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WO2014015486A1 - 数据分流方法,数据发送装置以及分流节点装置 - Google Patents

数据分流方法,数据发送装置以及分流节点装置 Download PDF

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Publication number
WO2014015486A1
WO2014015486A1 PCT/CN2012/079150 CN2012079150W WO2014015486A1 WO 2014015486 A1 WO2014015486 A1 WO 2014015486A1 CN 2012079150 W CN2012079150 W CN 2012079150W WO 2014015486 A1 WO2014015486 A1 WO 2014015486A1
Authority
WO
WIPO (PCT)
Prior art keywords
data
offload
node device
report information
sent
Prior art date
Application number
PCT/CN2012/079150
Other languages
English (en)
French (fr)
Inventor
曹振臻
姜怡
权威
王瑜
郭小龙
黄曲芳
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 CN201280006833.8A priority Critical patent/CN103782554B/zh
Priority to EP12881602.2A priority patent/EP2871811B1/en
Priority to PCT/CN2012/079150 priority patent/WO2014015486A1/zh
Publication of WO2014015486A1 publication Critical patent/WO2014015486A1/zh
Priority to US14/604,149 priority patent/US10630801B2/en

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Classifications

    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04LTRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
    • H04L67/00Network arrangements or protocols for supporting network services or applications
    • H04L67/50Network services
    • H04L67/56Provisioning of proxy services
    • H04L67/568Storing data temporarily at an intermediate stage, e.g. caching
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W72/00Local resource management
    • H04W72/12Wireless traffic scheduling
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04LTRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
    • H04L47/00Traffic control in data switching networks
    • H04L47/10Flow control; Congestion control
    • H04L47/30Flow control; Congestion control in combination with information about buffer occupancy at either end or at transit nodes

Definitions

  • the present invention relates to wireless communication technologies, and in particular, to a data offloading method, a data transmitting device, and a shunt node device.
  • LTE long term evolution
  • WiFi wireless fidelity
  • inter-frequency LTE networks can be used to offload some downlink data to other inter-frequency wireless networks, such as wireless fidelity (WiFi) and inter-frequency LTE networks.
  • an LTE base station directly passes a part of its downlink data.
  • the LTE air interface is transmitted to the target user equipment (User Equipment, hereinafter referred to as UE), and the other part of the data is transmitted to the wireless fidelity access point (WiFi AP) and transmitted to the target UE through the WiFi air interface, or
  • the downlink data is offloaded to the Supporting User Equipment (hereinafter referred to as Supporting UE) through the LTE air interface, and then transmitted to the target UE through WiFi or other air interface, and finally the data of the two parts are merged at the target UE end;
  • the LTE Macro transmits part of its downlink data directly to the target UE through the LTE Macro air interface, and the other part is split to the long-term evolution base station (long term evolution Pico). , hereinafter referred to as: LTE Pico ), and transmitted to the target UE through the LTE Pico air interface, and the two parts of the offloaded data are combined at the target UE end.
  • the data transmitting apparatus has a problem of how to determine the data rate of the offloading to the offloading node device. If the offloading rate is greater than the transmission rate of the offloading node device to the target UE, It will cause congestion of the data packet at the branching node device, resulting in an increase in packet delay and even packet loss; conversely, if the splitting rate is small The transmission rate of the offloading node device to the target UE may result in waste of the resource of the offloading node device. According to the prior art, the data transmitting device is unable to provide a suitable shunting data rate for the shunt node device.
  • the embodiments of the present invention provide a data offloading method, a data transmitting apparatus, and a streaming node apparatus.
  • the data offloading method of the embodiment of the present invention can provide a suitable offloading data rate for the offloading node apparatus.
  • An aspect of the embodiments of the present invention provides a data offloading method, including:
  • the offloading data is sent to the offloading node device.
  • the method for obtaining the number of offloaded data packets to be sent buffered by the offloading node device includes:
  • the offloaded data packet report information includes a offload node identifier, and the identifier list of the data packet received by the user equipment from the offload node device or the last received from the offload node device The identity of a data packet;
  • the method further includes:
  • the offloaded data packet report information further includes a historical rate at which the user equipment receives the offloaded data packet from the offload node device.
  • the method for obtaining the number of offloaded data packets to be sent buffered in the offloading node device includes: Receiving the buffer status report information sent by the branching node device, and acquiring, from the cache status report information, the number of the offloaded data packets to be sent buffered by the branching node device.
  • the method further includes: sending, to the branching node device, a second report indication message, where the second report indication message is used to indicate that the offload node device sends the cache status report according to the preset period.
  • the buffer status report information further includes a historical rate of the offloaded data packet sent by the offloading node device, a number of the offloaded data packets to be sent by the single user equipment in the offloading node device, and the shunt node device sends the shunt data for the single user equipment.
  • the historical rate of the package is not limited to a historical rate of the offloaded data packet sent by the offloading node device, a number of the offloaded data packets to be sent by the single user equipment in the offloading node device, and the shunt node device sends the shunt data for the single user equipment. The historical rate of the package.
  • the offloaded data when the number of the offloaded data packets to be transmitted is greater than or equal to the first threshold, the offloaded data is not sent to the offload node device.
  • An aspect of the present invention provides another data offloading method, including: receiving a first report indication message sent by the data sending apparatus, where the first report indication message is used to indicate that the user equipment sends the offloaded data packet report according to a preset period.
  • the offloaded data packet report information includes a shunt node identifier, And an identifier of the data packet received by the user equipment from the distribution node device or an identifier of the last data packet received from the distribution node device.
  • the offloaded data packet report information further includes a historical rate at which the user equipment receives the offloaded data packet from the offloading node device.
  • Another aspect of the present invention provides a data offloading method, including: receiving a second report indication message sent by the data sending apparatus, where the second report indication message is used to indicate that the offload node device sends the buffer status according to a preset period. Reporting information, or for indicating that the branching node device sends the buffer status report information every time a preset number of data packets are sent; sending the buffer status report information to the data offloading device according to the preset period, or sending a preset number of data packets each time The buffer status report information is sent to the data offloading device, where the buffer status report information carries the number of offloaded data packets to be sent buffered by the branching node device.
  • the buffer status report information further includes a split node device that sends the number of splits. According to the historical rate of the packet, the number of offloaded data packets to be sent buffered by the single user equipment in the offloading node device, the traffic rate node transmits the historical rate of the offloaded data packet to the single user equipment.
  • the data offloading method provided by the present invention determines whether it is necessary to send data to the branching node device by acquiring the to-be-sent data packet information buffered in the branching node device, and the information of the to-be-sent stream-sending data buffered in the branching node device is smaller than a preset value.
  • the buf fer of the branching node device has a large space, so that more data can be received and sent to the user equipment, and on the other hand, the transmission rate of the branching node device to the user equipment is also improved;
  • the information about the offloaded data to be sent in the device is greater than a certain preset value, it indicates that the buf fer of the branching node device is busy in order to avoid the packet delay and the packet loss caused by the congestion of the data packet in the branch node device.
  • the data transmitting device no longer transmits data like the streaming node device.
  • Another aspect of the embodiments of the present invention provides a data sending apparatus, including:
  • a first acquiring module configured to acquire a quantity of the offloaded data packet to be sent buffered by the branching node device
  • the offloading control module is configured to send the offload data to the offload node device when the number of the offloaded data packets to be sent is less than the first threshold, otherwise, the offload data is not sent to the offload node device.
  • the first acquiring module includes:
  • a first receiving unit configured to receive the offloaded data packet report information sent by the user equipment, where the offloaded data packet report information includes a split node identifier, and a list of identifiers that the user equipment receives the data packet from the offload node device or from the The identifier of the last data packet received by the streaming node device;
  • a first obtaining unit configured to: according to the data packet information that has been offloaded to the branching node device, and the identifier list that the user equipment receives the data packet from the branching node device or the last received from the branching node device
  • the identifier of a data packet acquires the number of offloaded data packets to be sent buffered in the branching node device.
  • the data sending apparatus further includes:
  • the first sending module is configured to send a first report indication message to the user equipment, where the first report indication message is used to indicate that the user equipment sends the offloaded data packet report information according to a preset period, or is used to indicate that the user equipment receives the pre-received
  • the shunt packet report information is sent when the number of packets is set.
  • the first acquiring module includes:
  • a second receiving unit configured to receive the buffer status report information sent by the branching node device, where the second obtaining unit is configured to obtain, from the cache status report information, the number of the offloaded data packets to be sent buffered by the branching node device.
  • the data sending apparatus further includes:
  • a second sending module configured to send a second report indication message to the offloading node device, where the second report indication message is used to indicate that the offloading node device sends the buffer status report information according to the preset period, or is used to indicate that the offload node device sends each
  • the cache status report information is sent when a preset number of packets are present.
  • the offload control module is further configured to not send the offload data to the offload node device when the number of the offloaded data packets to be transmitted is greater than or equal to the first threshold.
  • the data sending apparatus determines whether it is necessary to continue to offload to the branching node device by acquiring the number of data packets to be sent buffered in the branching node device, thereby improving the transmission rate of the branching node device and enabling the buf in the branching node device. Fer is fully utilized.
  • Yet another method of the present invention is to provide a user equipment, including:
  • a first receiving module configured to receive a first report indication message sent by the data sending apparatus, where the first report indication message is used to indicate that the user equipment sends the offloaded data packet report information according to a preset period, or is used to indicate that the user equipment is Sending offloaded packet report information when receiving a preset number of data packets;
  • a third sending module configured to send the offloaded data packet report information to the data sending apparatus according to the preset period, or send the offloaded data packet report information to the data sending apparatus every time a preset number of data packets are received, where the split data packet is sent
  • the report information includes a distribution node identifier, and an identifier of the data packet received by the user equipment from the distribution node device or an identifier of the last data packet received from the distribution node device.
  • the user equipment causes the data transmitting apparatus to estimate the number of data packets to be transmitted buffered in the branching node apparatus by reporting the number of data packets received from the branching node apparatus to the data transmitting apparatus, thereby improving the shunt node apparatus.
  • the transfer rate to the user device causes the data transmitting apparatus to estimate the number of data packets to be transmitted buffered in the branching node apparatus by reporting the number of data packets received from the branching node apparatus to the data transmitting apparatus, thereby improving the shunt node apparatus.
  • the transfer rate to the user device.
  • Yet another method of the present invention is to provide a shunt node device, including: The second receiving module receives the second reporting indication message sent by the data sending device, where the second reporting indication message is used to indicate that the switching node device sends the buffer status report information according to the preset period, or is used to indicate that the switching node device is transmitting the pre- Sending buffer status report information when a number of packets are set;
  • a fourth sending module configured to send buffer status report information to the data offloading device according to the preset period, or send buffer status report information to the data offloading device every time a preset number of data packets are sent, where the buffer status report information is carried The number of offloaded packets to be sent buffered in the sink node device
  • the offloading node device causes the data transmitting device to determine whether to continue to offload data to the branching node device by reporting the number of to-be-sent packets buffered in the buf fer to the data transmitting device, thereby improving the offloading node device to the user equipment.
