WO2016078495A1 - Procédé et dispositif de gestion de qos de réseaux sans fil - Google Patents

Procédé et dispositif de gestion de qos de réseaux sans fil Download PDF

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Publication number
WO2016078495A1
WO2016078495A1 PCT/CN2015/092123 CN2015092123W WO2016078495A1 WO 2016078495 A1 WO2016078495 A1 WO 2016078495A1 CN 2015092123 W CN2015092123 W CN 2015092123W WO 2016078495 A1 WO2016078495 A1 WO 2016078495A1
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Prior art keywords
qos
network
wireless network
qos resource
resource information
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PCT/CN2015/092123
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English (en)
Chinese (zh)
Inventor
周朝阳
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中兴通讯股份有限公司
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Publication of WO2016078495A1 publication Critical patent/WO2016078495A1/fr

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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W28/00Network traffic management; Network resource management
    • H04W28/16Central resource management; Negotiation of resources or communication parameters, e.g. negotiating bandwidth or QoS [Quality of Service]
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W28/00Network traffic management; Network resource management
    • H04W28/16Central resource management; Negotiation of resources or communication parameters, e.g. negotiating bandwidth or QoS [Quality of Service]
    • H04W28/24Negotiating SLA [Service Level Agreement]; Negotiating QoS [Quality of Service]

