption.
  • the thresholds set in the first condition and the second condition set in the energy saving management system may be the same value, or may be different values respectively set according to specific situations.
  • the energy-saving management system obtains the first energy-saving state for the base station master device to change the energy-saving state. Control parameters, so the base station master needs to switch energy-saving mode, Into the normal working mode. Because the power supply of the power supply device is sufficient, the base station master device does not need to turn on the energy-saving mode, so that it can work normally. If the backup energy status of the accessory meets the second condition and the accessory device is powered on, indicating that the backup device has sufficient backup energy, the energy-saving management system obtains the second energy-saving control parameter that changes the energy-saving state for the accessory device, thereby enabling the accessory device. Change the power saving state to enter the normal working mode.
  • the operating state information of the base station master device includes: a power saving state of the base station master device, for example, the base station master device turns the power saving mode on or off; and the running state information of the accessory device includes: the energy saving state of the accessory device, for example, The accessory device turns the energy saving mode on or off.
  • the energy saving management system of step 202 acquires the first energy saving control parameter for the base station master device and the second power saving control parameter for the accessory device according to the running state information of the base station master device and/or the running state information of the accessory device.
  • the method may include the following steps:
  • the energy-saving management system determines, according to the running status information of the master device of the base station, that the energy-saving mode of the base station is turned off, if the energy-saving mode is enabled, the energy-saving management system acquires the second energy-saving control parameter that changes the energy-saving state for the accessory device;
  • the energy-saving management system determines that the power-on mode of the base station is enabled according to the running status information of the master device of the base station, if the accessory device turns off the energy-saving mode, the energy-saving management system acquires the second energy-saving control parameter that changes the energy-saving state for the accessory device.
  • FIG. 3-b another schematic diagram of the energy-saving linkage state transition provided by the embodiment of the present invention is provided.
  • the supporting device is the secondary device and the primary device is the primary device.
  • the energy-saving management system obtains the second energy-saving control parameter for the supporting device according to the running status information of the primary device and the running status information of the supporting device.
  • the second energy-saving control parameter of the accessory device may be set according to the energy-saving state of the master device of the base station, and the second energy-saving control parameter set by the energy-saving management system for the accessory device may implement energy-saving linkage control between the base station master device and the accessory device.
  • the accessory device includes: a ventilation device, a refrigeration device, and a power supply device
  • the running status information of the accessory device includes: an outdoor temperature of the power device and the room where the base station is located, and an indoor working environment temperature of the power device.
  • the energy saving management system of step 202 acquires the first energy-saving control parameter for the base station master device and the second energy-saving control parameter for the accessory device according to the running state information of the master device of the base station and/or the running state information of the accessory device. include:
  • the energy-saving management system acquires the second energy-saving control parameter that the operating ventilation device extracts the outdoor cold air to reduce the indoor working environment temperature
  • the energy-saving management system acquires a second energy-saving control parameter for operating the refrigeration device to reduce the indoor working environment temperature.
  • the energy-saving management system can implement intelligent ventilation and intelligent cooling for the second energy-saving control parameter acquired by the accessory device, and the site controller can collect the outdoor temperature and power device of the power room and the base station where the base station is located.
  • the indoor working environment temperature, or the supporting equipment control unit needs to collect the outdoor temperature and the indoor working environment temperature of the power supply device to report to the site controller, and the site controller sends the outdoor temperature and the indoor working environment temperature of the power supply device to the energy saving management system.
  • the supporting device control unit can collect the outdoor temperature and the indoor working environment temperature in real time, and then the energy saving management system can obtain each set of outdoor temperature and indoor working environment temperature.
  • Steps C1 and C2 are performed once, so the energy-saving management system can acquire the second energy-saving control parameter in real time according to the temperature information of the accessory device.
  • the control parameters for turning on and off the energy-saving function (such as the threshold of the air conditioner on/off, the condition of the oil on/off, etc.) are usually after the initial configuration. It is unchanged and cannot be adjusted according to the traffic fluctuation and the external climate change application scenario.
  • the temperature information of the accessory device can be collected in real time, and the power consumption of the base station master device and the accessory device can be adaptively adjusted. Realize dynamic optimization management of site equipment energy consumption.
  • the energy-saving management system performs step 202.
  • the step 201 energy-saving management system receives the operation of the base station master device reported by the site controller.
  • the energy saving control method of the site device may further include the following steps:
  • the energy-saving management system obtains the energy-saving indication information according to the traffic carried by the primary device of the base station and the preset energy-saving policy, and the energy-saving indication information includes: determining by the energy-saving management system Whether to allow the base station master device to enable or disable the energy saving mode;
  • the energy-saving management system sends the energy-saving indication information to the site controller, and the site controller sends the energy-saving indication information to the base station master device.
  • the energy saving management system indicates whether the base station primary device is allowed to enable or disable the energy saving mode according to the traffic volume carried by the primary device of the base station and the preset energy saving policy.
  • the management system obtains the traffic that is currently carried by the primary device of the base station, and determines whether the traffic carried by the primary device of the base station exceeds a preset threshold or is smaller than a preset threshold, and the energy-saving management system determines the base station.
  • the service volume carried by the master device is too large or too small.
  • the energy-saving management system determines that the traffic carried by the master device of the base station is too large, the energy-saving management system instructs the master device of the base station not to enable the energy-saving mode to meet the needs of the service.
  • the management system determines that the traffic carried by the primary device of the base station is too small, and the energy-saving management system instructs the primary device of the base station not to disable the energy-saving mode to meet the needs of energy saving.
  • the energy saving management system performs step 202.
  • the step 201 energy saving management system receives the running status information of the base station master device reported by the site controller and After the operating state information of the associated device in the site device is related to the base device, the energy saving control method of the site device provided by the present invention may further include the following steps:
  • the energy saving management system visualizes the power consumption information and the supporting device of the primary device of the base station. Power consumption information of the device;
  • the energy-saving management system obtains the energy-saving effect according to the power consumption information of the base station main device and the power consumption information of the accessory device, and displays the energy-saving effect through the chart visualization.
  • step E1 if the base station master device and the accessory device both send their own power consumption information to the site controller, the energy-saving management system visualizes the power consumption information of the base station master device and the power consumption information of the accessory device through the chart visualization, thereby The power consumption information of the base station main device and the power consumption information of the supporting device can be visually displayed.
  • step E2 the energy saving effect can be further monitored by the energy saving management system, and the multiple power consumption information of the base station main device is compared, and the comparison is performed. A plurality of power consumption information of the accessory device can obtain energy-saving effects, and finally, the energy-saving effect can be visualized through the chart.
  • the energy saving management system sends the first energy saving control parameter and the second energy saving control parameter to the site controller.
  • the energy-saving management system after the energy-saving management system acquires the first energy-saving control parameter for the base station master device and the second energy-saving control parameter for the accessory device, the energy-saving management system sends the first energy-saving control parameter and the second energy-saving control parameter to the site. Controller, the first energy-saving control parameter and the site controller The second energy-saving control parameters are respectively sent to the base station master device and the accessory device, and the base station master device and the accessory device can respectively implement the energy-saving schemes formulated by the energy-saving management system, thereby reducing the energy consumption of each device body itself.
  • the energy-saving management system is connected to the site controller, and receives the running state information of the base station master device and the running state information of the accessory device from the site controller, and the energy-saving management system is respectively the base station master device.
  • the supporting equipment obtains the energy-saving control parameter, and finally distributes the first energy-saving control parameter and the second energy-saving control parameter to the site controller, and the energy-saving management system can have multiple implementation manners, and one feasible energy-saving management system as a functional entity
  • the energy saving management system can implement the determination and distribution of the foregoing energy saving solution by using multiple functional entities.
  • the energy saving management system may include a network management system.
  • an energy-saving control system the network management system is responsible for interaction with the site controller, the energy-saving control system is responsible for formulating energy-saving schemes, and the energy-saving management system can also realize the determination and distribution of energy-saving schemes through other entities.
  • the base station master device and the accessory device in the site device respectively report the respective running state information to the site controller, and the site controller obtains the running state information of the base station master device and the running state of the accessory device.
  • the site controller reports the running status information of the base station master device and the running state information of the supporting device to the energy saving management system, and the energy saving management system receives the running state information of the base station master device reported by the site controller and the running state information of the supporting device.
  • the energy-saving management system obtains the first energy-saving control parameter for the base station master device and the second energy-saving control parameter for the accessory device according to the running state information of the base station master device and/or the running state information of the accessory device, and the energy-saving management system will be the first energy-saving management system.
  • the control parameter and the second energy-saving control parameter are sent to the site controller, and the site controller sends the first energy-saving control parameter to the base station master device, and sends the second energy-saving control parameter to the accessory device.
  • the energy-saving management system monitors, processes, and analyzes the running status information of the base station main equipment and the running status information of the supporting equipment, respectively, and establishes energy-saving control parameters for the base station main equipment and the supporting equipment, respectively, and can implement multiple devices in the station equipment.
  • the energy-saving linkage control between the two can greatly reduce the overall energy consumption of the site equipment and realize the intelligent management of energy efficiency of the site equipment.
  • the foregoing embodiment describes the energy-saving control method of the site device provided by the present invention from the perspective of the energy-saving management system.
  • another embodiment of the energy-saving control method of the site device of the present invention is introduced, which can be applied to the site controller, see the figure. 4 shows a section of a site device provided by an embodiment of the present invention
  • the control method can include the following steps:
  • the site controller acquires running state information of the base station master device, and acquires running state information of the accessory device related to the base station master device in the site device.
  • the energy-saving management system is the main body of the energy-saving scheme, independent of the site controller, the site controller is the control entity of the site device, and the energy-saving management system is connected with the site controller, wherein the connection may be established.
  • the wireless connection or the wired connection of the communication the site controller is respectively connected with the base station master device and the accessory device in the site device, and the site controller first obtains the running state information of the base station master device and the running state information of the accessory device.
  • the running status information may include at least one of the following information: power consumption information, temperature information, energy saving state, and standby energy state
  • the energy saving state includes: the base station master device and the accessory device are enabled. Or turn off the power save mode.
  • the energy-saving mode refers to a state in which the main body of the device enters a state of being turned off or hibernating. When the energy-saving mode is turned on, the main body of the device is in a state of being turned off or hibernating, and the power consumed by itself is less than the normal operating mode. .
  • the running status information may include: power consumption information of the base station master device, temperature information of the base station master device, and energy saving state of the base station master device, and the power saving state of the base station master device refers to that the base station master device is currently enabled.