  • the transmission rate ensures that the buffered data packets in the branching node device avoid delay, and can also ensure efficient use of the spectrum resources of the branching node device.
  • FIG. 1 is a schematic flowchart 1 of an embodiment of a data offloading method according to the present invention
  • FIG. 2 is a schematic flowchart 2 of an embodiment of a data offloading method according to the present invention
  • FIG. 3 is a schematic flowchart 3 of an embodiment of a data offloading method according to the present invention.
  • FIG. 4 is a schematic structural diagram of an embodiment of a data transmitting apparatus according to the present invention.
  • FIG. 5 is a schematic structural diagram of an embodiment of a user equipment device according to the present invention.
  • FIG. 6 is a schematic structural diagram of an embodiment of a shunt node device according to the present invention.
  • the technical solutions in the embodiments of the present invention are clearly and completely described in the following with reference to the accompanying drawings in the embodiments of the present invention. It is obvious that the described embodiments are only a part of the embodiments of the present invention. Rather than all embodiments. All other embodiments obtained by a person of ordinary skill in the art based on the embodiments of the present invention without departing from the inventive scope are the scope of the present invention.
  • FIG. 1 is a schematic flowchart 1 of an embodiment of a data offloading method according to the present invention. As shown in FIG. 1, the method includes the following steps:
  • Step 101 Acquire a quantity of the offloaded data packet to be sent buffered in the branching node device.
  • the number of offloaded data packets sent by the data transmitting apparatus such as the base station to the shunting node apparatus in the same time period and the number of shunted data packets received by the user equipment from the shunting node apparatus should be the same, that is, the transmission rate of the base station to the shunting node apparatus.
  • the transmission rate with the user equipment of the offloading node device should be the same.
  • the shunt data packet received by the branching node device is temporarily stored in the buffer on the branching node device, and then the data is taken out from the buffer. The packet information is sent to the user equipment.
  • the packet In the process of buffering, if the number of the offloaded data packets to be sent in the branching node device is too large or too small, the transmission rate of the branching node device to the user equipment is affected. Therefore, the packet must first be Obtaining the number of the offloaded data packets to be buffered in the branching node device, and determining whether the data transmitting device continues to send the data packet information to the branching node device according to the number of the offloaded data packets buffered in the branching node device.
  • the embodiment of the present invention mainly determines the transmission rate by using the data sending device to estimate the amount of data in the offload buffer on the offload node device, because the congestion or idleness of the link of the offload node device to the target UE is reflected in the buffer of the branch node device waiting for the offloading. The amount of data.
  • Step 102 Determine whether the number of the offloaded data packets to be sent is less than a first threshold, and if less than the first threshold, send the offload data to the offload node device.
  • the data transmitting device If the number of the offloaded data packets to be sent in the offloading node device is smaller than the first threshold, the amount of data waiting for the offloading in the buffer node device buffer is small, and the storage resource of the branching node device has a large idle space, then the data transmitting device The packet information is further distributed to the branching node device so that the buffering resources of the branching node device can be effectively utilized. On the other hand, the transmission rate of the branching node device to the user equipment is also improved.
  • the embodiment of the present invention provides a method for acquiring at least two types of data packets to be sent that are buffered in the device of the offloading node, where one method is specifically:
  • the shunt data packet report information sent by the user equipment, and then acquiring the shunt node device according to the data packet information that has been offloaded to the shunt node device, and the user equipment receiving the data packet information from the shunt node device
  • the number of the offloaded data packets to be sent, wherein the offloaded data packet report information includes a split node identifier, and an identifier list of the data packet received by the user equipment from the offload node device or received from the offload node device The identifier of the last packet.
  • the data sending apparatus can estimate the number of to-be-sent data packets buffered in the branching node device according to the number of data packets sent to the branching node device and the offloaded data packet report information received from the user equipment, where the data packet is to be transmitted.
  • the information includes a distribution node identifier, and an identification list of the data packet received by the user equipment from the distribution node device or an identification of the last data packet received from the distribution node device.
  • the offload node identifier may be a MAC address, an IP address, or other identifier of the offload node device.
  • the identification list of the data packet can be TCP, IP layer serial number or other identifier.
  • the first report indication message is sent to the user equipment, where the first report indication message is used to indicate that the user equipment sends the offloaded data packet report information according to a preset period, or And is used to instruct the user equipment to send the offloaded data packet report information every time a preset number of data packets are received.
  • the data sending apparatus sends a first report indication message to the user, where the first report indication message is used to indicate that the user equipment sends the data to the data in a period of T.
  • the device feeds back the data packet information received by the current branching node device; or the first report indication message is further used to indicate that the user equipment receives the data packet information from the branching node device when the number of data packets exceeds a certain preset value.
  • the device feeds back to the data transmitting device the shunt packet information it receives.
  • the offloaded data packet report information further includes a historical rate at which the user equipment receives the offloaded data packet from the offloading node device.
  • the data sending apparatus receives the offloaded data packet report information sent by the user equipment, except that the shunt node identifier is included, and the user equipment receives the identifier list of the data packet from the shunt node apparatus or receives the identifier from the shunt node apparatus.
  • a historical rate that may be derived from the amount of data received by the user equipment from the shunt node device per unit time.
  • the historical rate of the shunting node device receiving the shunt data packet provided by the embodiment of the present invention is used to provide a reference to the data transmitting device, and the data transmitting device can estimate whether it is necessary to continue to divert the data to the shunt node device according to the magnitude of the historical rate.
  • the embodiment of the present invention further provides another method for obtaining the number of the offloaded data packets to be sent in the device for acquiring the offloading node.
  • the method is specifically:
  • the data sending apparatus receives the buffer status report information sent by the branching node device, where the buffer status report information includes the number of the offloaded data packets to be sent buffered by the branching node device, so that the sending data sending device can directly obtain the shunt node device.
  • the number of the offloaded data packets to be transmitted is buffered, so that the data transmitting apparatus can determine whether it is necessary to continue to send data to the offload point according to the received buffer status report information.
  • the data sending apparatus before the data sending apparatus receives the buffer status report information sent by the branching node device, the data sending apparatus further sends a second report indication message to the branching node apparatus, where the second report indication message is used to indicate that the branching node apparatus is preset according to the preset
  • the buffer status report information is periodically sent, or is used to instruct the branch node device to send buffer status report information every time a preset number of data packets are sent.
  • the data sending device first sends a second report indication message to the branching node device, and the branching node device sends the buffer status report information to the data sending device according to the received second report indication message.
  • the second report indication message is used to indicate that the offloading node device sends the buffer status report information to the data by using the T period, where the buffer status report information indicates the number of the offloaded data packets sent by the current tap node device to the user equipment; or the second report indication
  • the message may also be used to indicate that the offloading node device sends the buffer status report information every time a preset number of data packets are sent.
  • the data sending device instructs the branching node device to reduce the number of data packets to be sent buffered in the branching node device to be smaller than a certain amount.
  • the data transmitting device continues to offload to the branching node device, that is, continues to send the data packet to the branching node device, and when the number of data packets to be transmitted buffered in the branching node device is greater than a certain preset value, the data transmitting device The shunting to the shunt node device is stopped, that is, the transmission of the data packet to the shunt node device is stopped.
  • the buffering status report information sent by the data sending device and the receiving node device further includes a historical rate of the shunting data packet sent by the shunting node device, and a quantity of the shunt data packet to be sent buffered by the single user equipment in the shunting node device, and the shunt node device The historical rate at which a split packet is sent for a single user equipment.
  • the data sending apparatus receives the buffer status report information sent by the branching node device, in addition to the number of the offloaded data packets buffered by the branching node device, and the historical rate at which the splitting node device sends the offloaded data packet, where the single user equipment is The number of offloaded data packets to be sent buffered by the sinking node device, and the traffic rate of the offloaded data packet sent by the splitting node device for a single user equipment.
  • the historical rate of the offloaded data packet sent by the offloading node device, the number of the offloaded data packets to be sent by the single user equipment in the branching node device, and the historical rate at which the splitting node device sends the offloaded data packet to the single user equipment may be used in the embodiments of the present invention.
  • the data transmitting device can estimate whether the shunt node device needs to continue to offload data according to the historical rate at which the shunt node device sends the shunt data packet; The device may further estimate, according to the number of the offloaded data packets to be sent by the single user equipment in the offloading node device, whether to send the data packet information of the single user equipment to the other shunt node device, and send the other shunt node device to the The single user equipment; or the data transmitting apparatus may also determine whether the data needs to be distributed to other shunt node devices according to the historical rate of the shunting data packet sent by the shunt node device for a single user equipment, and other Shunt node device to transmit data to the single user equipment.
  • FIG. 2 is a schematic flowchart 2 of an embodiment of a data offloading method according to the present invention. As shown in FIG. 2, the method includes the following steps:
  • Step 201 The user equipment receives the first report indication message sent by the data sending apparatus, where the first report indication message is used to indicate that the user equipment sends the offloaded data packet report information according to a preset period, or is used to indicate that the user equipment receives the The offloaded packet report information is sent when a preset number of packets are present.
  • the user equipment receives the first report indication message sent by the data sending apparatus, where the first report indication message is used to indicate that the user equipment feeds back the data packet report information to the data sending apparatus by using the T period, or the first report indication message is further Can be used to indicate that the user device is pre-available
  • the threshold is set to feed back the data packet reporting information to the data transmitting device.
  • Step 202 The user sends the offloaded data packet report information to the data sending apparatus according to the received first report indication message, where the offloaded data packet report information includes a offload node identifier, and the user equipment receives the data packet from the offload node device.
  • the user equipment sends the offloaded data packet report information to the data transmitting apparatus according to the T period or a certain preset threshold, where the offloaded data packet report information includes the offload node identifier, and the user equipment from the shunt node device Receiving an identification list of the data packet or an identification of the last data packet received from the distribution node device.
  • the offload node identifier may be a MAC address, an IP address, or other identifier of the offload node device.
  • the identification list of the data packet can be TCP, IP layer serial number or other identifier.
  • the offloaded data packet report information further includes a historical rate at which the user equipment receives the offloaded data packet from the offloading node device.
  • the embodiment of the present invention can be determined by the following method:
  • the data sending apparatus configures a feedback period T of the OPRR of the user equipment by using the first reporting indication message, where the specific type of the first reporting indication message for configuring the parameter is not limited.
  • the user equipment feeds back the offloaded packet report OPRR information received from the branching node device to the data transmitting device in a period of T.
  • the OPRR information may include: a distribution node identifier, an identifier list of the received data packet, or an identifier ID of the last received data packet, and a historical data rate value R received from the distribution node device.
  • the offload node identifier may be the MAC address, IP address or other identifier of the offload node device.
  • the identifier of the data packet can be TCP, IP layer serial number or other identifier.