Definitions

  • Embodiments of the present invention relate to, but are not limited to, wireless communication technologies, and in particular, to a method and apparatus for implementing wireless network quality of service (QoS) management.
  • QoS quality of service
  • mobile Internet services provide users with a variety of application services through the Internet, especially for mobile services such as OTT (Over The Top).
  • OTT Over The Top
  • Users can use the mobile terminal to access the Internet, access a variety of services and applications, watch online video, play online interactive games, handle life and work related things.
  • a variety of smart devices including instruments and meters for various industries and industrial applications, have also accessed or are about to access wireless networks, and use wireless networks to transmit data.
  • higher requirements will be placed on the bandwidth and quality of service of the carrier network in order to cope with the challenges of “human-to-human” interconnection, “human-material” interconnection and “object-material” interconnection to the wireless network.
  • PCC Policy and Charging Control
  • PCRF Policy and Charging Rule Function
  • PCEF Policy and Charging Enforcement Function
  • the PCC system is a system that separates the control plane from the data plane to achieve effective management and control of the operator's network pipeline. Through the service data flow detection function, QoS control function and data flow accounting function of the PCC system, it is possible to adjust the Internet performance of the device in real time.
  • the embodiments of the present invention provide a method and a device for implementing QoS management of a wireless network, which can comprehensively analyze the actual bearability of the wireless access network and the actual network experience of the device, thereby efficiently utilizing the bandwidth of the wireless network, improving the online experience of the device, and satisfying the device pair. Transmission requirements for communication networks.
  • the embodiment of the invention provides a method for implementing QoS management of a wireless network, including:
  • the QoS resource information that is actually allocated by the device it is determined that the reference QoS or the utility scenario corresponding to the service type cannot be met, and the QoS resources available to the radio bearer network are evaluated, and the device that passes the authentication according to the QoS resources available to the radio network.
  • the QoS resources are adjusted.
  • the acquiring QoS resource information that is available to the wireless network includes:
  • the available QoS resource information of the wireless network is analyzed according to the allocated bandwidth of the collected wireless network.
  • the service type that the acquiring device transmits through the wireless network and the QoS resource information that the device actually allocates include:
  • the service type and the QoS resource information actually allocated by the device are collected through interaction with the policy and charging control function PCRF network element.
  • the determining, according to the QoS resource information that is actually allocated by the device, determining a reference QoS or a utility scenario that cannot meet the service type includes:
  • the QoS resource information that is actually allocated by the device is lower than the reference QoS resource or the utility scenario requirement of the service type transmitted by the device through the wireless network, it is determined that the QoS resource of the device needs to be adjusted.
  • the device includes an intelligent terminal, an instrument, a meter, and a system
  • the QoS resource information actually allocated by the device is an actual network bandwidth of the device.
  • the QoS resources of the device are adjusted to include:
  • the QoS resources are automatically adjusted for the QoS resources of the device.
  • the method further includes:
  • the device After receiving the QoS resource adjustment command and responding to the consent adjustment, the device sends a QoS resource adjustment instruction to the PCRF, and the PCRF issues a QoS resource adjustment instruction to the policy and charging execution function PCEF, and the PCRF collects the adjustment result from the PCEF, and the QoS is collected.
  • the resource adjustment result is fed back to the device, and the QoS resource adjustment of the device is completed.
  • the method further includes:
  • the device automatically sends a QoS resource adjustment command to the PCRF, and the PCRF sends a QoS resource adjustment command to the PCEF, and the PCRF collects the adjustment result from the PCEF, and feeds back the QoS resource adjustment result to the device as needed to complete the QoS resource adjustment of the device. .
  • An embodiment of the present invention further provides an apparatus for implementing QoS management of a wireless network, including a bearer analysis module, a network interaction module, a QoS decision module, and a processing module;
  • the bearer analysis module is configured to acquire QoS resource information that is available to the wireless network
  • the network interaction module is configured to acquire QoS resource information that is actually allocated by the device, and obtain a service type that the device transmits through the wireless network;
  • the QoS decision module is configured to notify the processing module according to the QoS resource information that is actually allocated by the device, when determining that the reference QoS or the utility scenario requirement corresponding to the service cannot be met, and evaluating the QoS resources available to the radio bearer network, The authenticated device performs QoS resource adjustment;
  • the processing module is configured to adjust the QoS resources of the device after receiving the notification from the QoS decision module.
  • the bearer analysis module is configured to collect information of the wireless base station and the core network to determine a wireless network bearer capability, and analyze and refine the wireless network according to the bandwidth allocated by the collected wireless network to the access device. Available QoS resource information.
  • the network interaction module is configured to: collect and obtain a service type that is transmitted by the device through the wireless network by using a deep packet inspection technology; collect the service type by interacting with the PCRF network element of the policy and the charging control function.
  • the QoS decision module determines, according to the QoS resource information that the device is actually allocated, that the reference QoS or the utility scenario corresponding to the service type cannot be met, including: when the actually allocated QoS resource information of the device is lower than
  • the notification processing module adjusts QoS resources for the device when the device passes the reference QoS resource or the utility scenario of the service type transmitted by the wireless network.
  • the QoS decision module is configured to: when the actually allocated QoS resource information of the device is lower than a reference QoS or a utility scenario indicator requirement of a service type transmitted by the device over a wireless network, Determining whether the radio bearer network has available QoS resources, and determining that the radio bearer network has available QoS resources, determining that the QoS resources of the device need to be adjusted, and authenticating the device, and performing notification processing on the device that passes the authentication
  • the module adjusts QoS resources for the device.
  • the processing module is configured to: receive an instruction of the QoS decision module, and determine, according to the QoS resource information that is available to the wireless network, whether the QoS resource required by the device can be provided, and if yes, Pushing a QoS resource adjustment command to the device; or determining that the QoS resource of the device is automatically adjusted when the QoS resource required by the device is provided.
  • the QoS decision module is further configured to: authenticate whether the device has a condition for adjusting a QoS resource, and if yes, send a QoS resource adjustment instruction to the processing module.