  • the energy-saving mode or the energy-saving mode is currently disabled.
  • the running status information may include: the power consumption information of the supporting device, the temperature information of the supporting device, and the energy-saving state of the supporting device.
  • the energy-saving state of the supporting device refers to the supporting device.
  • the power save mode is currently turned on or the power save mode is currently turned off.
  • the running status information reported by the base station master device and the running status information reported by the accessory device may include one or more pieces of information of the foregoing content, and the content included in the running status information may also be managed according to energy saving.
  • the system establishes the energy-saving scheme and adds other information content.
  • the base station master device and the accessory device can still report the information that the energy-saving management system needs to report.
  • the operation status information of the base station master device may further include: the base station master device bearer The amount of traffic, that is, the base station master device reports the traffic carried by the base station controller to the site controller, and the energy-saving management system can obtain the traffic carried by the base station master device from the site controller, so the energy-saving management system can according to the traffic carried by the base station master device.
  • the site energy-saving technical solutions in the prior art do not study the management and control of the energy consumption of the station equipment according to the demand for energy consumption of the base station traffic.
  • the present invention can collect the traffic carried by the base station master device in different time periods in the day by the base station master device, and the base station master device can also change the traffic volume carried by the base station master device.
  • the energy-saving scheme developed by the energy-saving management system for the supporting device can also consider the factors that change the amount of traffic carried by the base station, so as to establish the energy-saving linkage between the master device and the accessory device. Adjust the energy consumption of the supporting equipment as needed to achieve the best energy efficiency of the entire site.
  • the site controller acquires the running state information of the base station master device, and obtains the running state information of the accessory device related to the base station master device in the site device, which may include the following steps:
  • the site controller receives the running status information reported by the base station master device through the site control unit in the site controller, and the site control unit connects to the base station master device through the I/O interface; or the site controller passes the site in the site controller.
  • the control unit receives the running status information reported by the base station processing unit (BBU) in the base station master device, and the station control unit is connected to the BBU through the I/O interface;
  • BBU base station processing unit
  • the site controller receives the operation status information collected by the accessory device control unit from the accessory device through the site control unit in the site controller, and the site control unit is connected to the accessory device control unit through the I/O interface.
  • a site control unit may be set in the site controller, and the site control unit is connected to the base station master device through one I/O interface, and is connected to the accessory device control unit through another I/O interface.
  • the station control unit is directly connected to the base station master device.
  • the base station master device includes: a BBU and a plurality of radio remote units (RRUs), and the station control unit directly The BBU is connected through an I/O interface.
  • the site control unit and the accessory device control unit are connected, and the accessory device control unit is configured to obtain the running state information of the accessory device, and the accessory device control unit sends the running state information of the accessory device through the site control unit. Give the site controller.
  • the site controller acquires the running state information of the base station master device, and obtains the running state information of the accessory device related to the base station master device in the site device, which may include the following steps:
  • the site controller receives the running status information reported by the RRU in the base station master device by using the control unit in the site controller and the BBU in the base station master device, and the control unit is connected to the RRU through the I/O interface;
  • the site controller receives the operation reported by the accessory device through the control unit in the site controller. Status information, the control unit is connected to the accessory device through the I/O interface.
  • a control unit may be set in the site controller.
  • the base station master device includes: a BBU and multiple RRUs, and the BBU in the base station master device may be set in the site controller, and the control in the site controller
  • the unit is connected to the BBU, and the control unit is directly connected to the multiple RRUs through the external I/O interface.
  • the BBU obtains the running status information of the base station master device, and the BBU sends the base station master device by connecting with the control unit in the site controller. Running status information.
  • control unit is connected to the accessory device through the I/O interface, and the control unit is not separately set in the accessory device, but the control function is implemented by the control unit set in the site controller, and the control unit directly
  • the control unit obtains the running status information of the accessory device by connecting the I/O interface to the accessory device.
  • the site controller reports the running state information of the base station master device and the running state information of the accessory device to the energy saving management system.
  • the site controller obtains the running status information of the base station master device and the running state information of the accessory device, and the site controller reports the running state information of the base station master device and the running state information of the accessory device to the energy saving management system.
  • the energy-saving management system acquires the running state information of the base station master device and the running state information of the accessory device from the site controller.
  • the energy-saving management system needs to obtain the running state information of the site device as the information necessary for formulating the energy-saving solution, and the running state information refers to the state data generated by the device body during the working process, and the running state information of the site device may be based on
  • the status information that needs to be obtained by the energy-saving management system may be the same or different for each of the multiple devices included in the site device.
  • the actual status of the site device and the energy-saving management system is used to determine the running status information. Specific content.
  • the site controller receives the first energy saving control parameter and the second energy saving control parameter sent by the energy saving management system.
  • the first energy-saving control parameter is obtained by the energy-saving management system according to the running state information of the base station master device and/or the running state information of the accessory device
  • the second energy-saving control parameter is the energy-saving management system according to the running state of the base station master device.
  • the running status information of the information and/or supporting equipment is obtained by the supporting equipment.
  • the energy-saving management system after the energy-saving management system acquires the running state information of the base station master device and the running state information of the accessory device from the site control, after the energy-saving management system obtains the running state information from the base station master device and the accessory device, the energy-saving management The system can obtain the above operational status letter according to the obtained
  • the energy saving scheme is set for the main equipment and the supporting equipment of the base station.
  • the energy saving management system formulates the energy saving scheme, the operating status information of the main equipment of the base station can be used, and the running status information of the supporting equipment can also be used, and the state of the main equipment of the base station can also be used simultaneously. Information about the status of the information and the running status of the supporting equipment.
  • the energy saving management system can also preset the energy saving policy.
  • the energy saving management system combines the running status information acquired from the base station master device with the preset energy saving policy and/or obtained from the supporting device.
  • the running status information can be used to formulate energy saving schemes for the base station master device and the supporting device. Specifically, the energy saving management system obtains the first energy saving control parameter for the base station master device, and the energy saving management system obtains the second energy saving control parameter for the supporting device, in each energy saving control.
  • the parameter carries the energy-saving scheme separately formulated by the energy-saving management system for each device body, and after the energy-saving management system obtains the first energy-saving control parameter and the second energy-saving control parameter, the energy-saving management system sets the first energy-saving control parameter and the second energy-saving control system.
  • Parameter Send it to the site controller.
  • the site controller sends the first energy-saving control parameter to the base station master device, and sends the second energy-saving control parameter to the accessory device.
  • the site controller after receiving the first energy-saving control parameter and the second energy-saving control parameter, the site controller sends the first energy-saving control parameter and the second energy-saving control parameter to the base station master device and the accessory device respectively.
  • the base station master device and the accessory device can separately implement the energy-saving schemes formulated by the energy-saving management system, thereby reducing the energy consumption of each device body itself.
  • the base station master device and the accessory device in the site device respectively report the respective running state information to the site controller, and the site controller obtains the running state information of the base station master device and the running state of the accessory device.
  • the site controller reports the running status information of the base station master device and the running state information of the supporting device to the energy saving management system, and the energy saving management system receives the running state information of the base station master device reported by the site controller and the running state information of the supporting device.
  • the energy-saving management system obtains the first energy-saving control parameter for the base station master device and the second energy-saving control parameter for the accessory device according to the running state information of the base station master device and/or the running state information of the accessory device, and the energy-saving management system will be the first energy-saving management system.
  • the control parameter and the second energy-saving control parameter are sent to the site controller, and the site controller sends the first energy-saving control parameter to the base station master device, and sends the second energy-saving control parameter to the accessory device.
  • the energy-saving management system monitors, processes, and analyzes the running status information of the base station main equipment and the running status information of the supporting equipment, respectively, and establishes energy-saving control parameters for the base station main equipment and the supporting equipment, respectively, and can implement multiple devices in the station equipment.
  • the energy-saving linkage control between the two can greatly reduce the overall energy consumption of the site equipment and realize the intelligent management of energy efficiency of the site equipment.
  • a method for controlling energy saving of a site device may include the following steps:
  • the base station master device reports the running status information of the base station master device to the site controller.
  • the energy-saving management system is the main body of the energy-saving scheme, independent of the site controller, the site controller is the control entity of the site device, and the energy-saving management system is connected with the site controller, wherein the connection may be established.
  • the wireless connection or the wired connection of the communication the site controller is respectively connected with the base station master device and the accessory device in the site device, and the base station master device first obtains its own running state information, and then the base station master device passes the relationship with the site controller.
  • the I/O interface reports the obtained running status information to the site controller.
  • the energy-saving management system needs to obtain the running state information of the site device as the information necessary for formulating the energy-saving solution, and the running state information refers to the state data generated by the device body during the working process, and the running state information of the site device may be based on
  • the status information that needs to be obtained by the energy-saving management system may be the same or different for each of the multiple devices included in the site device.
  • the actual status of the site device and the energy-saving management system is used to determine the running status information. Specific content.
  • the running status information may include at least one of the following information: power consumption information, temperature information, and energy saving state
  • the power saving state includes: the base station master device turns on or off the energy saving mode.
  • the energy-saving mode refers to the state in which the base station master device enters a shutdown or sleep state. When the energy-saving mode is enabled, the base station master device is in a state of being shut down or sleeping, and the power consumed by the base station is compared with the normal working mode. less.
  • the running status information may include: power consumption information of the base station master device, temperature information of the base station master device, and energy saving state of the base station master device, and the power saving state of the base station master device refers to that the base station master device is currently enabled.
  • the energy-saving mode or the energy-saving mode is currently disabled.
  • the running status information may include: the power consumption information of the supporting device, the temperature information of the supporting device, and the energy-saving state of the supporting device.
  • the energy-saving state of the supporting device refers to the supporting device.
  • the power save mode is currently turned on or the power save mode is currently turned off.
  • the temperature information reported by the primary device of the base station is used to determine whether the operating temperature of the board is too high and the alarm generated when the working temperature of the board is too high.
  • the temperature information of the supporting device mainly refers to the power device and the base station.