  • the historical data rate value R can be estimated based on the amount of data received from the shunt node device during the UE-segment time.
  • the data transmitting apparatus can estimate the number of packets waiting to be shunted in the buffer of the branching node device based on the packet information included in the OPRR and the packet information that is branched to the branching node device. For example, if the data transmitting apparatus has shunted 100 data packets to the branching node device, and the user equipment receives 40 data packets from the branching node device according to the OPRR information reported by the user equipment, the data transmitting device may estimate that the branching node device further There are 60 packets waiting to be transmitted. The data transmitting device can estimate the data buffered in the buffer according to the estimate The packet number information determines whether or not to offload to the tap node device. For example, when the number of data packets is less than a certain threshold, for example, less than 10 data packets, the traffic is shunted to the branching node device; otherwise, the data is not shunted to the shunt node device.
  • a certain threshold for example, less than 10 data packets
  • the user equipment feeds back the data packet information received from the branching node device to the data transmitting device at a preset period to determine whether the data transmitting device needs to continue to offload data to the branching node device, when the branching node
  • the number of data packets to be sent buffered in the device is greater than a certain preset value, the data is not sent to the branching node device, so that the data packets in the buffer device of the branching node do not cause congestion or increase the delay of the data packet, even
  • the packet loss phenomenon affects the transmission rate of the offload node device to the user equipment.
  • the offload data method provided by the embodiment of the present invention improves the transmission rate of the offload node device; When the number of transmitted data packets is less than a predetermined value, the data transmitting device continues to transmit data to the branching node device, so that the buffer of the shunt node device is fully utilized, and on the other hand, the shunt node device is also improved. Transmission rate.
  • the embodiment of the present invention further provides a method for determining whether it is necessary to continue to offload data to the offload node device, and the method is specifically:
  • the data sending apparatus configures a feedback threshold N of the OPRR of the user equipment by using the first reporting indication message, where the first reporting indication message for configuring the parameter is not limited.
  • the OPRR information may include: a distribution node identifier, an identifier list of the received data packet, or an identifier ID of the last received data packet, and a historical data rate value R received from the distribution node device.
  • the offload node identifier can be the MAC address, IP address, or other identifier of the offload node device.
  • the identifier of the data packet can be TCP, IP layer serial number or other identifier.
  • the historical data rate value R can be estimated based on the amount of data received by the user equipment from the shunt node device over a period of time.
  • the data transmitting apparatus can estimate the number of packets waiting to be shunted in the buffer of the branching node device based on the packet information included in the OPRR and the packet information that is branched to the branching node device. For example, if the data transmitting apparatus has shunted 100 data packets to the branching node device, and the user equipment receives 40 data packets from the branching node device according to the OPRR information reported by the user equipment, the data transmitting device may estimate that the branching node device further There are 60 Packets are waiting to be transmitted. The data transmitting device may determine whether to offload to the offload node device according to the number of data packets buffered in the estimated buffer. For example, when the number of data packets is less than a certain threshold, for example, less than 10 data packets, the traffic is shunted to the branching node device; otherwise, the data is not shunted to the shunt node device.
  • a certain threshold for example, less than 10 data packets
  • the method for offloading data feds back the data packet reporting information received by the user equipment from the last feedback to the time when the number of received data packets reaches a certain preset number, thereby making the data
  • the transmitting device estimates the number of data packets to be transmitted buffered in the branching node device according to the total amount of data packets sent to the branching node device, and the data transmitting device determines whether it is necessary to continue to offload the data to the branching node device, thereby improving the branching node device. Transmission rate.
  • FIG. 3 is a schematic flowchart 3 of an embodiment of a data offloading method according to the present invention. As shown in FIG. 3, the method includes the following steps:
  • Step 301 Receive a second report indication message sent by the data sending apparatus, where the second report indication message is used to indicate that the offload node device sends the buffer status report information according to a preset period, or is used to indicate that the offload node device sends a preset every time.
  • the cache status report information is sent when the number of packets.
  • the offloading node device receives the second report indication message sent by the data sending device, where the second report indication message is used to indicate that the offloading node device feeds back the buffer status report information to the data sending device by using T, or the second report indication message It can also be used to instruct the branching node device to feed back the buffer status report information to the data sending device with a certain data threshold.
  • Step 302 Send the buffer status report information to the data offloading device according to the received second report indication message, where the buffer status report information carries the number of offloaded data packets to be sent buffered by the branching node device.
  • the buffer status report information includes the number of offloaded data packets to be sent, regardless of whether the branching node device sends the buffer status report information to the data transmitting device with a T period or a certain data threshold.
  • the buffer status report information further includes a historical rate of the offloaded data packet sent by the offloading node device, a number of the offloaded data packets to be sent by the single user equipment in the offloading node device, and the shunt node device sends the shunt data for the single user equipment.
  • Packet history rate a historical rate of the offloaded data packet sent by the offloading node device, a number of the offloaded data packets to be sent by the single user equipment in the offloading node device, and the shunt node device sends the shunt data for the single user equipment.
  • the embodiment of the present invention further provides a method for determining whether it is necessary to continue to give points.
  • the flow node device divides the data, and the method is specifically:
  • the data transmitting device is configured to the shunt node device by using the second reporting indication message.
  • the OBSR feedback period T, and an OBSR quantization table, wherein the second reporting indication message for configuring the parameter is not limited.
  • the shunt node device feeds back the shunt buffer status report OBSR information of the current shunt node device to the data transmitting device in a period of T.
  • the OBSR may include: the number of data packets waiting to be shunted in the buffer, the number of data packets that a single user equipment waits for offloading at the branching node device, the historical total rate of the shunt node device offload Rt, and the historical split rate of the shunt node device to a single user equipment!
  • the amount of data in the buffer is quantized.
  • the shunt history rates Rt and r can be estimated based on the number of packets successfully split by the shunt node device from the shunt node device over a period of time.
  • the data transmitting apparatus receives the OBSR information transmitted by the branching node device, and knows the number of packets waiting to be shunted in the buffer of the branching node device, and determines whether to offload to the branching node device based on the number of packets. For example, when the amount of data is less than a certain threshold, for example, less than 10 packets, the shunt node device is shunted; otherwise, the shunt node device is not shunted.
  • a certain threshold for example, less than 10 packets
  • the method for data offloading causes the data sending device to determine whether it is necessary to continue to offload data to the branching node device by using the shunting node device to feed back the number of data packets to be sent buffered in the buffer to the data transmitting device at a preset period.
  • the number of data packets to be sent buffered in the branching node device is greater than a certain preset value, the data is not sent to the branching node device, so that the data packets in the buffer device of the branching node device do not generate congestion or increase the data packet delay.
  • the large, even packet loss phenomenon affects the transmission rate of the branching node device to the user equipment.
  • the method for distributing data improves the transmission rate of the branching node device;
  • the data transmitting device continues to transmit data to the branching node device, so that the buffer of the branching node device is fully utilized, and on the other hand, the shunt is also improved.
  • the transmission rate of the node device improves the transmission rate of the node device.
  • the embodiment of the present invention further provides a method for determining whether it is necessary to continue to configure the offloading node to perform the offloading data.
  • the method is specifically:
  • the data transmitting apparatus configures, by the second reporting indication message, a data amount threshold [B1, B2] to the branching node device, and an OBSR quantization table, where the parameter is configured
  • the second report is not limited.
  • the shunt node feeds back the shunt buffer status report OBSR information of the current shunt node device to the data transmitting device.
  • the OBSR information may include: the number of data packets waiting to be offloaded in the buffer, the number of data packets that a single user equipment waits for offloading at the branching node device, the historical total rate Rt of the offloading node device offload, and the historical shunt of the branching node device to a single user equipment.
  • Rate r To reduce the size of the OBSR, the amount of data in the buffer is quantized. The shunt history rates Rt and r can be estimated based on the amount of data that the shunt node device successfully shunts from the shunt node device over a period of time.
  • the data transmitting apparatus receives the buffer status report OBSR information transmitted by the branching node device, and obtains the number of pieces of data packets waiting to be shunted in the buffer of the branching node device, and determines whether to offload to the branching node device based on the number of pieces of data. For example, when the number of data packets is less than a certain threshold, for example, less than 10 data packets, the traffic is shunted to the shunt node device; otherwise, the data is not shunted to the shunt node device.
  • a certain threshold for example, less than 10 data packets
  • the method for offloading data feds back the number of data packets to be sent to the data sending device by the branching node device from the last feedback until the number of data packets to be sent buffered in the buffer reaches a certain preset number.
  • the information so that the data transmitting device determines whether it is necessary to continue to offload the data to the branching node device, thereby increasing the transmission rate of the branching node device.
  • the aforementioned program can be stored in a computer readable storage medium.
  • the program when executed, performs the steps including the above method embodiments; and the foregoing storage medium includes: a medium that can store program codes, such as a ROM, a RAM, a magnetic disk, or an optical disk.
  • FIG. 4 is a schematic structural diagram of an embodiment of a data transmitting apparatus according to the present invention.
  • the apparatus is configured to perform the method of the embodiment shown in FIG. The details of the description are not described here.
  • the device includes a first obtaining module 11 and a shunting control module 12, wherein the first obtaining module 11 is configured to acquire the number of offloaded data packets to be sent buffered in the shunting node device; and the shunting control module 12 is configured to Sending to the branching node device when the number of the sent offloaded data packets is less than the first threshold The data is shunted, otherwise, the shunt data is not sent to the shunt node device.
  • the data sending device can determine whether it is necessary to continue to offload the data to the branching node device through the offloading control module 12. When the number of the offloaded data packets to be sent is less than the first threshold, the data transmitting device continues to offload the data to the offloading node device. When the number of the offloaded data packets to be transmitted is greater than the first threshold, the data transmitting device stops offloading the data to the offloading node device.
  • the first obtaining module 11 included in the data sending apparatus provided by the embodiment of the present invention includes a first receiving unit and a first acquiring unit, or the first acquiring module 1 1 includes a second receiving unit and a second acquiring unit.
  • the first receiving unit is configured to receive the offloaded data packet report information sent by the user equipment, where the offloaded data packet report is The information includes a distribution node identifier, and an identifier of the data packet received by the user equipment from the distribution node device or an identifier of a last data packet received from the distribution node device; the first obtaining unit is configured to be offloaded according to the And obtaining, in the branching node device, the packet information of the branching node device, and the identifier list of the data packet received by the user equipment from the branching node device or the identifier of the last data packet received from the branching node device The number of cached offloaded packets to be sent.
  • the first receiving unit of the data sending apparatus estimates the number of the offloaded data packets to be sent buffered in the branching node device according to the data packet information sent to the branching node device.
  • the offloaded data packet report information includes a split node identifier, and an identifier of the data packet received by the user equipment from the offload node device or an identifier of a last data packet received from the offload node device.