  • the outdoor temperature of the equipment room where the main equipment is located, the indoor working environment temperature of the power supply equipment, the outdoor temperature and Indoor working environment temperature information is mainly used to control the starting or closing of ventilation equipment and refrigeration equipment.
  • the running status information reported by the base station master device and the running status information reported by the accessory device may include one or more pieces of information of the foregoing content, and the content included in the running status information may also be managed according to energy saving.
  • the system establishes the energy-saving scheme and adds other information content.
  • the base station master device and the accessory device can still report the information that the energy-saving management system needs to report.
  • the operation status information of the base station master device may further include: the base station master device bearer The amount of traffic, that is, the base station master device reports the traffic carried by the base station controller to the site controller, and the energy-saving management system can obtain the traffic carried by the base station master device from the site controller, so the energy-saving management system can according to the traffic carried by the base station master device.
  • the site energy-saving technical solutions in the prior art do not study the management and control of the energy consumption of the station equipment according to the demand for energy consumption of the base station traffic.
  • the present invention can collect the traffic carried by the base station master device in different time periods in the daytime by the base station master device, and the base station master device can also enable/disable the energy-saving mode according to the change of the traffic volume carried by the base station, and the energy-saving management system is formulated for the supporting device.
  • the energy-saving scheme can also consider the factors that change the amount of traffic carried by the base station, thereby establishing the energy-saving linkage between the master device and the accessory device. Therefore, the energy consumption of the accessory device can be adjusted according to the busy and idle working state of the master device of the base station to reach the entire site.
  • the equipment is optimal in energy efficiency.
  • the method for saving energy of the site device may further include the following steps:
  • the base station master device determines the energy-saving state of the base station master device according to the traffic volume carried by the base station master device and the preset energy-saving policy, or the base station master device determines the energy-saving state of the base station master device according to the energy-saving indication information received from the site controller.
  • the base station master device determines the current energy-saving state of the base station master device according to the traffic volume of the bearer and the preset energy-saving policy.
  • the energy-saving state of the master device of the base station may refer to the base station master.
  • the device enables or disables the energy-saving mode.
  • the master device of the base station obtains the traffic carried by the master device of the base station, and determines whether the traffic carried by the master device of the base station exceeds a preset threshold or is less than a preset threshold. For example, the base station master device determines that the service volume carried by the base station master device is too large or too small.
  • the base station master device determines that the service volume carried by the base station master device is too large, the base station master device does not enable the energy-saving mode, and if the energy-saving management system determines If the traffic carried by the primary device of the base station is too small, the energy-saving management system instructs the primary device of the base station to enable the energy-saving mode.
  • the amount of traffic carried by the base station master device used by the base station master device to determine the energy-saving state of the base station master device may refer to the traffic volume carried by the current base station master device, and may also refer to the current and previous historical time period of the base station master device. The amount of traffic carried by the carrier.
  • step 501 the base station master device reports the running state information of the base station master device to the site controller, which is specifically as follows:
  • the base station master device carries the determined energy-saving state in the running state information and sends it to the site controller, and the site controller sends the energy-saving state to the energy-saving management system.
  • the base station master device sends the traffic carried by the base station to the site controller, and the site controller reports the energy-saving management system to the energy-saving management system.
  • the system can obtain the energy-saving indication information according to the traffic carried by the primary device of the base station and the preset energy-saving policy. Therefore, the energy-saving management system can separately formulate energy-saving solutions for the primary device and the supporting device according to the traffic carried by the primary device of the base station.
  • the site energy-saving technical solutions in the technology do not study the management and control of the energy consumption of the site equipment according to the demand for energy consumption of the change of the base station traffic.
  • the present invention can collect the traffic carried by the base station master device in different time periods in the daytime by the base station master device, and the base station master device can also enable/disable the energy-saving mode according to the change of the traffic volume carried by the base station, and the energy-saving management system is formulated for the supporting device.
  • the energy-saving scheme can also consider the factors that change the amount of traffic carried by the base station, thereby establishing the energy-saving linkage between the master device and the accessory device. Therefore, the energy consumption of the accessory device can be adjusted according to the busy and idle working state of the master device of the base station to reach the entire site.
  • the equipment is optimal in energy efficiency.
  • the base station master device receives the first energy-saving control parameter sent by the site controller.
  • the site controller after the site controller receives the running status information reported by the base station master device, the site controller reports the running state information of the base station master device to the energy saving management system, and the energy saving management system obtains the first time for the base station master device.
  • the energy-saving control parameter the site controller acquires the first energy-saving control parameter from the energy-saving management system, and then the site controller sends the first energy-saving control parameter to the base station master device.
  • the base station master device determines, according to the first energy-saving control parameter, whether to change the energy-saving state of the base station master device, where the power-saving state includes: the base station master device turns on or disables the energy-saving mode.
  • the site controller sends the first energy-saving control parameter and the second energy-saving control parameter to the base station master device and the accessory device respectively, and the base station master device may perform the energy-saving solution formulated by the energy-saving management system according to the first energy-saving control parameter. , thereby reducing the energy consumption of the base station master device itself.
  • the base station master device in step 503 is determined according to the first energy saving control parameter. Whether the energy saving state of the base station master device is changed may include the following steps:
  • the base station master device changes the current power-off mode to the power-saving mode.
  • the base station master device changes the current power-on mode to the power-off mode.
  • the base station master device is in the power-saving mode, that is, the base station master device is in the normal working mode, and the energy-saving management system determines whether the standby device energy state of the accessory device satisfies the first condition, and if the standby device has the backup energy The state meets the first condition. This indicates that the energy reserve of the supporting device is sufficient to ensure the normal operation of the primary device of the base station. If the standby energy state of the supporting device does not satisfy the first condition, the energy reserve of the supporting device is less than sufficient.
  • the energy-saving management system obtains, for the primary device of the base station, the first energy-saving control parameter that needs to extend the service time of the primary device of the base station, and after receiving the first energy-saving control parameter from the site controller, the primary device of the base station You can change the current power saving state and change the current power saving mode to the energy saving mode.
  • the base station master device starts the energy-saving mode, that is, the base station master device is in a state of being shut down or sleeping, and the energy-saving management system determines whether the standby power state of the accessory device satisfies the second condition, and the second condition It may be a condition in the energy saving policy set in the energy saving management system. If the standby energy state of the supporting device satisfies the second condition, this indicates that the energy reserve of the supporting device is sufficient, and the normal operation of the base station master device can be ensured.
  • the energy-saving management system acquires the first energy-saving control parameter for changing the energy-saving state of the base station master device
  • the base station master device may change the current energy-saving state, and the current Turn on the power save mode to turn off the power save mode.
  • the base station master device and the accessory device in the site device respectively report the respective running state information to the site controller, and the site controller obtains the running state information of the base station master device and the running state of the accessory device.
  • the site controller reports the running status information of the base station master device and the running state information of the supporting device to the energy saving management system, and the energy saving management system receives the running state information of the base station master device reported by the site controller and the running state information of the supporting device.
  • the energy-saving management system obtains the first energy-saving control parameter for the base station master device and the second energy-saving control parameter for the accessory device according to the running state information of the base station master device and/or the running state information of the accessory device, and the energy-saving management system will be the first energy-saving management system.
  • Control parameters and second energy saving control parameters are sent to the site The controller, the site controller sends the first energy-saving control parameter to the base station master device, and sends the second energy-saving control parameter to the accessory device.
  • the energy-saving management system monitors, processes, and analyzes the running status information of the base station main equipment and the running status information of the supporting equipment, respectively, and establishes energy-saving control parameters for the base station main equipment and the supporting equipment, respectively, and can implement multiple devices in the station equipment.
  • the energy-saving linkage control between the two can greatly reduce the overall energy consumption of the site equipment and realize the intelligent management of energy efficiency of the site equipment.
  • the foregoing embodiment describes the energy-saving control method of the site device provided by the present invention from the perspectives of the energy-saving management system, the site controller, and the base station master device.
  • another embodiment of the energy-saving control method of the site device of the present invention is introduced, which can be applied to For the supporting device associated with the base station master device in the site device, refer to FIG. 6 , the method for controlling the energy saving of the site device provided by the embodiment of the present invention may include the following steps:
  • the accessory device reports the running status information of the accessory device to the site controller, where the accessory device is one or more devices associated with the base station master device in the site device.
  • the energy-saving management system is the main body of the energy-saving scheme, independent of the site controller, the site controller is the control entity of the site device, and the energy-saving management system is connected with the site controller, wherein the connection may be established.
  • the wireless connection or the wired connection of the communication the site controller is respectively connected with the base station master device and the accessory device in the site device, and the accessory device first obtains its own running state information, and then the accessory device passes the I/ between the site controller and the site controller.
  • the O interface reports the obtained running status information to the site controller.
  • the energy-saving management system needs to obtain the running state information of the site device as the information necessary for formulating the energy-saving solution, and the running state information refers to the state data generated by the device body during the working process, and the running state information of the site device may be based on
  • the status information that needs to be obtained by the energy-saving management system may be the same or different for each of the multiple devices included in the site device.
  • the actual status of the site device and the energy-saving management system is used to determine the running status information. Specific content.
  • the running status information may include at least one of the following information: power consumption information, temperature information, energy saving state, and standby energy state, and the energy saving state includes: the supporting device turns on or off the energy saving mode.
  • the energy-saving mode means that the accessory device enters a state of shutdown or hibernation. When the energy-saving mode is enabled, the accessory device is in a state of being shut down or sleeping, and the power consumed by itself is less than the normal operation mode.
  • the running status information may include: power consumption information of the supporting device, temperature information of the supporting device, and energy saving of the supporting device. State, the energy-saving status of the supporting equipment refers to the energy-saving mode of the supporting equipment currently being turned on or the energy-saving mode is currently turned off.
  • the running status information reported by the base station master device and the running status information reported by the accessory device may include one or more pieces of information of the foregoing content, and the content included in the running status information may also be managed according to energy saving.
  • the system establishes the energy-saving scheme and adds other information content.
  • the base station master device and the accessory device can still report the information that the energy-saving management system needs to report.
  • the running status information of the accessory device may also include: the indoor working of the power device. Ambient temperature and outdoor temperature at the site's equipment room.
  • the energy saving control method of the site device provided by the present invention may further include the following steps: Before the accessory device reports the running state information of the accessory device to the site controller.