  • the data sending apparatus further includes a first sending module, where the first sending module is configured to send a first reporting indication message to the user equipment, where the first reporting indication message is used to indicate that the user equipment sends according to a preset period.
  • the offloaded data packet report information is used to indicate that the user equipment sends the offloaded data packet report information every time a preset number of data packets are received.
  • the data sending apparatus includes, in addition to the first acquiring module 11 and the offloading control module 12, a first sending module, where the first sending module is configured to send a first reporting indication message to the user equipment, where the A reporting indication message is used to indicate that the user equipment is cycled by T And the first report indication message is further used to indicate that the user equipment feeds back the user to the data sending device by using a preset threshold value to the data sending device.
  • the offloaded packet report information received by the device from the current offload node device.
  • the second receiving unit is configured to receive the buffer status report information sent by the branching node device; Obtaining, from the cache status report information, the number of offloaded data packets to be sent buffered by the branching node device.
  • the data transmitting device estimates the device at the branching node according to the data packet information sent to the branching node device.
  • the first acquiring module of the data sending device further includes a second sending module, where the second sending module is configured to send a second reporting indication message to the switching node device, where the second reporting indication message is used to indicate the offloading
  • the node device sends the buffer status report information according to the preset period, or is used to instruct the branch node device to send the buffer status report information every time a preset number of data packets are sent.
  • the data sending apparatus includes, in addition to the first acquiring module 1 1 and the offloading control module 12, a second sending module, where the second sending module is configured to send a second reporting indication message to the branching node device.
  • the second report indication message is used to indicate that the offload node device feeds back the buffer status report information of the current branch node device to the data sending device by using the T period, where the buffer status report information is used to record the data to be sent buffered in the current branch node device.
  • the packet information may be used to indicate that the branching node device feeds back the buffer status report information of the current branching node device to the data transmitting device by using a preset threshold value, where the buffer status report information is used.
  • FIG. 5 is a schematic structural diagram of an embodiment of a user equipment apparatus according to the present invention.
  • the device includes a first receiving module 21 and a third sending module 22, where the first receiving module 21 is configured to receive a first reporting indication message sent by the data sending apparatus, where the first reporting indication message is used.
  • the third sending module 22 is configured to receive The first report indication message is sent to the data transmitting device to send offloaded packet report information, the offloaded data packet report information includes a offload node identifier, and a list of identifiers of the data packets received by the user equipment from the offload node device or from the The identifier of the last data packet received by the branching node device.
  • the user equipment of the embodiment of the present invention includes a first receiving module 21 and a third sending module 22.
  • the first receiving module 21 of the user equipment first receives the first reporting indication message sent by the data sending device, and then receives the The first report indication message sends the offloaded packet report information to the data transmitting device.
  • the first report indication message is used to indicate that the user equipment feeds back the data packet received from the current offload node device to the data sending device in a period of T, or the first report indication message is further used to indicate that the user equipment uses a certain preset.
  • the offloaded data packet report information includes a distribution node identifier, and a list of identifiers that the user equipment receives the data packet from the distribution node device or from the An identifier of a last data packet received by the sink node device, and a historical rate of receiving the offloaded data packet from the offload node device.
  • FIG. 6 is a schematic structural diagram of an embodiment of a shunt node device according to the present invention.
  • the shunt node device is configured to perform the method as shown in FIG. The details that have been described in the examples are not described here.
  • the device includes a second receiving module 31 and a fourth sending module 32, wherein the second receiving module 31 is configured to receive a second reporting indication message sent by the data sending device, where the second reporting indication message is used.
  • the fourth sending module 32 is configured to receive the The second report indication message sends the buffer status report information to the data offloading device, where the cache status report information carries the buffer cached by the branch node device. The number of offloaded packets to be sent.
  • the branching node device of the embodiment of the present invention includes a second receiving module 31 and a fourth sending module 32.
  • the first receiving module 31 of the streaming node device first receives the second reporting indication message sent by the data sending device, and then according to the The received second report indication message sends the cache status report information to the data transmitting device.
  • the second report indication message is used to indicate that the offloading node device feeds back to the data sending device the number of to-be-sent offloaded data packets buffered in the current shunt node device in a period of T, or the second report indication message is further used to indicate that the shunt node device
  • the preset value is fed back to the data sending device, and the number of the offloaded data packets to be sent in the current splitting node device is fed back to the data sending device.
  • the buffering state report information carries the number of the offloaded data packets to be sent and buffered in the switching node device, and may also carry the splitting node device.
  • the data transmitting apparatus in the embodiment of the present invention may be an LTE eNB or another type of base station.
  • the splitting node device in the embodiment of the present invention may be a wired offload node device or a wireless offload node device.
  • the types of interfaces between the offloading node device and the user equipment provided by the embodiments of the present invention include, but are not limited to, WiFi, LTE D2D, and LTE-Hi.

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Abstract

本发明实施例涉及一种数据分流方法、数据发送装置以及分流节点装置,本发明实施例提供的数据分流方法包括:获取分流节点装置中缓存的待发送分流数据包数量;在所述待发送分流数据包数量小于第一阈值时,向所述分流节点装置发送分流数据,否则,不向所述分流节点装置发送分流数据。本发明实施例提供的数据分流方法能够使数据发送装置为分流节点装置提供一个合适的分流数据速率。

Description

数据分流方法, 数据发送装置以及分流节点装置 技术领域
本发明涉及无线通信技术, 尤其涉及一种数据分流方法, 数据发送装 置以及分流节点装置。
背景技术
随着移动网络流量的猛增, 为了更好的利用无线信道资源, 网络中的 数据发送装置会通过将下行数据分流的方式, 一部分下行数据直接发送给 目标设备, 另一部分数据通过分流节点装置发送给目标设备。 例如长期演 进( long term evolution; 以下简称: LTE ) 网络可通过将部分下行数据分 流到其他异频无线网络中,如无线宽带( wireless fidelity,以下简称: WiFi ) , 异频 LTE网络等。
具体的, 在 LTE 网络中, LTE基站将其下行数据的一部分直接通过
LTE空口传输到目标用户设备( User Equipment, 以下简称: UE ) , 另一 部分数据分流到无线宽带接入点 ( wireless fidelity Access Point,以下简称: WiFi AP ) , 并通过 WiFi空口传输到目标 UE, 或者通过 LTE空口将下行 数据分流到支撑用户设备 ( Supporting User Equipment , 以下简称 Supporting UE ) , 然后通过 WiFi或者其他空口传输到目标 UE, 最终在目 标 UE端将这两部分分流的数据进行合并;在长期演进的宏基站( long term evolution Macro以下简称: LTE Macro ) 网络中, LTE Macro将其下行数 据的一部分直接通过 LTE Macro空口传输到目标 UE, 另一部分分流到长 期演进的 ί基站 ( long term evolution Pico , 以下简称: LTE Pico ) , 并通 过 LTE Pico空口传输到目标 UE, 在目标 UE端将这两部分分流的数据进 行合并。
在实现本发明实施例的过程中, 发明人发现在这种分流架构中, 数据 发送装置存在如何决定分流到分流节点装置的数据速率问题, 如果分流速 率大于分流节点装置到目标 UE的传输速率, 会导致数据包在分流节点装 置的拥塞, 从而导致数据包延时增大, 甚至丟包; 反之, 如果分流速率小 于分流节点装置到目标 UE的传输速率,会导致分流节点装置资源的浪费。 依据现有技术, 数据发送装置无法为分流节点装置提供合适的分流数据速 率。 发明内容 本发明实施例提供一种数据分流方法、 数据发送装置以及分流节点装 置, 应用本发明实施例的数据分流方法可以为分流节点装置提供一个合适 的分流数据速率。
本发明实施例的一个方面提供一种数据分流方法, 包括:
获取分流节点装置中緩存的待发送分流数据包数量;
在所述待发送分流数据包数量小于第一阈值时, 向所述分流节点装置 发送分流数据。
一方面, 所述获取分流节点装置中緩存的待发送分流数据包数量的方 法包括:
接收用户设备发送的分流数据包报告信息, 所述分流数据包报告信息 包括分流节点标识, 以及用户设备从所述分流节点装置接收到数据包的标 识列表或从所述分流节点装置接收到的最后一个数据包的标识;
根据已分流给所述分流节点装置的数据包信息, 以及所述用户设备从 所述分流节点装置接收到数据包的标识列表或从所述分流节点装置接收 到的最后一个数据包的标识获取分流节点装置中緩存的待发送分流数据 包数量。
进一步地, 所述接收用户设备发送的分流数据包报告信息之前还包 括:
向用户设备发送第一汇报指示消息, 所述第一汇报指示消息用于指示 用户设备根据预设周期发送分流数据包报告信息, 或用于指示用户设备每 接收到预设数目的数据包时发送分流数据包报告信息。
进一步地, 所述分流数据包报告信息中还包括有用户设备从所述分流 节点装置接收分流数据包的历史速率。
另一方面, 所述获取分流节点装置中緩存的待发送分流数据包数量的 方法包括: 接收分流节点装置发送的緩存状态报告信息, 从所述緩存状态报告信 息中获取分流节点装置中緩存的待发送分流数据包数量。
进一步, 所述接收分流节点装置发送的緩存状态报告信息之前还包 括: 向分流节点装置发送第二汇报指示消息, 所述第二汇报指示消息用于 指示分流节点装置根据预设周期发送緩存状态报告信息, 或用于指示分流 节点装置每发送预设数目的数据包时发送緩存状态报告信息。
进一步, 所述緩存状态报告信息中还包括有分流节点装置发送分流数 据包的历史速率、 单个用户设备在分流节点装置中緩存的待发送分流数据 包数量, 分流节点装置为单个用户设备发送分流数据包的历史速率。
进一步, 如上所述的数据分流方法, 在所述待发送分流数据包数量大 于或等于第一阈值时, 不向所述分流节点装置发送分流数据。
本发明实施例的一个方面提供另一种数据分流方法, 包括: 接收数据发送装置发送的第一汇报指示消息, 所述第一汇报指示消息 用于指示用户设备根据预设周期发送分流数据包报告信息, 或用于指示用 户设备每在接收到预设数目的数据包时发送分流数据包报告信息;
根据预设周期向数据发送装置发送分流数据包报告信息, 或每在接收 到预设数目的数据包时向数据发送装置发送分流数据包报告信息, 所述分 流数据包报告信息包括分流节点标识, 以及用户设备从所述分流节点装置 接收到数据包的标识列表或从所述分流节点装置接收到的最后一个数据 包的标识。
进一步, 所述分流数据包报告信息中还包括有用户设备从所述分流节 点装置接收分流数据包的历史速率。
本发明实施例的另一个方面提供再一种数据分流方法, 包括: 接收数据发送装置发送的第二汇报指示消息, 所述第二汇报指示消息 用于指示分流节点装置根据预设周期发送緩存状态报告信息, 或用于指示 分流节点装置每在发送预设数目的数据包时发送緩存状态报告信息; 根据预设周期向数据分流装置发送緩存状态报告信息, 或每在发送预 设数目的数据包时向数据分流装置发送緩存状态报告信息, 所述緩存状态 报告信息中携带有分流节点装置中緩存的待发送分流数据包数量。
进一步, 所述緩存状态报告信息中还包括有分流节点装置发送分流数 据包的历史速率、 单个用户设备在分流节点装置中緩存的待发送分流数据 包数量, 分流节点装置为单个用户设备发送分流数据包的历史速率。
本发明提供的数据分流方法, 通过获取分流节点装置中緩存的待发送 数据包信息来确定是否需要向分流节点装置发送数据, 当分流节点装置中 緩存的待发送分流数据信息小于某个预设值时, 说明分流节点装置的 buf fer有较大的空间, 从而可以接收更多的数据发送给用户设备,从另一 方面来说, 也提高了分流节点装置到用户设备的传输速率; 当分流节点装 置中緩存的待发送分流数据信息大于某个预设值时, 说明分流节点装置的 buf fer 繁忙为了避免致数据包在分流节点装置因为拥塞而导致数据包延 时增大, 甚至丟包的现象, 数据发送装置不再像分流节点装置发送数据。
本发明实施例的另一个方面提供一种数据发送装置, 包括:
第一获取模块, 用于获取分流节点装置中緩存的待发送分流数据包数 量;
分流控制模块, 用于在所述待发送分流数据包数量小于第一阈值时, 向所述分流节点装置发送分流数据, 否则, 不向所述分流节点装置发送分 流数据。
一方面, 所述第一获取模块包括:
第一接收单元, 用于接收用户设备发送的分流数据包报告信息, 所述 分流数据包报告信息包括分流节点标识, 以及用户设备从所述分流节点装 置接收到数据包的标识列表或从所述分流节点装置接收到的最后一个数 据包的标识;
第一获取单元, 用于根据已分流给所述分流节点装置的数据包信息, 以及所述用户设备从所述分流节点装置接收到数据包的标识列表或从所 述分流节点装置接收到的最后一个数据包的标识获取分流节点装置中緩 存的待发送分流数据包数量。
进一步, 所述数据发送装置还包括:
第一发送模块, 用于向用户设备发送第一汇报指示消息, 所述第一汇 报指示消息用于指示用户设备根据预设周期发送分流数据包报告信息, 或 用于指示用户设备每接收到预设数目的数据包时发送分流数据包报告信 息。 另一方面, 所述第一获取模块包括:
第二接收单元, 用于接收分流节点装置发送的緩存状态报告信息; 第二获取单元, 用于从所述緩存状态报告信息中获取分流节点装置中 緩存的待发送分流数据包数量。
进一步, 所述数据发送装置还包括:
第二发送模块, 用于向分流节点装置发送第二汇报指示消息, 所述第 二汇报指示消息用于指示分流节点装置根据预设周期发送緩存状态报告 信息, 或用于指示分流节点装置每发送预设数目的数据包时发送緩存状态 报告信息。
如上所述的数据发送装置, 所述分流控制模块还用于在所述待发送分 流数据包数量大于或等于第一阀值时, 不向分流节点装置发送分流数据。
本发明实施例提供的数据发送装置通过获取分流节点装置中緩存的 待发送数据包数量而确定是否需要继续向分流节点装置分流, 从而提高了 分流节点装置的传输速率, 使分流节点装置中的 buf fer得到了充分的利 用。
本发明的再一个方法是提供一种用户设备, 包括:
第一接收模块, 用于接收数据发送装置发送的第一汇报指示消息, 所 述第一汇报指示消息用于指示用户设备根据预设周期发送分流数据包报 告信息, 或用于指示用户设备每在接收到预设数目的数据包时发送分流数 据包报告信息;
第三发送模块, 用于根据预设周期向数据发送装置发送分流数据包报 告信息, 或每在接收到预设数目的数据包时向数据发送装置发送分流数据 包报告信息, 所述分流数据包报告信息包括分流节点标识, 以及用户设备 从所述分流节点装置接收到数据包的标识列表或从所述分流节点装置接 收到的最后一个数据包的标识。
本发明实施例提供的用户设备通过向数据发送装置报告其从分流节 点装置接收到的数据包数量来使数据发送装置估计出分流节点装置中緩 存的待发送数据包数量, 从而可以提高分流节点装置到用户设备的传输速 率。
本发明的还一个方法是提供一种分流节点装置, 包括: 第二接收模块接收数据发送装置发送的第二汇报指示消息, 所述第二 汇报指示消息用于指示分流节点装置根据预设周期发送緩存状态报告信 息, 或用于指示分流节点装置每在发送预设数目的数据包时发送緩存状态 报告信息;
第四发送模块, 用于根据预设周期向数据分流装置发送緩存状态报告 信息, 或每在发送预设数目的数据包时向数据分流装置发送緩存状态报告 信息, 所述緩存状态报告信息中携带有分流节点装置中緩存的待发送分流 数据包数量
本发明实施例提供的分流节点装置通过向数据发送装置报告其 buf fer 中緩存的待发送数据包数量来使数据发送装置确定是否继续向分 流节点装置分流数据, 从而可以提高分流节点装置到用户设备的传输速 率, 保证分流节点装置中緩存的数据包避免发生时延, 还可以保证分流节 点装置频谱资源的有效利用。 附图说明
实施例或现有技术描述中所需要使用的附图作一简单地介绍, 显而易见 地, 下面描述中的附图是本发明的一些实施例, 对于本领域普通技术人员 来讲, 在不付出创造性劳动性的前提下, 还可以根据这些附图获得其他的 附图。
图 1为本发明数据分流方法的实施例的流程示意图一;
图 2为本发明数据分流方法的实施例的流程示意图二;
图 3为本发明数据分流方法的实施例的流程示意图三;
图 4为本发明数据发送装置的实施例的结构示意图;
图 5为本发明用户设备装置的实施例的结构示意图;
图 6为本发明分流节点装置的实施例的结构示意图。 具体实施方式 下面将结合本发明实施例中的附图, 对本发明实施例中的技术方案进 行清楚、 完整地描述,显然, 所描述的实施例仅仅是本发明一部分实施例, 而不是全部的实施例。 基于本发明中的实施例, 本领域普通技术人员在没 有做出创造性劳动前提下所获得的所有其他实施例, 都属于本发明保护的 范围。
本发明实施例提供一种数据分流方法, 图 1为本发明数据分流方法的 实施例的流程示意图一, 如图 1所示, 该方法包括以下步骤:
步骤 101 : 获取分流节点装置中緩存的待发送分流数据包数量。
理论上说, 在相同时间内基站等数据发送装置发送给分流节点装置的 分流数据包数量与用户设备从分流节点装置接收的分流数据包数量应该 是相同的, 即基站到分流节点装置的传输速率与分流节点装置到用户设备 的传输速率应该是相同的, 但是, 在实际的传输过程中, 分流节点装置接 收的分流数据包会首先暂存在分流节点装置上的 buffer中, 然后从 buffer 中取出数据包信息并发送给用户设备, 在这个緩存的过程中, 如果分流节 点装置中緩存的待发送分流数据包数量过大或者过小, 都会影响分流节点 装置到用户设备的传输速率, 因此, 必须首先获取分流节点装置中緩存的 待发送分流数据包数量, 根据分流节点装置中緩存的待发送分流数据包数 量确定数据发送装置是否继续要向分流节点装置发送数据包信息。
本发明实施例主要通过数据发送装置估计分流节点装置上分流 buffer 中数据量大小来确定传输速率, 因为分流节点装置到目标 UE的链路的拥 塞或者空闲体现在分流节点装置的 buffer中等待分流的数据量大小。
步骤 102: 判断所述待发送分流数据包数量是否小于第一阈值, 若小 于所述第一阈值, 则向所述分流节点装置发送分流数据。
如果分流节点装置中待发送分流数据包数量小于所述第一阈值时, 说 明分流节点装置 buffer中等待分流的数据量较小 , 分流节点装置的存储资 源具有较大的闲置空间, 那么数据发送装置就继续给分流节点装置分流数 据包信息, 以使分流节点装置的緩存资源能够被有效的利用, 从另一方面 来说, 也提高了分流节点装置到用户设备的传输速率。 反之, 当分流节点 装置中待发送分流数据包数量大于或等于所述第一阈值时, 说明分流节点 装置 buffer中等待分流的数据量太大, 会产生延时或者丟包的现象, 从另 一方面来说会降低分流节点装置到用户设备的传输速率, 此时, 数据发送 装置就不再向此分流节点装置继续发送数据了。 本发明实施例提供了包括至少两种获取所述分流节点装置中緩存的 待发送分流数据包数量的方法, 其中一种方法具体为:
数据发送装置接收用户设备发送的分流数据包报告信息, 然后根据已 分流给所述分流节点装置的数据包信息, 以及所述用户设备从所述分流节 点装置接收到数据包信息来获取分流节点装置中緩存的待发送分流数据 包数量, 其中, 所述分流数据包报告信息包括分流节点标识, 以及用户设 备从所述分流节点装置接收到数据包的标识列表或从所述分流节点装置 接收到的最后一个数据包的标识。
具体地, 数据发送装置根据发送给分流节点装置的数据包数量和从用 户设备接收到的分流数据包报告信息便可估计出分流节点装置中緩存的 待发送数据包数量了, 其中分流数据包报告信息包括分流节点标识, 以及 用户设备从所述分流节点装置接收到数据包的标识列表或从所述分流节 点装置接收到的最后一个数据包的标识。 其中, 分流节点标识可以是分流 节点装置的 MAC地址、 IP地址或者其他标识。 数据包的标识列表可以是 TCP, IP层序列号或者其他标识。
进一步地, 在接收用户设备发送的分流数据包报告信息之前, 向用户 设备发送第一汇报指示消息, 所述第一汇报指示消息用于指示用户设备根 据预设周期发送分流数据包报告信息, 或用于指示用户设备每接收到预设 数目的数据包时发送分流数据包报告信息。
具体地, 在用户设备向数据发送装置发送分流数据包报告信息之前, 数据发送装置先向用户发送第一汇报指示消息, 所述第一汇报指示消息用 于指示用户设备以 T 为周期向数据发送装置反馈其从当前分流节点装置 接收的数据包信息; 或者所述第一汇报指示消息还可用于指示用户设备当 其从分流节点装置接收到的数据包信息数量超过某个预设值时, 用户设备 向数据发送装置反馈其接收的分流数据包信息。
进一步, 所述分流数据包报告信息中还包括有用户设备从所述分流节 点装置接收分流数据包的历史速率。
具体地, 在数据发送装置接收用户设备发送的分流数据包报告信息中 除了包括分流节点标识, 以及用户设备从所述分流节点装置接收到数据包 的标识列表或从所述分流节点装置接收到的最后一个数据包的标识以外, 还包括历史速率, 所述历史速率可根据用户设备在单位时间内从分流节点 装置接收的数据量得到。
本发明实施例提供的分流节点装置接收分流数据包的历史速率用于 给数据发送装置提供一个参考, 数据发送装置根据该历史速率的大小可估 计是否需要向分流节点装置继续分流数据。
本发明实施例还提供了另外一种获取所述获取分流节点装置中緩存 的待发送分流数据包数量的方法, 该方法具体为:
接收分流节点装置发送的緩存状态报告信息, 所述緩存状态报告信息 中包括分流节点装置中緩存的待发送分流数据包数量。
具体地, 数据发送装置接收分流节点装置发送的緩存状态报告信息, 该緩存状态报告信息包括分流节点装置中緩存的待发送分流数据包数量, 由此, 发数据送装置便可直接获取分流节点装置中緩存的待发送分流数据 包数量了, 从而, 数据发送装置可根据接收的緩存状态报告信息决定是否 需要继续向分流几点发送数据了。
进一步地, 在数据发送装置接收分流节点装置发送的緩存状态报告信 息之前, 数据发送装置还向分流节点装置发送第二汇报指示消息, 所述第 二汇报指示消息用于指示分流节点装置根据预设周期发送緩存状态报告 信息, 或用于指示分流节点装置每发送预设数目的数据包时发送緩存状态 报告信息。
具体地, 数据发送装置先向分流节点装置发送第二汇报指示消息, 分 流节点装置根据接收的第二汇报指示消息再向数据发送装置发送緩存状 态报告信息。 其中, 第二汇报指示消息用于指示分流节点装置以 T为周期 向数据发送緩存状态报告信息, 该緩存状态报告信息显示当前分流节点装 置发送给用户设备的分流数据包数量; 或者第二汇报指示消息还可用于指 示分流节点装置每发送预设数目的数据包时发送緩存状态报告信息, 具体 地说, 数据发送装置指示分流节点装置当分流节点装置中緩存的待发送的 数据包数量小于某个预设值时, 数据发送装置就继续向分流节点装置分 流, 即继续发送数据包给分流节点装置, 当分流节点装置中緩存的待发送 的数据包数量大于某个预设值时, 数据发送装置就停止向分流节点装置分 流, 即停止发送数据包给分流节点装置。 进一步, 数据发送装置接收分流节点装置发送的緩存状态报告信息中 还包括有分流节点装置发送分流数据包的历史速率、 单个用户设备在分流 节点装置中緩存的待发送分流数据包数量, 分流节点装置为单个用户设备 发送分流数据包的历史速率。
具体地, 数据发送装置接收分流节点装置发送的緩存状态报告信息中 除了包括分流节点装置中緩存的待发送分流数据包数量外, 还包括分流节 点装置发送分流数据包的历史速率、 单个用户设备在分流节点装置中緩存 的待发送分流数据包数量, 分流节点装置为单个用户设备发送分流数据包 的历史速率。
本发明实施例提供的分流节点装置发送分流数据包的历史速率、 单个 用户设备在分流节点装置中緩存的待发送分流数据包数量、 分流节点装置 为单个用户设备发送分流数据包的历史速率可以用作数据发送装置是否 需要向该分流节点装置继续发送数据的一个参考参数; 数据发送装置根据 所述分流节点装置发送分流数据包的历史速率可以估计出是否需要向分 流节点装置继续分流数据; 数据发送装置还可以根据所述单个用户设备在 分流节点装置中緩存的待发送分流数据包数量估计是否需要将该单个用 户设备的数据包信息发送给其它的分流节点装置、 让其它的分流节点装置 发送给该单个用户设备; 或者数据发送装置也可以根据所述分流节点装置 为单个用户设备发送分流数据包的历史速率估计是否需要将数据分流给 其它的分流节点装置、 让其它的分流节点装置将数据发送给该单个用户设 备。
本发明实施例提供一种数据分流方法, 图 2为本发明数据分流方法的 实施例的流程示意图二, 如图 2所示, 该方法包括以下步骤:
步骤 201 : 用户设备接收数据发送装置发送的第一汇报指示消息, 所 述第一汇报指示消息用于指示用户设备根据预设周期发送分流数据包报 告信息, 或用于指示用户设备每在接收到预设数目的数据包时发送分流数 据包报告信息。
具体地, 用户设备接收数据发送装置发送的第一汇报指示消息, 该第 一汇报指示消息用于指示用户设备以 T 为周期向数据发送装置反馈分流 数据包报告信息, 或者第一汇报指示消息还可用于指示用户设备以某个预 设门限向数据发送装置反馈分流数据包报告信息。
步骤 202: 用户根据接收的所述第一汇报指示消息向数据发送装置发 送分流数据包报告信息, 所述分流数据包报告信息包括分流节点标识, 以 及用户设备从所述分流节点装置接收到数据包的标识列表或从所述分流 节点装置接收到的最后一个数据包的标识。
具体地,无论用户设备以 T为周期还是以某个预设的门限向数据发送 装置发送分流数据包报告信息, 该分流数据包报告信息均包括分流节点标 识, 以及用户设备从所述分流节点装置接收到数据包的标识列表或从所述 分流节点装置接收到的最后一个数据包的标识。 其中, 分流节点标识可以 是分流节点装置的 MAC地址、 IP地址或者其他标识。 数据包的标识列表 可以是 TCP、 IP层序列号或者其他标识。