  • the supporting equipment determines the energy-saving status of the supporting equipment according to the standby energy status, temperature information and preset energy-saving strategies of the supporting equipment.
  • the standby energy state of the accessory device refers specifically to the standby energy state of the power device.
  • the accessory device determines the power state, temperature information, and preset energy-saving policies of the power device.
  • the energy-saving state of the power device can be related to the energy-saving mode of the device, and the control device of the device obtains the power-off state of the power device, and is determined by combining the preset energy-saving policies. Whether the backup device of the power device exceeds the preset threshold or is less than the preset threshold. For example, the control device determines whether the backup device's backup energy is too much or too little. If the power supply device is powered off, the power supply device turns on the power-saving mode.
  • the supporting device control unit obtains the indoor working environment temperature and the outdoor temperature of the power equipment and the equipment room where the base station main equipment is located, and combines a preset energy saving strategy to determine whether the indoor working environment temperature exceeds a preset threshold, or is less than a preset threshold, and Determine whether the indoor working environment temperature is greater than the outdoor temperature. For example, if the supporting equipment control unit determines that the outdoor temperature is lower than the indoor working environment temperature, the ventilation device needs to turn off the energy saving mode, and the cooling device can turn on the energy saving mode if the outdoor temperature is higher than the indoor temperature. In the working environment temperature, the cooling device needs to turn off the energy saving mode, and the ventilation device can turn on the energy saving mode.
  • the device in step 601 reports the running status information of the accessory device to the site controller, which is specifically as follows:
  • the supporting device carries the determined energy saving state in the running status information and sends it to the site controller, and the site controller sends the energy saving state to the energy saving management system.
  • the accessory device After the accessory device determines its own energy-saving status, the accessory device sends its current energy-saving status to the site controller, or the accessory device sends its current energy-saving status to the accessory device control unit, and the accessory device control unit sends the message to the site.
  • the controller is reported to the energy-saving management system by the site controller.
  • the energy-saving management system can determine whether the energy-saving state of the accessory device needs to be changed according to the current energy-saving state of the accessory device, and the energy-saving management system indicates the accessory device by using the second energy-saving control parameter. .
  • the accessory device receives a second energy-saving control parameter sent by the site controller.
  • the site controller after the site controller receives the running status information reported by the accessory device, the site controller reports the running state information of the accessory device to the energy saving management system, and the energy saving management system obtains the second energy saving control parameter for the supporting device.
  • the site controller obtains the second energy-saving control parameter from the energy-saving management system, and then the site controller sends the second energy-saving control parameter to the accessory device, or the site controller sends the second energy-saving control parameter to the accessory device through the accessory device control unit.
  • the supporting device determines, according to the second energy-saving control parameter, whether to change the energy-saving state of the accessory device, and the energy-saving state includes: the accessory device turns the energy-saving mode on or off.
  • the site controller sends the first energy-saving control parameter and the second energy-saving control parameter to the base station main device and the accessory device respectively, and the accessory device may perform the energy-saving solution formulated by the energy-saving management system according to the second energy-saving control parameter.
  • the site controller sends the first energy-saving control parameter and the second energy-saving control parameter to the base station main device and the accessory device respectively, and the accessory device may perform the energy-saving solution formulated by the energy-saving management system according to the second energy-saving control parameter.
  • the step 603 determines whether to change the energy-saving state of the accessory device according to the second energy-saving control parameter, and specifically includes the following steps:
  • the accessory device changes the current energy-saving mode to the power-saving mode.
  • the accessory device changes the current power-off mode to the energy-saving mode.
  • the energy-saving management system performs the steps B1 and B2 in the foregoing embodiment, as shown in FIG. 3-b, which is another schematic diagram of the energy-saving linkage state transition provided by the embodiment of the present invention.
  • the energy-saving linkage dynamic conversion is supplemented by the supporting equipment, and the primary equipment of the base station is the main.
  • the energy-saving management system obtains the second energy-saving control parameter for the supporting equipment according to the running status information of the primary equipment of the base station and the running status information of the supporting equipment.
  • the second energy-saving control parameters of the supporting equipment It can be set according to the energy-saving state of the master device of the base station, and the second energy-saving control parameter set by the energy-saving management system for the accessory device can implement energy-saving linkage control between the base station master device and the accessory device.
  • the supporting device includes: a ventilation device, a cooling device, and a power supply device.
  • the accessory device determines, according to the second energy-saving control parameter, whether to change the energy-saving state of the accessory device. It can include the following steps:
  • the ventilation device turns off the energy-saving mode, and then extracts the outdoor cold air to the power equipment and the equipment room where the base station main device is located;
  • the cooling device turns off the energy-saving mode, and then starts to generate cold air to be delivered to the power device and the equipment room where the base station master device is located.
  • the energy-saving management system can implement intelligent ventilation and intelligent cooling for the second energy-saving control parameter acquired by the accessory device, and the accessory device control unit needs to collect the outdoor temperature and the indoor working environment temperature and report to the site controller, the site. The controller then sends the outdoor temperature and the indoor working environment temperature to the energy-saving management system.
  • the accessory device control unit can collect the outdoor temperature and the indoor working environment temperature in real time, then the ventilation device The refrigeration equipment can perform steps L1 and L2 once after each set of outdoor temperature and indoor working environment temperature is acquired, so the ventilation equipment and the refrigeration equipment need to execute the second energy-saving control parameters in real time.
  • the control parameters for turning on and off the energy-saving function are usually after the initial configuration. It is unchanged and cannot be adjusted according to the traffic fluctuation and the external climate change application scenario.
  • the temperature information of the accessory device can be collected in real time, and the power consumption of the base station master device and the accessory device can be adaptively adjusted. Realize dynamic optimization management of site equipment energy consumption.
  • the base station master device and the accessory device in the site device respectively report the respective running state information to the site controller, and the site controller obtains the running state information of the base station master device and the running state of the accessory device.
  • the site controller reports the running status information of the base station master device and the running state information of the supporting device to the energy saving management system, and the energy saving management system receives the running state information of the base station master device reported by the site controller and the running state information of the supporting device.
  • the energy-saving management system obtains the first energy-saving control parameter for the base station master device and the second energy-saving for the accessory device according to the running state information of the master device of the base station and/or the running state information of the accessory device.
  • the control parameter, the energy-saving management system sends the first energy-saving control parameter and the second energy-saving control parameter to the site controller, and the site controller sends the first energy-saving control parameter to the base station master device, and sends the second energy-saving control parameter to the accessory device.
  • the energy-saving management system monitors, processes, and analyzes the running status information of the base station main equipment and the running status information of the supporting equipment, respectively, and establishes energy-saving control parameters for the base station main equipment and the supporting equipment, respectively, and can implement multiple devices in the station equipment.
  • the energy-saving linkage control between the two can greatly reduce the overall energy consumption of the site equipment and realize the intelligent management of energy efficiency of the site equipment.
  • the energy-saving control method of the site device provided by the present invention can solve the problem of how the site device can implement the energy-saving linkage with reference to the change of the service volume, so that the site device can adjust the energy consumption of the accessory device according to the energy-saving state of the base station master device, so as to reach the entire site device.
  • the best energy efficiency It can solve the automatic adjustment of the working parameters of the site device according to the application scenario of traffic fluctuation and external climate change, or trigger the base station master device to enable the energy-saving mode to achieve adaptive optimization management of the site device energy consumption.
  • the energy-saving management system specifically includes: a self-organizing network (SON, Self Organization Network) energy-saving control system and an operation support system (OSS) network management system, and then an example of SON-based site equipment energy-saving linkage control is illustrated.
  • the network upper-layer software can be fully utilized to calculate and process the information and advantages of the site equipment, so as to realize the adaptive optimization management of the energy consumption of the site equipment.
  • FIG. 7 is a schematic diagram of an implementation architecture of a SON-based site device energy-saving linkage according to an embodiment of the present invention, which may include: a SON energy-saving control system, an OSS network management system, a site controller, an accessory device, and a base station. Master device.
  • each device body shown in Figure 7-a is as follows:
  • the site control unit is connected to the base station master device through the I/O interface.
  • the site control unit is connected to the accessory device control unit through the I/O interface.
  • the main functions of the site controller are as follows: The operating status information of the base station master device and the accessory device, including: power consumption information, temperature information, and backup power state (for example, power and oil amount information); and transmitting the first energy saving control parameter and the second energy saving control parameter in the second
  • the energy saving control parameter and the second energy saving control parameter include energy saving linkage control information.
  • the OSS network management system is connected to the site controller.
  • the main functions of the OSS network management system are as follows: Processing and analysis of operational status information (including energy consumption data) of the primary and secondary equipment of the base station; visual presentation of energy consumption of the station equipment; status monitoring of the primary equipment and supporting equipment of the base station; sharing of information about the equipment of the station with the SON energy-saving control system .
  • SON energy-saving control system and OSS network management system connection SON energy-saving control system main functions are as follows: the first energy-saving control parameters and the second energy-saving control parameters calculation and optimization; site equipment energy-saving linkage process control; site equipment energy consumption Adaptive management strategy; big data analysis and intelligent optimization of energy consumption.
  • the supporting device control unit is connected to the site controller through the I/O interface.
  • the main functions of the supporting device control unit are as follows: collecting the running status information of the supporting device (including: power consumption data); interacting with the site controller; receiving SON The second energy-saving control parameter issued by the energy-saving control system; sending a control signal to the accessory device.
  • the supporting equipment may include: a power supply device, a ventilation device, and a refrigeration device, and the power supply device includes one or more of the following: a solar power supply device, a wind power supply device, an oil machine power supply device, a utility power supply device, a scenery, a wind oil, Lubricating oil and wind oil hybrid power supply equipment.
  • FIG. 7-b is a flow chart of the energy-saving linkage control algorithm of the site device provided by the embodiment of the present invention, and the work of the energy-saving control method of the site device of the present invention is performed by using the example of the process. The principle is explained:
  • the master device sends the traffic of the load to the site controller, and the accessory device sends the standby energy state to the site controller.
  • the OSS network management system/SON energy-saving control system determines the service load change status or the preset energy-saving policy of the base station master device. Whether the base station master device is allowed to enable the energy-saving mode, and the power consumption data reported by the site device is presented in a visual form such as a chart. After determining whether the base station master device is in the power-saving mode, if the base station master device is in the power-saving mode, if the power-off state of the power-supply device can support the power-on request of the base station master device, the SON energy-saving control system triggers the base station.
  • the master device turns on the power-saving mode to extend the service time of the base station master device. If the base station master device is in the power-saving mode, the SON energy-saving control system starts the energy-saving linkage control function, and calculates the first energy-saving control parameter of the base station master device and the second energy-saving control parameter of the accessory device, and then sends the adjustment support to the site controller.
  • the control information of the working energy parameter of the device, the site controller sends the first energy saving control parameter and the second energy saving control parameter to the interface of the base station main device or the supporting device according to the device address in the SON energy saving control system.