进一步, 所述分流数据包报告信息中还包括有用户设备从所述分流节 点装置接收分流数据包的历史速率
综上所述, 为了确定数据发送装置是否需要继续给分流节点装置分流 数据, 本发明实施例可通过如下的方法确定:
首先, 数据发送装置通过第一汇报指示消息配置用户设备一个 OPRR 的反馈周期 T,其中用于配置该参数的第一汇报指示消息的具体类型不限。
其次,用户设备以 T为周期向数据发送装置反馈从分流节点装置接收 到的分流数据包报告 OPRR信息。 该 OPRR信息中可以包括: 分流节点标 识、 接收到的数据包的标识列表或者接收到的最后一个数据包的标识 ID、 从该分流节点装置接收到的历史数据速率值 R。 分流节点标识可以是分流 节点装置的 MAC地址、 IP地址或者其他标识。数据包的标识可以是 TCP、 IP层序列号或者其他标识。历史数据速率值 R可以根据 UE—段时间内从 该分流节点装置接收的数据量估计得到。
再其次,数据发送装置根据该 OPRR中包含数据包信息和其分流到分 流节点装置的数据包信息, 能够估计出分流节点装置的 buffer中等待分流 的数据包数量。 例如如果数据发送装置已经向分流节点装置分流了 100个 数据包, 而根据用户设备上报的 OPRR信息, 用户设备从分流节点装置接 收到了 40个数据包, 那么数据发送装置可以估计出分流节点装置还有 60 个数据包等待传输。 数据发送装置可以根据该估计出 buffer中緩存的数据 包数量信息决定是否向分流节点装置分流。 如: 当数据包数量小于某门限 时, 例如小于 10个数据包时, 就向分流节点装置分流; 否则, 不向分流 节点装置分流数据。
本发明实施例提供的数据分流方法, 通过用户设备以预设周期向数据 发送装置反馈从分流节点装置接收到的数据包信息来确定数据发送装置 是否需要继续向分流节点装置分流数据, 当分流节点装置中緩存的待发送 数据包数量大于某个预设值时, 就不再向分流节点装置发送数据, 由此分 流节点装置 buffer中的数据包不会产生拥塞或者数据包延时增大, 甚至丟 包的现象而导致影响分流节点装置到用户设备的传输速率, 从另外一方面 来说, 本发明实施例提供的分流数据方法提高了分流节点装置的传输速 率; 当分流节点装置中緩存的待发送数据包数量小于某个预设值时, 数据 发送装置继续向分流节点装置发送数据, 使的分流节点装置的 buffer得到 了充分的利用, 从另一方面来讲, 也提高了分流节点装置的传输速率。
本发明实施例再提供一种方法来确定是否需要继续给分流节点装置 分流数据, 该方法具体为:
首先, 数据发送装置通过第一汇报指示消息配置用户设备一个 OPRR 的反馈门限 N, 其中, 用于配置该参数的第一汇报指示消息不限。
其次, 从上次反馈开始, 当用户设备从分流节点装置接收到的数据包 个数累积超过 N, 用户设备则向数据发送装置反馈从分流节点装置接收到 的数据包报告 OPRR信息。 该 OPRR信息中可以包括: 分流节点标识、 接 收到的数据包的标识列表或者接收到的最后一个数据包的标识 ID、从该分 流节点装置接收到的历史数据速率值 R。 分流节点标识可以是分流节点装 置的 MAC地址、 IP地址或者其他标识。 数据包的标识可以是 TCP、 IP层 序列号或者其他标识。历史数据速率值 R可以根据用户设备一段时间内从 该分流节点装置接收的数据量估计得到。
再其次,数据发送装置根据该 OPRR中包含数据包信息和其分流到分 流节点装置的数据包信息, 能够估计出分流节点装置的 buffer中等待分流 的数据包数量。 例如如果数据发送装置已经向分流节点装置分流了 100个 数据包, 而根据用户设备上报的 OPRR信息, 用户设备从分流节点装置接 收到了 40个数据包, 那么数据发送装置可以估计出分流节点装置还有 60 个数据包等待传输。 数据发送装置可以根据该估计的 buffer中緩存的数据 包数量信息决定是否向分流节点装置分流。 如: 当数据包数量小于某门限 时, 例如小于 10个数据包时, 就向分流节点装置分流; 否则, 不向分流 节点装置分流数据。
本发明实施例提供的分流数据的方法, 通过用户设备从上次反馈开始 到接收的数据包数量达到某一个预设数目时向数据发送装置反馈其接收 到的分流数据包报告信息, 从而使数据发送装置根据其发送给分流节点装 置的数据包总量估计出分流节点装置中緩存的待发送数据包数量, 由此数 据发送装置决定是否需要继续给分流节点装置分流数据, 从而提高了分流 节点装置的传输速率。
本发明实施例提供一种数据分流方法, 图 3为本发明数据分流方法的 实施例的流程示意图三, 如图 3所示, 该方法包括以下步骤:
步骤 301 : 接收数据发送装置发送的第二汇报指示消息, 所述第二汇 报指示消息用于指示分流节点装置根据预设周期发送緩存状态报告信息, 或用于指示分流节点装置每在发送预设数目的数据包时发送緩存状态报 告信息。
具体地, 分流节点装置接收数据发送装置发送的第二汇报指示消息, 该第二汇报指示消息用于指示分流节点装置以 T 为周期向数据发送装置 反馈緩存状态报告信息, 或者第二汇报指示消息还可用于指示分流节点装 置以某个数据门限向数据发送装置反馈緩存状态报告信息。
步骤 302: 根据接收的所述第二汇报指示消息向数据分流装置发送緩 存状态报告信息, 所述緩存状态报告信息中携带有分流节点装置中緩存的 待发送分流数据包数量。
具体地,无论分流节点装置以 T为周期还是以某个数据门限向数据发 送装置发送緩存状态报告信息, 该緩存状态报告信息均包括待发送分流数 据包数量。
进一步, 所述緩存状态报告信息中还包括有分流节点装置发送分流数 据包的历史速率、 单个用户设备在分流节点装置中緩存的待发送分流数据 包数量, 分流节点装置为单个用户设备发送分流数据包的历史速率
综上所述, 本发明实施例又提供了一种方法来确定是否需要继续给分 流节点装置分流数据, 该方法具体为:
首先, 数据发送装置通过第二汇报指示消息配置给分流节点装置一个
OBSR反馈周期 T, 以及一个 OBSR量化表, 其中, 用于配置该参数的第 二汇报指示消息不限。
其次,分流节点装置以 T为周期向数据发送装置反馈当前分流节点装 置的分流 buffer状态 艮告 OBSR信息。 OBSR中可包含: buffer中等待分 流的数据包数量、 单个用户设备在分流节点装置等待分流的数据包数量、 分流节点装置分流的历史总速率 Rt、分流节点装置到单个用户设备的历史 分流速率!"。 为降低 OBSR大小, 反馈的 buffer中数据量大小经过量化。 分流历史速率 Rt和 r可以根据分流节点装置一段时间内从该分流节点装置 成功分流的数据包数量估计得到。
再其次, 数据发送装置接收分流节点装置发送的 OBSR信息, 并获知 分流节点装置的 buffer中等待分流的数据包数量信息, 根据该数据包数量 信息决定是否向分流节点装置分流。 如: 当数据量小于某门限时, 例如小 于 10个数据包时, 就向分流节点装置分流; 否则, 不向分流节点装置分 流数据。
本发明实施例提供的数据分流的方法, 通过分流节点装置以预设周期 向数据发送装置反馈其 buffer中緩存的待发送数据包数量来使数据发送装 置确定是否需要继续向分流节点装置分流数据, 当分流节点装置中緩存的 待发送数据包数量大于某个预设值时, 就不再向分流节点装置发送数据, 由此分流节点装置 buffer中的数据包不会产生拥塞或者数据包延时增大, 甚至丟包的现象而导致影响分流节点装置到用户设备的传输速率, 从另外 一方面来说, 本发明实施例提供的分流数据方法提高了分流节点装置的传 输速率; 当分流节点装置中緩存的待发送数据包数量小于某个预设值时, 数据发送装置继续向分流节点装置发送数据, 使的分流节点装置的 buffer 得到了充分的利用,从另一方面来讲,也提高了分流节点装置的传输速率。
本发明实施例还提供了一种方法来确定是否需要继续给分流节点装 置分流数据, 该方法具体为:
首先, 数据发送装置通过第二汇报指示消息配置给分流节点装置一个 数据量门限 [B1,B2] , 以及一个 OBSR量化表, 其中用于配置该参数的第 二汇报指示消息不限。
其次, 当分流节点装置的分流 buffer中緩存的数据包数量小于 B1或 者大于 B2 时, 则分流节向数据发送装置反馈当前分流节点装置的分流 buffer状态报告 OBSR信息。 该 OBSR信息中可包含: buffer中等待分流 的数据包数量、 单个用户设备在分流节点装置等待分流的数据包数量、 分 流节点装置分流的历史总速率 Rt、分流节点装置到单个用户设备的历史分 流速率 r。 为降低 OBSR大小, 反馈的 buffer中数据量大小经过量化。 分 流历史速率 Rt和 r可以根据分流节点装置一段时间内从该分流节点装置成 功分流的数据量估计得到。
再其次, 数据发送装置接收分流节点装置发送的緩存状态报告 OBSR 信息, 并获知分流节点装置的 buffer中等待分流的数据包数量信息, 根据 该数据包数量信息决定是否向分流节点装置分流。 如: 当数据包数量小于 某门限时, 例如小于 10个数据包时, 就向分流节点装置分流; 否则, 不 向分流节点装置分流数据。
本发明实施例提供的分流数据的方法, 通过分流节点装置从上次反馈 开始到其 buffer中緩存的待发送数据包数量达到某一个预设数目时向数据 发送装置反馈其待发送的数据包数量信息, 从而使数据发送装置决定是否 需要继续给分流节点装置分流数据, 从而提高了分流节点装置的传输速 率。
本领域普通技术人员可以理解: 实现上述各方法实施例的全部或部分 步骤可以通过程序指令相关的硬件来完成。 前述的程序可以存储于一计算 机可读取存储介质中。 该程序在执行时, 执行包括上述各方法实施例的步 骤; 而前述的存储介质包括: ROM、 RAM, 磁碟或者光盘等各种可以存 储程序代码的介质。
本发明实施例提供一种数据发送装置, 图 4为本发明数据发送装置的 实施例的结构示意图; 该装置用于对应执行如图 1所示实施例的方法, 对 于图 1所示实施例已经描述的细节, 此处不再赘述。 如图 4所示, 该装置 包括第一获取模块 11 以及分流控制模块 12,其中第一获取模块 11用于获 取分流节点装置中緩存的待发送分流数据包数量; 分流控制模块 12用于 在所述待发送分流数据包数量小于第一阈值时, 向所述分流节点装置发送 分流数据, 否则, 不向所述分流节点装置发送分流数据。
具体地, 当数据发送装置的第一获取模块 11 获取分流节点装置中緩 存的待发送分流数据包数量后, 数据发送装置便可通过分流控制模块 12 来确定是否需要继续向分流节点装置分流数据了, 当待发送分流数据包数 量小于第一阈值时, 数据发送装置继续向分流节点装置分流数据, 当待发 送分流数据包数量大于第一阈值时, 数据发送装置停止向分流节点装置分 流数据。
本发明实施例提供的数据发送装置包括的第一获取模块 11 包括第一 接收单元和第一获取单元, 或者所述第一获取模块 1 1 包括第二接收单元 和第二获取单元。
当所述数据发送装置的第一获取模块 1 1 包括第一接收单元和第一获 取单元时, 所述第一接收单元用于接收用户设备发送的分流数据包报告信 息, 所述分流数据包报告信息包括分流节点标识, 以及用户设备从所述分 流节点装置接收到数据包的标识列表或从所述分流节点装置接收到的最 后一个数据包的标识; 所述第一获取单元用于根据已分流给所述分流节点 装置的数据包信息, 以及所述用户设备从所述分流节点装置接收到数据包 的标识列表或从所述分流节点装置接收到的最后一个数据包的标识获取 分流节点装置中緩存的待发送分流数据包数量。
具体地, 数据发送装置的第一接收单元接收用户设备发送的分流数据 包报告信息后, 根据其发送给分流节点装置的数据包信息估计出在分流节 点装置中緩存的待发送分流数据包数量, 其中, 所述分流数据包报告信息 包括分流节点标识, 以及用户设备从所述分流节点装置接收到数据包的标 识列表或从所述分流节点装置接收到的最后一个数据包的标识。
进一步地, 所述数据发送装置还包括第一发送模块, 所述第一发送模 块用于向用户设备发送第一汇报指示消息, 所述第一汇报指示消息用于指 示用户设备根据预设周期发送分流数据包报告信息, 或用于指示用户设备 每接收到预设数目的数据包时发送分流数据包报告信息。
具体地, 所述数据发送装置除了包括第一获取模块 11 和分流控制模 块 12外, 还包括第一发送模块, 所述第一发送模块用于向用户设备发送 第一汇报指示消息,所述第一汇报指示消息用于指示用户设备以 T为周期 向数据发送装置反馈用户设备从当前分流节点装置接收到的分流数据包 报告信息; 或者所示第一汇报指示消息还可用于指示用户设备以某个预设 的门限值向数据发送装置反馈用户设备从当前分流节点装置接收到的分 流数据包报告信息。
当所述数据发送装置的第一获取模块包括第二接收单元和第二获取 单元时, 所述第二接收单元用于接收分流节点装置发送的緩存状态报告信 息; 所述第二获取单元用于从所述緩存状态报告信息中获取分流节点装置 中緩存的待发送分流数据包数量。