  • the site controller sends an energy consumption control signal to the corresponding device device, and the base station master device determines whether to convert the current working mode according to the received first energy saving control parameter, thereby determining whether to enter the energy saving linkage working mode, or the base station receives the SON energy saving control system request Delay
  • the long service time instruction turns on the power saving mode and enters the low power state.
  • the OSS network management system detects the running status information reported by the site device, and displays the power consumption changes of all the devices of the site device. At the same time, the related data is transmitted to the SON energy-saving control system, so that it can recalculate the energy-saving control parameters of the site device, or evaluate the energy-saving linkage. Effect.
  • SON energy-saving control system adopts big data statistics and analysis method to continuously optimize the calculation model and control algorithm of site equipment energy-saving linkage parameters, so as to realize adaptive optimization management of site equipment energy consumption. Specifically, SON energy-saving control system can collect longer The running status information of the site equipment is calculated for a period of time.
  • FIG. 7 is a schematic diagram of another implementation architecture of the SON-based site device energy-saving linkage according to the embodiment of the present invention, which may include: a SON energy-saving control system, an OSS network management system, a site controller, and an accessory device.
  • Base station master device may include: a SON energy-saving control system, an OSS network management system, a site controller, and an accessory device.
  • each device body shown in Figure 7-c is as follows:
  • the site control unit is set in the site controller, and the site control unit is connected to the BBU in the base station master device through the I/O interface, the base station master device is a distributed base station, and the BBU is connected with RRU1, RRU2, ..., RRUn, and site control.
  • the unit is connected to the control unit of the accessory device through the I/O interface.
  • the main functions of the site controller are as follows: report the running status information of the master device and the accessory device, including: power consumption information, temperature information, and backup energy status (such as power and The oil quantity information is transmitted; the first energy saving control parameter and the second energy saving control parameter are distributed, and the energy saving linkage control information is included in the first energy saving control parameter and the second energy saving control parameter.
  • the OSS network management system is connected to the site controller.
  • the main functions of the OSS network management system are as follows: processing and analyzing the operational status information (including energy consumption data) of the base station primary equipment and supporting equipment; and visualizing the energy consumption of the station equipment; Status monitoring of the primary and secondary equipment of the base station; information about the site equipment is shared with the SON energy-saving control system.
  • SON energy-saving control system and OSS network management system connection SON energy-saving control system main functions are as follows: the first energy-saving control parameters and the second energy-saving control parameters calculation and optimization; site equipment energy-saving linkage process control; site equipment energy consumption Adaptive management strategy; big data analysis and intelligent optimization of energy consumption.
  • the supporting device control unit is connected to the site controller through the I/O interface.
  • the main functions of the supporting device control unit are as follows: collecting the running status information of the supporting device (including: power consumption data); interacting with the site controller; receiving SON The second energy-saving control parameter issued by the energy-saving control system; sending a control signal to the accessory device.
  • the supporting equipment may include: power equipment, ventilation equipment, refrigeration Equipment, power equipment includes one or more of the following: solar power equipment, wind power equipment, oil power equipment, utility power equipment, wind, wind, varnish, wind oil hybrid power supply equipment.
  • FIG. 7 is a schematic diagram of another implementation architecture of the SON-based site device energy-saving linkage according to the embodiment of the present invention, which may include: a SON energy-saving control system, an OSS network management system, a site controller, and an accessory device.
  • Base station master device may include: a SON energy-saving control system, an OSS network management system, a site controller, and an accessory device.
  • each device body shown in Figure 7-d is as follows:
  • the control unit is set in the site controller, and the BBU in the base station master device is directly integrated into the base station controller, and the BBU is connected to the control unit in the base station controller, and the control unit passes the I/O interface and the RRU in the base station master device.
  • the base station master device is a distributed base station, and the BBU is connected to RRU1, RRU2, ..., RRUn.
  • the control unit is connected to the supporting device through the I/O interface, which is different from the foregoing implementation manners of FIG. 7-a and FIG. 7-c.
  • the control unit in the supporting device control unit and the site controller is integrated into a control unit, and the control unit in the site controller directly obtains the running status information of the supporting device through the supporting device I/O interface.
  • the main functions of the site controller are as follows: report the running status information of the base station master device and the accessory device, including: power consumption information, temperature information, backup power state (such as power and oil amount information); and distribute the first energy-saving control parameter And the second energy saving control parameter, the energy saving linkage control information is included in the first energy saving control parameter and the second energy saving control parameter.
  • the OSS network management system is connected to the site controller.
  • the main functions of the OSS network management system are as follows: processing and analyzing the operational status information (including energy consumption data) of the base station primary equipment and supporting equipment; and visualizing the energy consumption of the station equipment; Status monitoring of the primary and secondary equipment of the base station; information about the site equipment is shared with the SON energy-saving control system.
  • SON energy-saving control system and OSS network management system connection SON energy-saving control system main functions are as follows: the first energy-saving control parameters and the second energy-saving control parameters calculation and optimization; site equipment energy-saving linkage process control; site equipment energy consumption Adaptive management strategy; big data analysis and intelligent optimization of energy consumption.
  • the I/O interface of the supporting device is connected with the site controller.
  • the main functions of the I/O interface of the supporting device are as follows: collecting the running status information of the supporting device (including: power consumption data); interacting with the site controller; receiving SON energy saving The second energy-saving control parameter delivered by the control system; the control signal is sent to the accessory device.
  • the supporting equipment may include: a power supply device, a ventilation device, and a refrigeration device, and the power supply device includes one or more of the following: a solar power supply device, a wind power supply device, an oil machine power supply device, Mains power supply equipment, scenery, wind oil, varnish, wind oil hybrid power supply equipment.
  • an energy-saving management system 800 may include: a receiving module 801, an energy-saving control parameter obtaining module 802, and a sending module 803, where
  • the receiving module 801 is configured to receive operation state information of the base station master device reported by the site controller, and operation state information of the accessory device related to the base station master device in the site device;
  • the energy-saving control parameter obtaining module 802 is configured to acquire the first energy-saving control parameter for the base station master device and obtain the first power-saving control parameter for the base station master device according to the running state information of the base station master device and/or the running state information of the accessory device. Second energy saving control parameters;
  • the sending module 803 is configured to send the first power saving control parameter and the second power saving control parameter to the site controller.
  • the operating state information of the base station master device includes: a power saving state of the base station master device, and the power saving state of the base station master device includes: the base station master device turning on or off the power saving mode;
  • the operation status information of the accessory device includes: a backup energy state of the accessory device and a power saving state of the accessory device, and the energy-saving state of the accessory device includes: the accessory device turning on or off the energy-saving mode;
  • the energy-saving control parameter obtaining module 802 includes:
  • the first control module 8021 is configured to determine, when the energy-saving management system determines, according to the operating state information of the base station master device, that the base station master device is in the power-saving mode, whether the standby power state of the accessory device meets a preset a first condition, if the standby energy state of the accessory device does not meet the first condition, acquiring, by the base station master device, a first energy-saving control parameter that needs to extend the service time of the base station master device, if the accessory If the backup energy state of the device does not meet the first condition and the accessory device turns off the energy-saving mode, the second energy-saving control parameter that changes the energy-saving state is obtained for the accessory device. number;
  • the second control module 8022 is configured to determine, when the energy-saving management system determines, according to the operating state information of the base station master device, that the base station master device starts the energy-saving mode, whether the standby energy state of the accessory device meets a preset And the second condition, if the standby energy state of the accessory device meets the second condition, obtaining, by the base station master device, a first energy-saving control parameter that changes a power-saving state, if the standby energy state of the accessory device meets When the second condition is that the accessory device is in the energy-saving mode, the second energy-saving control parameter that changes the energy-saving state is obtained for the accessory device.
  • the operating state information of the base station master device includes: a power saving state of the base station master device, and the power saving state of the base station master device includes: the base station master device turning on or off the power saving mode;
  • the operation status information of the accessory device includes: the energy-saving state of the accessory device, and the energy-saving state of the accessory device includes: the accessory device turns the energy-saving mode on or off;
  • the energy-saving control parameter obtaining module 802 is specifically configured to: when the energy-saving management system determines, according to the operating state information of the base station master device, that the base station master device turns off the energy-saving mode, if the accessory device starts the energy-saving mode, The accessory device obtains a second energy-saving control parameter that changes the energy-saving state; when the energy-saving management system determines that the base station master device starts the energy-saving mode according to the operating state information of the base station master device, if the accessory device turns off the energy-saving mode And obtaining, for the accessory device, a second energy-saving control parameter that changes a power-saving state.
  • the accessory device includes: a ventilation device, a cooling device, and a power supply device
  • the running status information of the accessory device includes: the outdoor temperature of the power supply device and the equipment room where the base station is located And an indoor working environment temperature of the power supply device;
  • the energy-saving control parameter obtaining module 802 is specifically configured to: when the indoor working environment temperature of the power supply device is higher than a preset temperature threshold, and the outdoor temperature is lower than the indoor working environment temperature, obtain the operating ventilation The device extracts the second energy-saving control parameter that the outdoor cold air reduces the temperature of the indoor working environment; when the indoor working environment temperature of the power device is higher than a preset temperature threshold, and the outdoor temperature is higher than the indoor working environment temperature And acquiring a second energy-saving control parameter that runs the refrigeration device to reduce the temperature of the power device.
  • the energy-saving management system 800 further includes: an energy-saving indication module 804, where the receiving module 801 receives the base station master device reported by the site controller. Operation status information and associated equipment associated with the base station master device in the site device After the running state information, if the running state information of the base station master device includes the traffic volume carried by the base station master device, the energy saving indication information is obtained according to the traffic volume carried by the base station master device and the preset energy saving policy, The energy saving indication information includes: the energy saving management system determines whether the base station master device is allowed to enable or disable the energy saving mode;
  • the sending module 803 is further configured to send the energy saving indication information to the site controller, where the site controller sends the energy saving indication information to the base station master device.
  • the energy-saving management system 800 further includes: a display processing module 805, configured to receive, by the receiving module 801, a base station master device reported by the site controller. After the operating state information and the running state information of the associated device related to the base station master device, if the operating state information of the base station master device includes power consumption information of the base station master device, and the running state information of the accessory device The power consumption information of the accessory device is displayed, and the power consumption information of the base station master device and the power consumption information of the accessory device are visualized by a graph; and the power consumption information of the base station master device and the function of the accessory device are The information consumption obtains the energy saving effect, and the energy saving effect is presented through the chart visualization.
  • a display processing module 805 configured to receive, by the receiving module 801, a base station master device reported by the site controller. After the operating state information and the running state information of the associated device related to the base station master device, if the operating state information of the base station master device includes power consumption information of the base station master device, and the running state information
  • the base station master device and the accessory device in the site device respectively report the respective running state information to the site controller, and the site controller obtains the running state information of the base station master device and the running state of the accessory device.