具体地, 数据发送装置的第一获取模块中包括的第二接收单元接收分 流节点装置发送的緩存状态报告信息后, 数据发送装置根据其发送给分流 节点装置的数据包信息估计出在分流节点装置中緩存的待发送分流数据 包数量, 其中, 所述緩存状态报告信息包括分流节点装置 buffer中等待分 流的数据总量。
进一步地, 所述数据发送装置的第一获取模块还包括第二发送模块, 所述第二发送模块用于向分流节点装置发送第二汇报指示消息, 所述第二 汇报指示消息用于指示分流节点装置根据预设周期发送緩存状态报告信 息, 或用于指示分流节点装置每发送预设数目的数据包时发送緩存状态报 告信息。
具体地, 所述数据发送装置除了包括第一获取模块 1 1 和分流控制模 块 12外, 还包括第二发送模块, 所述第二发送模块用于向分流节点装置 发送第二汇报指示消息, 所述第二汇报指示消息用于指示分流节点装置以 T为周期向数据发送装置反馈当前分流节点装置的緩存状态报告信息, 所 述緩存状态报告信息用于记录当前分流节点装置中緩存的待发送数据包 信息; 或者所示第二汇报指示消息还可用于指示分流节点装置以某个预设 的门限值向数据发送装置反馈当前分流节点装置的緩存状态报告信息 , 所 述緩存状态报告信息用于记录当前分流节点装置中緩存的待发送数据包 信息,具体地说, 当分流节点装置中緩存的数据包数量小于某个预设值时, 数据发送装置继续向分流节点装置分流, 即向分流节点装置发送数据包; 当分流节点装置中緩存的数据包数量大于某个预设值时, 数据发送装置停 止向分流节点装置分流, 即停止向分流节点装置发送数据包。 本发明实施例提供一种用户设备, 图 5为本发明用户设备装置的实施 例的结构示意图, 该用户设备用于对应执行如图 2所示实施例的方法, 对 于图 2所示实施例已经描述的细节, 此处不再赘述。 如图 5所示, 该设备 包括第一接收模块 21和第三发送模块 22,所述第一接收模块 21用于接收 数据发送装置发送的第一汇报指示消息, 所述第一汇报指示消息用于指示 用户设备根据预设周期发送分流数据包报告信息, 或用于指示用户设备每 在接收到预设数目的数据包时发送分流数据包报告信息; 所述第三发送模 块 22用于根据接收的所示第一汇报指示消息向数据发送装置发送分流数 据包报告信息, 所述分流数据包报告信息包括分流节点标识, 以及用户设 备从所述分流节点装置接收到数据包的标识列表或从所述分流节点装置 接收到的最后一个数据包的标识。
具体地, 本发明实施例的用户设备包括第一接收模块 21 和第三发送 模块 22, 用户设备的第一接收模块 21首先接收数据发送装置发送的第一 汇报指示消息, 然后再根据其接收的第一汇报指示消息向数据发送装置发 送分流数据包报告信息。所述第一汇报指示消息用于指示用户设备以 T为 周期向数据发送装置反馈从当前分流节点装置接收到的数据包数量, 或者 第一汇报指示消息还可用于指示用户设备以某个预设值向数据发送装置 反馈从当前分流节点装置接收到的数据包数量; 所述分流数据包报告信息 包括分流节点标识, 以及用户设备从所述分流节点装置接收到数据包的标 识列表或从所述分流节点装置接收到的最后一个数据包的标识, 以及从所 述分流节点装置接收分流数据包的历史速率。
本发明实施例提供一种分流节点装置, 图 6为本发明分流节点装置的 实施例的结构示意图; 该分流节点装置用于对应执行如图 3所示实施例的 方法, 对于图 3所示实施例已经描述的细节, 此处不再赘述。 图如 6所示, 该装置包括第二接收模块 31和第四发送模块 32,其中第二接收模块 31用 于接收数据发送装置发送的第二汇报指示消息, 所述第二汇报指示消息用 于指示分流节点装置根据预设周期发送緩存状态报告信息, 或用于指示分 流节点装置每在发送预设数目的数据包时发送緩存状态报告信息; 第四发 送模块 32用于根据接收的所示第二汇报指示消息向数据分流装置发送緩 存状态报告信息, 所述緩存状态报告信息中携带有分流节点装置中緩存的 待发送分流数据包数量。
具体地, 本发明实施例的分流节点装置包括第二接收模块 31 和第四 发送模块 32, 分流节点装置的第一接收模块 31首先接收数据发送装置发 送的第二汇报指示消息, 然后再根据其接收的第二汇报指示消息向数据发 送装置发送緩存状态报告信息。 所述第二汇报指示消息用于指示分流节点 装置以 T 为周期向数据发送装置反馈当前分流节装置中緩存的待发送分 流数据包数量, 或者第二汇报指示消息还可用于指示分流节点装置以某个 预设值向数据发送装置反馈当前分流节装置中緩存的待发送分流数据包 数量; 緩存状态报告信息中携带有分流节点装置中緩存的待发送分流数据 包数量,还可以携带分流节点装置发送分流数据包的历史速率、单个用户设 备在分流节点装置中緩存的待发送分流数据包数量, 分流节点装置为单个 用户设备发送分流数据包的历史速率。
本发明实施例中的数据发送装置具体可为 LTE eNB,也可以为其它类型 的基站; 本发明实施例中的分流节点装置可为有线分流节点装置, 也可以为 无线分流节点装置。 本发明实施例提供的分流节点装置和用户设备之间的接 口类型包括但不限于 WiFi、 LTE D2D、 LTE-Hi。
最后应说明的是: 以上实施例仅用以说明本发明的技术方案, 而非对其 限制; 尽管参照前述实施例对本发明进行了详细的说明, 本领域的普通技术 人员应当理解: 其依然可以对前述各实施例所记载的技术方案进行修改, 或 者对其中部分技术特征进行等同替换; 而这些修改或者替换, 并不使相应技 术方案的本质脱离本发明各实施例技术方案的精神和范围。

Claims

权 利 要 求 书
1、 一种数据分流方法, 其特征在于, 包括:
获取分流节点装置中緩存的待发送分流数据包数量;
在所述待发送分流数据包数量小于第一阈值时, 向所述分流节点装置 发送分流数据。
2、 根据权利要求 1 所述的数据分流方法, 其特征在于, 所述获取分 流节点装置中緩存的待发送分流数据包数量包括:
接收用户设备发送的分流数据包报告信息, 所述分流数据包报告信息 包括分流节点标识, 以及用户设备从所述分流节点装置接收到数据包的标 识列表或从所述分流节点装置接收到的最后一个数据包的标识;
根据已分流给所述分流节点装置的数据包信息, 以及所述用户设备从 所述分流节点装置接收到数据包的标识列表或从所述分流节点装置接收 到的最后一个数据包的标识获取分流节点装置中緩存的待发送分流数据 包数量。
3、 根据权利要求 2 所述的数据分流方法, 其特征在于, 所述接收用 户设备发送的分流数据包报告信息之前还包括:
向用户设备发送第一汇报指示消息, 所述第一汇报指示消息用于指示 用户设备根据预设周期发送分流数据包报告信息, 或用于指示用户设备每 接收到预设数目的数据包时发送分流数据包报告信息。
4、 根据权利要求 2 所述的数据分流方法, 其特征在于, 所述分流数 据包报告信息中还包括有用户设备从所述分流节点装置接收分流数据包 的历史速率。
5、 根据权利要求 1 所述的数据分流方法, 其特征在于, 所述获取分 流节点装置中緩存的待发送分流数据包数量包括:
接收分流节点装置发送的緩存状态报告信息, 从所述緩存状态报告信 息中获取分流节点装置中緩存的待发送分流数据包数量。
6、 根据权利要求 5 所述的数据分流方法, 其特征在于, 所述接收分 流节点装置发送的緩存状态报告信息之前还包括:
向分流节点装置发送第二汇报指示消息, 所述第二汇报指示消息用于 指示分流节点装置根据预设周期发送緩存状态报告信息, 或用于指示分流 节点装置每发送预设数目的数据包时发送緩存状态报告信息。
7、 根据权利要求 6 所述的数据分流方法, 其特征在于, 所述緩存状 态报告信息中还包括有分流节点装置发送分流数据包的历史速率、 单个用 户设备在分流节点装置中緩存的待发送分流数据包数量, 分流节点装置为 单个用户设备发送分流数据包的历史速率。
8、 根据权利要求 1-7任一所述的数据分流方法, 其特征在于, 在所 述待发送分流数据包数量大于或等于所述第一阈值时, 不向所述分流节点 装置发送分流数据。
9、 一种数据分流方法, 其特征在于, 包括:
接收数据发送装置发送的第一汇报指示消息, 所述第一汇报指示消息 用于指示用户设备根据预设周期发送分流数据包报告信息, 或用于指示用 户设备每在接收到预设数目的数据包时发送分流数据包报告信息;
根据预设周期向数据发送装置发送分流数据包报告信息, 或每在接收 到预设数目的数据包时向数据发送装置发送分流数据包报告信息, 所述分 流数据包报告信息包括分流节点标识, 以及用户设备从所述分流节点装置 接收到数据包的标识列表或从所述分流节点装置接收到的最后一个数据 包的标识。
1 0、 根据权利要求 9所述的数据分流方法, 其特征在于, 所述分流数 据包报告信息中还包括有用户设备从所述分流节点装置接收分流数据包 的历史速率。
1 1、 一种数据分流方法, 其特征在于, 包括:
接收数据发送装置发送的第二汇报指示消息, 所述第二汇报指示消息 用于指示分流节点装置根据预设周期发送緩存状态报告信息, 或用于指示 分流节点装置每在发送预设数目的数据包时发送緩存状态报告信息; 根据预设周期向数据分流装置发送緩存状态报告信息, 或每在发送预 设数目的数据包时向数据分流装置发送緩存状态报告信息, 所述緩存状态 报告信息中携带有分流节点装置中緩存的待发送分流数据包数量。
12、 根据权利要求 1 1 所述的数据分流方法, 其特征在于, 所述緩存 状态报告信息中还包括有分流节点装置发送分流数据包的历史速率、 单个 用户设备在分流节点装置中緩存的待发送分流数据包数量, 分流节点装置 为单个用户设备发送分流数据包的历史速率。
1 3、 一种数据发送装置, 其特征在于, 包括:
第一获取模块, 用于获取分流节点装置中緩存的待发送分流数据包数 量;
分流控制模块, 用于在所述待发送分流数据包数量小于第一阈值时, 向所述分流节点装置发送分流数据。
14、 根据权利要求 1 3 所述的数据发送装置, 其特征在于, 所述第一 获取模块包括:
第一接收单元, 用于接收用户设备发送的分流数据包报告信息, 所述 分流数据包报告信息包括分流节点标识, 以及用户设备从所述分流节点装 置接收到数据包的标识列表或从所述分流节点装置接收到的最后一个数 据包的标识;
第一获取单元, 用于根据已分流给所述分流节点装置的数据包信息, 以及所述用户设备从所述分流节点装置接收到数据包的标识列表或从所 述分流节点装置接收到的最后一个数据包的标识获取分流节点装置中緩 存的待发送分流数据包数量。
15、 根据权利要求 1 3所述的数据发送装置, 其特征在于, 还包括: 第一发送模块, 用于向用户设备发送第一汇报指示消息, 所述第一汇 报指示消息用于指示用户设备根据预设周期发送分流数据包报告信息, 或 用于指示用户设备每接收到预设数目的数据包时发送分流数据包报告信
16、 根据权利要求 1 3 所述的数据发送装置, 其特征在于, 所述第一 获取模块包括:
第二接收单元, 用于接收分流节点装置发送的緩存状态报告信息; 第二获取单元, 用于从所述緩存状态报告信息中获取分流节点装置中 緩存的待发送分流数据包数量。
17、 根据权利要求 16所述的数据发送装置, 其特征在于, 还包括: 第二发送模块, 用于向分流节点装置发送第二汇报指示消息, 所述第 二汇报指示消息用于指示分流节点装置根据预设周期发送緩存状态报告 信息, 或用于指示分流节点装置每发送预设数目的数据包时发送緩存状态 报告信息。
18、 根据权利要求 1 3-1 7任一所述的数据发送装置, 其特征在于, 所 述分流控制模块还用于在所述待发送分流数据包数量大于或等于第一阀 值时, 不向分流节点装置发送分流数据。
19、 一种用户设备, 其特征在于, 包括:
第一接收模块, 用于接收数据发送装置发送的第一汇报指示消息, 所 述第一汇报指示消息用于指示用户设备根据预设周期发送分流数据包报 告信息, 或用于指示用户设备每在接收到预设数目的数据包时发送分流数 据包报告信息;
第三发送模块, 用于根据预设周期向数据发送装置发送分流数据包报 告信息, 或每在接收到预设数目的数据包时向数据发送装置发送分流数据 包报告信息, 所述分流数据包报告信息包括分流节点标识, 以及用户设备 从所述分流节点装置接收到数据包的标识列表或从所述分流节点装置接 收到的最后一个数据包的标识。
20、 一种分流节点装置, 其特征在于, 包括:
第二接收模块接收数据发送装置发送的第二汇报指示消息, 所述第二 汇报指示消息用于指示分流节点装置根据预设周期发送緩存状态报告信 息, 或用于指示分流节点装置每在发送预设数目的数据包时发送緩存状态 报告信息;
第四发送模块, 用于根据预设周期向数据分流装置发送緩存状态报告 信息, 或每在发送预设数目的数据包时向数据分流装置发送緩存状态报告 信息, 所述緩存状态报告信息中携带有分流节点装置中緩存的待发送分流 数据包数量。
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