  • the site controller reports the running status information of the base station master device and the running state information of the supporting device to the energy saving management system, and the energy saving management system receives the running state information of the base station master device reported by the site controller and the running state information of the supporting device.
  • the energy-saving management system obtains the first energy-saving control parameter for the base station master device and the second energy-saving control parameter for the accessory device according to the running state information of the base station master device and/or the running state information of the accessory device, and the energy-saving management system will be the first energy-saving management system.
  • the control parameter and the second energy-saving control parameter are sent to the site controller, and the site controller sends the first energy-saving control parameter to the base station master device, and sends the second energy-saving control parameter to the accessory device.
  • the energy-saving management system monitors, processes, and analyzes the running status information of the base station main equipment and the running status information of the supporting equipment, respectively, and establishes energy-saving control parameters for the base station main equipment and the supporting equipment, respectively, and can implement multiple devices in the station equipment.
  • the energy-saving linkage control between the two can greatly reduce the overall energy consumption of the site equipment and realize the intelligent management of energy efficiency of the site equipment.
  • a site controller 900 provided by an embodiment of the present invention may include: an obtaining module 901, a first sending module 902, a receiving module 903, and a second sending module 904, where
  • the obtaining module 901 is configured to acquire running state information of the base station master device, and acquire the site setting Running state information of the accessory device related to the base station master device;
  • the first sending module 902 is configured to report the running state information of the base station master device and the running state information of the accessory device to the energy saving management system;
  • the receiving module 903 is configured to receive the first energy-saving control parameter and the second energy-saving control parameter sent by the energy-saving management system, where the first energy-saving control parameter is the operating state of the energy-saving management system according to the base station master device
  • the information and/or the running status information of the supporting device is acquired by the base station master device, and the second energy saving control parameter is that the energy saving management system is based on the operating state information of the base station master device and/or the supporting device.
  • the running status information is obtained by the accessory device;
  • the second sending module 904 is configured to send the first power saving control parameter to the base station master device, and send the second power saving control parameter to the accessory device.
  • the acquiring module 901 is specifically configured to receive, by using a site control unit in the site controller, operation state information reported by the base station master device, where the site control unit passes the input and output I.
  • the O/O interface is connected to the base station master device; or the site controller receives the running status information reported by the baseband processing unit BBU in the base station master device by using a site control unit in the site controller, the site The control unit is connected to the BBU through an I/O interface; and receives, by the station control unit in the site controller, operational status information collected by the accessory device control unit from the accessory device, and the site control unit passes the I/ The O interface is connected to the supporting device control unit.
  • the acquiring module 901 is specifically configured to receive, by using a control unit in the site controller and a BBU in the base station master device, a radio remote unit RRU in the base station master device.
  • the operating status information is reported, the control unit is connected to the RRU through an I/O interface, and the operating status information reported by the accessory device is received by the control unit in the site controller, and the control unit passes the I/O The interface is connected to the accessory device.
  • the operating state information includes at least one of the following information: power consumption information, temperature information, energy saving state, and backup energy state, where the power saving state includes: a base station master device, and a matching The device turns the power save mode on or off.
  • the base station master device and the accessory device in the site device respectively report the respective running state information to the site controller, and the site controller obtains the running state information of the base station master device and the running state of the accessory device.
  • the site controller reports the running status information of the base station main device and the running status information of the supporting device to the energy saving management system, and the energy saving management system is connected.
  • the energy-saving management system obtains the first base station master device according to the running state information of the base station master device and/or the running state information of the accessory device.
  • the energy-saving control parameter and the second energy-saving control parameter are obtained for the accessory device, and the energy-saving management system sends the first energy-saving control parameter and the second energy-saving control parameter to the site controller, and the site controller sends the first energy-saving control parameter to the base station master device
  • the second energy saving control parameter is sent to the accessory device.
  • the energy-saving management system monitors, processes, and analyzes the running status information of the base station main equipment and the running status information of the supporting equipment, respectively, and establishes energy-saving control parameters for the base station main equipment and the supporting equipment, respectively, and can implement multiple devices in the station equipment.
  • the energy-saving linkage control between the two can greatly reduce the overall energy consumption of the site equipment and realize the intelligent management of energy efficiency of the site equipment.
  • a base station main device 1000 may include: a sending module 1001, a receiving module 1002, and an energy saving control module 1003, where
  • the sending module 1001 is configured to report, to the site controller, operation state information of the base station master device;
  • the receiving module 1002 is configured to receive a first energy saving control parameter sent by the site controller.
  • the energy-saving control module 1003 is configured to determine, according to the first energy-saving control parameter, whether to change a power-saving state of the base station master device, where the power-saving state includes: the base station master device turns on or disables a power-saving mode.
  • the energy-saving control module 1003 is further configured to determine, according to the traffic volume carried by the base station master device and a preset energy-saving policy, a power-saving state of the base station master device, or the base station master The device determines, according to the energy saving indication information received from the site controller, a power saving state of the base station master device;
  • the sending module 1001 is specifically configured to carry the determined energy saving state in the operating state information and send the information to the site controller, where the site controller sends the energy saving state to the energy saving management system.
  • the energy saving control module 1003 is specifically configured to: if the first energy saving control parameter indicates that the base station primary device service time needs to be extended, and the base station primary device currently turns off the energy saving mode, Changing the current power-saving mode to the power-saving mode; if the first power-saving control parameter indicates that the base station master turns off the power-saving mode and the base station master currently enables the energy-saving mode, then the current power-on mode is changed to Turn off the power save mode.
  • the operating state information includes at least one of the following information: power consumption information, temperature information, and a power saving state, where the power saving state includes: the base station master device is turned on. Turn the energy saving mode on or off.
  • the base station master device and the accessory device in the site device respectively report the respective running state information to the site controller, and the site controller obtains the running state information of the base station master device and the running state of the accessory device.
  • the site controller reports the running status information of the base station master device and the running state information of the supporting device to the energy saving management system, and the energy saving management system receives the running state information of the base station master device reported by the site controller and the running state information of the supporting device.
  • the energy-saving management system obtains the first energy-saving control parameter for the base station master device and the second energy-saving control parameter for the accessory device according to the running state information of the base station master device and/or the running state information of the accessory device, and the energy-saving management system will be the first energy-saving management system.
  • the control parameter and the second energy-saving control parameter are sent to the site controller, and the site controller sends the first energy-saving control parameter to the base station master device, and sends the second energy-saving control parameter to the accessory device.
  • the energy-saving management system monitors, processes, and analyzes the running status information of the base station main equipment and the running status information of the supporting equipment, respectively, and establishes energy-saving control parameters for the base station main equipment and the supporting equipment, respectively, and can implement multiple devices in the station equipment.
  • the energy-saving linkage control between the two can greatly reduce the overall energy consumption of the site equipment and realize the intelligent management of energy efficiency of the site equipment.
  • an accessory device 1100 is provided in the embodiment of the present invention.
  • the accessory device 1100 is one or more devices associated with a base station master device in a site device, and may include: a sending module 1101. a receiving module 1102, an energy saving control module 1103, wherein
  • the sending module 1101 is configured to report the running status information of the accessory device to the site controller.
  • the receiving module 1102 is configured to receive a second energy saving control parameter sent by the site controller.
  • the energy-saving control module 1103 is configured to determine, according to the second energy-saving control parameter, whether to change the energy-saving state of the accessory device, where the power-saving state includes: the accessory device turns the energy-saving mode on or off.
  • the energy-saving control module 1103 is further configured to determine, according to the standby energy state, temperature information, and a preset energy-saving policy of the accessory device, an energy-saving state of the accessory device;
  • the sending module 1101 is specifically configured to carry the determined energy saving state in the operating state information and send the information to the site controller, where the site controller sends the energy saving state to the energy saving management system.
  • the energy-saving control module 1103 is specifically configured to: if the second energy-saving control parameter indicates that the accessory device is in the power-saving mode, and the accessory device is currently enabled. In the energy-saving mode, the current energy-saving mode is changed to the power-saving mode; if the second energy-saving control parameter indicates that the accessory device is in the energy-saving mode and the accessory device is currently in the energy-saving mode, the current energy-saving mode is turned off. Change to turn on power save mode.
  • the accessory device includes: a ventilation device, a refrigeration device, and a power supply device;
  • the energy-saving control module 1103 is specifically configured to: if the second energy-saving control parameter indicates that the ventilation device is configured to extract outdoor cold air to reduce the indoor working environment temperature, turn off the energy-saving mode of the ventilation device, and then extract the outdoor cold air delivery. To the equipment room where the power supply device and the base station main device are located; if the second energy saving control parameter indicates that the cooling device is operated to reduce the indoor working environment temperature, the energy saving mode of the cooling device is turned off, and then the cold air delivery is started to be The power room and the equipment room where the base station is located.
  • the base station master device and the accessory device in the site device respectively report the respective running state information to the site controller, and the site controller obtains the running state information of the base station master device and the running state of the accessory device.
  • the site controller reports the running status information of the base station master device and the running state information of the supporting device to the energy saving management system, and the energy saving management system receives the running state information of the base station master device reported by the site controller and the running state information of the supporting device.
  • the energy-saving management system obtains the first energy-saving control parameter for the base station master device and the second energy-saving control parameter for the accessory device according to the running state information of the base station master device and/or the running state information of the accessory device, and the energy-saving management system will be the first energy-saving management system.
  • the control parameter and the second energy-saving control parameter are sent to the site controller, and the site controller sends the first energy-saving control parameter to the base station master device, and sends the second energy-saving control parameter to the accessory device.
  • the energy-saving management system monitors, processes, and analyzes the running status information of the base station main equipment and the running status information of the supporting equipment, respectively, and establishes energy-saving control parameters for the base station main equipment and the supporting equipment, respectively, and can implement multiple devices in the station equipment.
  • the energy-saving linkage control between the two can greatly reduce the overall energy consumption of the site equipment and realize the intelligent management of energy efficiency of the site equipment.
  • an energy-saving control system 1200 for a site device may include: any one of the foregoing FIG. 8-a, FIG. 4-b, FIG.-c, and FIG. 8-d.
  • the energy-saving management system 800 such as the site controller 900 described in FIG. 9, is the base station master device 1000 as described in FIG. 10, and the accessory device 1100 as described in FIG.
  • the base station master device and the accessory device in the site device respectively report the respective running state information to the site controller, and the site controller acquires the base station master device.
  • the site controller reports the running status information of the base station main device and the running status information of the supporting device to the energy saving management system, and the energy saving management system receives the base station main device reported by the site controller.
  • the energy saving management system obtains the first energy saving control parameter for the base station master device and the second energy saving device for the accessory device according to the running state information of the base station master device and/or the running state information of the accessory device.
  • the control parameter, the energy-saving management system sends the first energy-saving control parameter and the second energy-saving control parameter to the site controller, and the site controller sends the first energy-saving control parameter to the base station master device, and sends the second energy-saving control parameter to the accessory device.
  • the energy-saving management system monitors, processes, and analyzes the running status information of the base station main equipment and the running status information of the supporting equipment, respectively, and establishes energy-saving control parameters for the base station main equipment and the supporting equipment, respectively, and can implement multiple devices in the station equipment.
  • the energy-saving linkage control between the two can greatly reduce the overall energy consumption of the site equipment and realize the intelligent management of energy efficiency of the site equipment.
  • the embodiment of the present invention further provides a computer storage medium, wherein the computer storage medium stores a program, and the program executes some or all of the steps described in the foregoing method embodiments.
  • the energy-saving management system 1300 includes:
  • the input device 1301, the output device 1302, the processor 1303, and the memory 1304 (wherein the number of the processors 1303 in the energy saving management system 1300 may be one or more, and one processor in FIG. 13 is taken as an example).
  • the input device 1301, the output device 1302, the processor 1303, and the memory 1304 may be connected by a bus or other means, wherein the bus connection is taken as an example in FIG.
  • the processor 1303 is configured to perform the foregoing energy saving control method of the site device as shown in FIG. 2, for example, the processor 1303, configured to perform the following steps:
  • the operating state information of the base station master device and/or the running state information of the accessory device Acquiring a first energy-saving control parameter for the base station master device and acquiring a second energy-saving control parameter for the accessory device;
  • the energy saving management system transmits the first energy saving control parameter and the second energy saving control parameter to the site controller.
  • the operating state information of the base station master device includes: a power saving state of the base station master device, and the power saving state of the base station master device includes: the base station master device turning on or off the power saving mode;
  • the operation status information of the accessory device includes: a backup energy state of the accessory device and a power saving state of the accessory device, and the energy-saving state of the accessory device includes: the accessory device turning on or off the energy-saving mode;
  • the processor 1303 is specifically configured to perform the following steps:
  • the energy-saving management system determines whether the standby energy state of the accessory device meets the preset first condition. If the backup energy state of the accessory device does not meet the first condition, obtain, by the base station master device, a first energy-saving control parameter that needs to extend the service time of the base station master device, if the accessory device is configured If the electrical energy state does not satisfy the first condition and the accessory device turns off the energy-saving mode, obtaining, by the accessory device, a second energy-saving control parameter that changes a power-saving state;
  • the energy-saving management system determines whether the standby power state of the accessory device meets the preset second condition. And if the standby energy state of the accessory device meets the second condition, obtaining, by the base station master device, a first energy-saving control parameter that changes a power-saving state, if the standby energy state of the accessory device meets the foregoing And the second energy-saving control parameter that changes the energy-saving state is obtained for the accessory device.
  • the operating state information of the base station master device includes: a power saving state of the base station master device, and the power saving state of the base station master device includes: the base station master device turning on or off the power saving mode;
  • the operation status information of the accessory device includes: the energy-saving state of the accessory device, and the energy-saving state of the accessory device includes: the accessory device turns the energy-saving mode on or off;
  • the processor 1303 is specifically configured to perform the following steps:
  • the energy saving management system Determining, by the energy saving management system, the base station according to operating state information of the base station master device When the main device is in the energy-saving mode, if the accessory device is in the energy-saving mode, the second energy-saving control parameter for changing the energy-saving state is obtained for the accessory device;
  • the energy-saving management system determines that the base station master device is in the energy-saving mode according to the operating state information of the base station master device, if the accessory device turns off the energy-saving mode, obtaining the second energy-saving state for changing the energy-saving state for the accessory device Control parameters.
  • the accessory device includes: a ventilation device, a refrigeration device, and a power supply device;
  • the operating status information of the accessory device includes: an outdoor temperature of the power device and the equipment room where the base station is located, and an indoor working environment temperature of the power device;
  • the processor 1303 is specifically configured to perform the following steps:
  • the processor 1303 is further configured to: perform operation of receiving, by the site controller, operation status information of the base station master device and operation of the accessory device related to the base station master device in the site device.
  • the status information if the running status information of the base station master device includes the traffic volume carried by the base station master device, the energy saving indication information is obtained according to the traffic volume carried by the base station master device and the preset energy saving policy, and the energy saving indication
  • the information includes: the energy-saving management system determines whether the base station master device is allowed to enable or disable the power-saving mode; and sends the energy-saving indication information to the site controller, where the site controller sends the energy-saving indication information to The base station master device.
  • the processor 1303 is further configured to: after receiving operation state information of the base station master device reported by the site controller and running state information of the accessory device related to the base station master device, If the operating state information of the base station master device includes power consumption information of the base station master device, and the running state information of the accessory device includes power consumption information of the accessory device, visualizing the base station master device by using a graph Power consumption information and power consumption information of the accessory device; obtaining energy saving effect according to power consumption information of the base station master device and power consumption information of the accessory device And, the energy saving effect is presented through a chart visualization.
  • the site controller 1400 includes:
  • the input device 1401, the output device 1402, the processor 1403, and the memory 1404 (wherein the number of the processors 1403 in the site controller 1400 may be one or more, and one processor in FIG. 14 is taken as an example).
  • the input device 1401, the output device 1402, the processor 1403, and the memory 1404 may be connected by a bus or other means, wherein the bus connection is taken as an example in FIG.
  • the processor 1403 is configured to execute the foregoing energy saving control method of the site device as shown in FIG. 4 .
  • the processor 1403 is configured to perform the following steps:
  • the energy-saving management system Receiving, by the energy-saving management system, a first energy-saving control parameter and a second energy-saving control parameter, where the first energy-saving control parameter is that the energy-saving management system is configured according to the operating state information of the base station master device, and/or The operation status information of the accessory device is obtained by the base station master device, and the second energy-saving control parameter is that the energy-saving management system is based on the running state information of the base station master device and/or the running state information of the accessory device. Said supporting equipment acquisition;
  • the processor 1403 is specifically configured to perform the following steps:
  • the station control unit in the site controller receives, by the station control unit in the site controller, operation state information reported by the base station master device, where the site control unit is connected to the base station master device through an input/output I/O interface; or
  • the station control unit in the device receives the running status information reported by the baseband processing unit BBU in the base station master device, and the station control unit is connected to the BBU through an I/O interface;
  • the processor 1403 is specifically configured to perform the following steps:
  • the operating status information reported by the accessory device is received by the control unit in the site controller, and the control unit is connected to the accessory device through an I/O interface.
  • the operating state information includes at least one of the following information: power consumption information, temperature information, energy saving state, and backup energy state, where the power saving state includes: a base station master device, and a matching The device turns the power save mode on or off.
  • the base station master device 1500 includes:
  • the input device 1501, the output device 1502, the processor 1503, and the memory 1504 (wherein the number of the processors 1503 in the base station main device 1500 may be one or more, and one processor in FIG. 15 is taken as an example).
  • the input device 1501, the output device 1502, the processor 1503, and the memory 1504 may be connected by a bus or other means, wherein the bus connection is taken as an example in FIG.
  • the processor 1503 is configured to execute the foregoing energy saving control method of the site device as shown in FIG. 5.
  • the processor 1503 is specifically configured to perform the following steps:
  • the processor 1503 is further configured to perform the following steps:
  • the determined energy saving state is carried in the operating state information and sent to the site controller, and the energy saving state is sent by the site controller to the energy saving management system.
  • the processor 1503 is specifically configured to perform the following steps:
  • the first energy saving control parameter indicates that the base station primary device service time needs to be extended and When the base station master device currently turns off the power saving mode, the current power saving mode is changed to the power saving mode.
  • the current power saving mode is changed to the power saving mode.
  • the operating status information includes at least one of the following information: power consumption information, temperature information, and a power saving state, where the power saving state includes: the base station master device turns on or off the power saving mode. .
  • the accessory device 1600 includes:
  • the input device 1601, the output device 1602, the processor 1603, and the memory 1604 (wherein the number of the processors 1603 in the companion device 1600 may be one or more, and one processor in FIG. 16 is taken as an example).
  • the input device 1601, the output device 1602, the processor 1603, and the memory 1604 may be connected by a bus or other means, wherein the bus connection is taken as an example in FIG.
  • the processor 1603 is configured to execute the foregoing energy saving control method of the site device as shown in FIG. 6. For example, the processor 1603 is configured to perform the following steps:
  • the accessory device reports the running status information of the accessory device to the site controller, where the accessory device is one or more devices associated with the base station master device in the site device;
  • the accessory device determines, according to the second energy-saving control parameter, whether to change the energy-saving state of the accessory device, where the power-saving state includes: the accessory device turns the energy-saving mode on or off.
  • the processor 1603 is further configured to perform the following steps:
  • the determined energy saving state is carried in the operating state information and sent to the site controller, and the energy saving state is sent by the site controller to the energy saving management system.
  • the processor 1603 is specifically configured to perform the following steps:
  • the second energy-saving control parameter indicates that the accessory device is in the power-saving mode, and the accessory device is currently enabled in the power-saving mode, the current power-on mode is changed to the power-saving mode.
  • the current power-saving mode is changed to the power-saving mode.
  • the accessory device includes: a ventilation device, a cooling device, and a power supply device; and the processor 1603 is configured to perform the following steps:
  • the ventilation device is operated to extract the outdoor cold air to reduce the indoor working environment temperature
  • the ventilation device is controlled to turn off the energy-saving mode, and then the outdoor cold air is extracted and sent to the power device and the base station main device.
  • the cooling device is controlled to turn off the energy saving mode, and then the cold air is started to be sent to the power device and the equipment room where the base station master device is located.
  • the device embodiments described above are merely illustrative, wherein the units described as separate components may or may not be physically separated, and the components displayed as units may or may not be Physical units can be located in one place or distributed to multiple network elements. Some or all of the modules may be selected according to actual needs to achieve the purpose of the solution of the embodiment.
  • the connection relationship between the modules indicates that there is a communication connection between them, and specifically, one or more communication buses or signal lines can be realized.
  • the present invention can be implemented by means of software plus necessary general hardware, and of course, dedicated hardware, dedicated CPU, dedicated memory, dedicated memory, Special components and so on.
  • functions performed by computer programs can be easily implemented with the corresponding hardware, and the specific hardware structure used to implement the same function can be various, such as analog circuits, digital circuits, or dedicated circuits. Circuits, etc.
  • software program implementation is a better implementation in more cases.
  • the technical solution of the present invention which is essential or contributes to the prior art, can be embodied in the form of a software product stored in a readable storage medium, such as a floppy disk of a computer.
  • U disk mobile hard disk, read-only memory (ROM, Read-Only Memory), random access memory (RAM, Random Access Memory), disk or optical disk, etc., including a number of instructions to make a computer device (may be A personal computer, server, or network device, etc.) performs the methods described in various embodiments of the present invention.
  • a computer device may be A personal computer, server, or network device, etc.

Landscapes

  • Engineering & Computer Science (AREA)
  • Computer Networks & Wireless Communication (AREA)
  • Signal Processing (AREA)
  • Air Conditioning Control Device (AREA)
  • Mobile Radio Communication Systems (AREA)
  • Power Sources (AREA)

Abstract

L'invention concerne un appareil, un système et un procédé de régulation d'économie d'énergie destinés à un dispositif de station. Un système de gestion d'économie d'énergie reçoit des informations d'état de fonctionnement concernant un dispositif principal de station de base rapporté par un dispositif de commande de station et des informations d'état de fonctionnement autour d'un dispositif d'accompagnement se rapportant au dispositif principal de la station de base dans un dispositif de station ; le système de gestion d'économie d'énergie acquiert un premier paramètre de régulation d'économie d'énergie pour le dispositif principal de station de base et acquiert un second paramètre de commande d'économie d'énergie pour le dispositif d'accompagnement selon les informations d'état de fonctionnement concernant le dispositif principal de station de base et/ou les informations d'état de fonctionnement concernant le dispositif d'accompagnement ; et le système de gestion d'économie d'énergie envoie le premier paramètre de régulation d'économie d'énergie et le second paramètre de régulation d'économie d'énergie à l'unité de commande de station.
PCT/CN2015/082614 2015-06-29 2015-06-29 Appareil, système et procédé de régulation d'économie d'énergie destinés à un dispositif de station WO2017000104A1 (fr)

Priority Applications (2)

Application Number Priority Date Filing Date Title
PCT/CN2015/082614 WO2017000104A1 (fr) 2015-06-29 2015-06-29 Appareil, système et procédé de régulation d'économie d'énergie destinés à un dispositif de station
CN201580031700.XA CN106489288A (zh) 2015-06-29 2015-06-29 一种站点设备的节能控制方法、装置及系统

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
PCT/CN2015/082614 WO2017000104A1 (fr) 2015-06-29 2015-06-29 Appareil, système et procédé de régulation d'économie d'énergie destinés à un dispositif de station

Publications (1)

Publication Number Publication Date
WO2017000104A1 true WO2017000104A1 (fr) 2017-01-05

Family

ID=57607445

Family Applications (1)

Application Number Title Priority Date Filing Date
PCT/CN2015/082614 WO2017000104A1 (fr) 2015-06-29 2015-06-29 Appareil, système et procédé de régulation d'économie d'énergie destinés à un dispositif de station

Country Status (2)

Country Link
CN (1) CN106489288A (fr)
WO (1) WO2017000104A1 (fr)

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN114466433A (zh) * 2021-12-02 2022-05-10 华为技术有限公司 控制方法及装置
CN114554530A (zh) * 2021-12-29 2022-05-27 中国电信股份有限公司 基站智能保电方法、装置、系统、电子设备和存储介质
WO2023088297A1 (fr) * 2021-11-17 2023-05-25 华为技术有限公司 Procédé et appareil d'alimentation électrique de secours
WO2024093667A1 (fr) * 2022-10-31 2024-05-10 华为技术有限公司 Procédé et appareil de gestion de dispositif de réseau et système de communication

Families Citing this family (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN110267296B (zh) * 2019-05-17 2023-03-24 中国联合网络通信集团有限公司 一种状态检测方法及设备
CN113099519A (zh) * 2020-01-09 2021-07-09 华为技术有限公司 基站控制方法、运营支撑系统0ss、分布式基站系统dbs
CN113365331B (zh) * 2021-06-08 2023-09-26 中国联合网络通信集团有限公司 基站节能控制系统及方法
CN113423149B (zh) * 2021-06-21 2022-11-22 深圳力维智联技术有限公司 5g基站热耗控制系统、方法及设备
CN117715160A (zh) * 2022-09-07 2024-03-15 中兴通讯股份有限公司 基站节能方法、基带设备、射频设备、基站及存储介质

Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102387570A (zh) * 2010-09-02 2012-03-21 中兴通讯股份有限公司 一种无线网络的节能控制方法及系统
WO2012083726A1 (fr) * 2010-12-22 2012-06-28 中兴通讯股份有限公司 Procédé et système permettant de prolonger la durée d'alimentation électrique d'une alimentation de secours d'une station de base
CN102883354A (zh) * 2012-09-19 2013-01-16 中国联合网络通信集团有限公司 移动通信基站的节能效率检测方法及装置
CN103167526A (zh) * 2013-03-07 2013-06-19 李彬 通讯基站实现整体信息化管理的方法及系统

Family Cites Families (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN100480593C (zh) * 2006-12-31 2009-04-22 广州金关节能科技发展有限公司 基站空调节能监控系统
CN102238591B (zh) * 2010-04-20 2016-09-28 中兴通讯股份有限公司 一种无线网络实现节能的方法及系统
CN101969658A (zh) * 2010-10-14 2011-02-09 无锡博欧电子科技有限公司 基站节能方法及系统
CN102239730B (zh) * 2011-04-15 2013-09-25 华为技术有限公司 基站设备的供电管理方法和装置
CN102609808A (zh) * 2012-01-17 2012-07-25 北京百度网讯科技有限公司 一种用于对数据中心进行能耗管理的方法与设备
KR101276380B1 (ko) * 2013-04-26 2013-06-18 (주)써모텍 히트파이프를 이용한 데이터 센터의 공조 시스템 및 이의 제어방법
CN103995522A (zh) * 2014-06-11 2014-08-20 浪潮电子信息产业股份有限公司 一种一体化设计的模块化数据中心系统及能耗调控方法
CN104376398A (zh) * 2014-10-15 2015-02-25 华为技术有限公司 一种能耗管理的方法、管理设备及数据中心

Patent Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102387570A (zh) * 2010-09-02 2012-03-21 中兴通讯股份有限公司 一种无线网络的节能控制方法及系统
WO2012083726A1 (fr) * 2010-12-22 2012-06-28 中兴通讯股份有限公司 Procédé et système permettant de prolonger la durée d'alimentation électrique d'une alimentation de secours d'une station de base
CN102883354A (zh) * 2012-09-19 2013-01-16 中国联合网络通信集团有限公司 移动通信基站的节能效率检测方法及装置
CN103167526A (zh) * 2013-03-07 2013-06-19 李彬 通讯基站实现整体信息化管理的方法及系统

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2023088297A1 (fr) * 2021-11-17 2023-05-25 华为技术有限公司 Procédé et appareil d'alimentation électrique de secours
CN114466433A (zh) * 2021-12-02 2022-05-10 华为技术有限公司 控制方法及装置
WO2023098553A1 (fr) * 2021-12-02 2023-06-08 华为技术有限公司 Procédé de commande et appareil
CN114554530A (zh) * 2021-12-29 2022-05-27 中国电信股份有限公司 基站智能保电方法、装置、系统、电子设备和存储介质
WO2024093667A1 (fr) * 2022-10-31 2024-05-10 华为技术有限公司 Procédé et appareil de gestion de dispositif de réseau et système de communication

Also Published As

Publication number Publication date
CN106489288A (zh) 2017-03-08

Similar Documents

Publication Publication Date Title
WO2017000104A1 (fr) Appareil, système et procédé de régulation d'économie d'énergie destinés à un dispositif de station
CN106208394B (zh) 基于云计算技术的智能节能供电系统及方法
CN102237681B (zh) 家电用电量的控制方法、系统及相应装置
CN109059195B (zh) 用于削减电网负荷峰值的中央空调的控制方法及控制系统
CN103068019B (zh) 一种无线局域网络节能的方法及装置
CN103148563B (zh) 一种空调控制系统及控制方法
CN202939450U (zh) 一种家居电量监控系统
CN103197633B (zh) 一种远程控制用电设备的方法、平台和系统
KR101940384B1 (ko) 분산 발전에 기초한 공조 시스템의 모니터링 시스템 및 이를 이용하는 공조 시스템
CN110848895B (zh) 一种非工空调柔性负荷控制方法和系统
CN114727375B (zh) 一种5g基站深度休眠的节能控制方法、基站和系统
CN102901186A (zh) 空调器的控制装置、方法和系统
CN105743094A (zh) 电网需求响应控制系统
CN204731546U (zh) 一种办公建筑节能控制系统
CN205992803U (zh) 基于云计算技术的智能节能供电系统
CN203869259U (zh) 一种基于末端空调设备冷冻水阀门开度的变压差控制装置
CN203501384U (zh) 一种中央空调监控系统
CN112728728A (zh) 一种空调节能策略实施方法、系统及可读存储介质
CN104539050B (zh) 能信路由器及用于管理电能网络和信息网络的应用系统
CN204903986U (zh) 智能节能远程空调控制器
CN106642594B (zh) 一种用于数据中心空调节能控制系统及其方法
CN105546772A (zh) 一种中央空调的节能控制方法
CN204373150U (zh) 中央空调自动化控制装置
CN211557555U (zh) 一种智能家居单火开关
CN202900606U (zh) 水泵智能变频控制柜

Legal Events

Date Code Title Description
121 Ep: the epo has been informed by wipo that ep was designated in this application

Ref document number: 15896635

Country of ref document: EP

Kind code of ref document: A1

NENP Non-entry into the national phase

Ref country code: DE

122 Ep: pct application non-entry in european phase

Ref document number: 15896635

Country of ref document: EP

Kind code of ref document: A1