  • the processing module is configured to adjust the QoS resource of the device, where the processing module performs an instruction interaction with the device, and after obtaining the device's approval for the QoS resource adjustment, instructing the network interaction module and the PCRF Receiving the adjustment result of the QoS resource returned by the network interaction module, and notifying the device to adjust the result according to the actual situation of the device;
  • the network interaction module is further configured to: after receiving the indication of the processing module, interact with the PCRF network element through the Rx protocol interface, request to perform QoS resource adjustment for the device, and receive an adjustment result of the QoS resource from the PCRF, And return to the processing module.
  • An embodiment of the present invention further provides a computer readable storage medium, where program instructions are stored, when The above method can be implemented when program instructions are executed.
  • the technical solution of the embodiment of the present application includes acquiring QoS resource information that can be utilized by the wireless network, and the service type that the device transmits through the wireless network and the QoS resource information that is actually allocated by the device; and determining that the service corresponding cannot be satisfied according to the QoS resource information that is actually allocated by the device.
  • the QoS resources of the device are adjusted according to the QoS resources available to the wireless network.
  • the technical solution provided by the embodiment of the present invention comprehensively analyzes the actual bearability of the wireless access network and the actual network experience of the device. When the QoS of the wireless network is found to be redundant and idle, and the device under normal conditions, the QoS resources actually enjoyed cannot meet the requirements.
  • an instruction to adjust the QoS resource is sent to the device, and the QoS resource of the device that receives and responds to the adjustment command is adjusted, or the QoS resource is automatically adjusted for the device, thereby effectively utilizing the bandwidth of the wireless network. Meet the requirements of the device for transmitting data over the wireless network.
  • FIG. 1 is a flowchart of a method for implementing QoS management of a wireless network according to an embodiment of the present invention
  • FIG. 2 is a schematic structural diagram of a device for implementing QoS management of a wireless network according to an embodiment of the present invention
  • FIG. 3 is a schematic flowchart of acquiring a bearer capability of a wireless network according to an embodiment of the present invention
  • FIG. 4 is a schematic flowchart of acquiring a QoS resource of a device in actual network according to an embodiment of the present invention
  • FIG. 5 is a schematic flowchart of determining a decision and a decision for making a QoS resource on a device according to an embodiment of the present invention
  • FIG. 6 is a schematic flowchart of adjusting an QoS resource of a device according to an embodiment of the present invention.
  • FIG. 1 is a flowchart of a method for implementing QoS management of a wireless network according to an embodiment of the present invention. As shown in FIG. 1, the method includes:
  • Step 100 Obtain QoS resource information that can be utilized by the wireless network, and a service type that the device transmits through the wireless network and QoS resource information that the device actually allocates;
  • collecting information on the radio base station and the core network such as a GPRS service support node and/or a mobility management entity (SGSN/MME), determining the radio network bearer capability, and according to the collected radio network, the bandwidth allocated to the access device Analyze and extract the available QoS resource information of the wireless network surplus and idle.
  • a GPRS service support node and/or a mobility management entity SGSN/MME
  • the service type information transmitted by the device through the network is collected and obtained, and the service type includes one or more of the following types: VoIP, voice, interactive games, video and video conference, etc.
  • the service type can also be understood as a media type; the service type information and the QoS resource information actually allocated by the device (such as the device) are collected through interaction with the Policy and Charging Rule Function (PCRF) network element.
  • PCRF Policy and Charging Rule Function
  • QoS indicators such as network bandwidth, QoS indicators and QoS resources described below).
  • Step 101 According to the QoS resource information that is actually allocated by the device, determine that the reference QoS or the actual scenario requirement corresponding to the service cannot be met, and evaluate the QoS resources available to the radio bearer network, and pass the authentication according to the QoS resources available to the wireless network.
  • the QoS indicators of the device are adjusted.
  • the reference QoS or the actual scenario requirements that cannot meet the service according to the QoS resource information that is actually allocated by the device include:
  • the reference QoS of the service type transmitted by the device through the wireless network defines a basic QOS indicator that satisfies the multiple service types used by the device on the Internet, and can be referred to the related protocol.
  • the allocated QoS resource refers to a resource that is occupied and cannot be used by other devices.
  • adjusting the QoS indicators of the authenticated device according to the QoS resources available to the wireless network includes:
  • the QoS indicator adjustment instruction may be determined according to actual equipment and application conditions. For example, for a mobile phone user, the command is a configurable short message template. In this case, the short message is sent to the user's device, and the user is informed that the current network is unstable, cannot meet the current Internet access requirements, and needs to improve the network service quality. According to the needs of different operators in actual operation, the short message template may be different, and may inform the user to generate more traffic or extra charges.
  • the foregoing method further includes:
  • the device receives the QoS indicator adjustment instruction and sends a QoS indicator adjustment instruction to the PCRF according to the Rx interface protocol to propose a QoS indicator adjustment request; in this example, the user response agrees to adjust the QoS indicator;
  • the PCRF sends a QoS indicator adjustment command to the PCEF, and the PCRF collects the adjustment result from the PCEF, and finally feeds back the QoS indicator adjustment result to the device, and completes the adjustment of the QoS indicator of the device.
  • the corresponding parameters such as the priority, the maximum uplink bandwidth, the maximum downlink bandwidth, and the like, are provided according to the actual situation of the adjustment of the target user, which is not limited herein.
  • the foregoing method further includes:
  • the QoS indicator adjustment command is automatically sent to the PCRF according to the Rx interface protocol, and the PCRF sends a QoS indicator adjustment command to the PCEF, and the PCRF collects the adjustment result from the PCEF, as needed (in some scenarios, the QoS resource adjustment does not need to notify the device, but Some scenarios need to be informed.
  • the QoS indicator adjustment result is fed back to the device to complete the QoS indicator adjustment of the device.
  • the embodiment of the present invention analyzes the QoS index of the operator's wireless network, especially the idle amount of the network bandwidth, and analyzes the actual requirements of the QoS when the device accesses the wireless network, and discovers the wireless network.
  • the QoS of the network is redundant and idle, and the device can make an instruction to adjust the QoS indicator to the device when the QoS indicator actually enjoyed by the device cannot meet the service type of the network transmission under normal conditions, and accept and respond to the adjustment command.
  • the QoS indicator of the device is implemented, or the QoS indicator is automatically adjusted for the device. In this way, the operator's excess bandwidth is effectively and reasonably utilized to provide better network communication services for the device.
  • the method includes at least a bearer analysis module 201, a network interaction module 202, a QoS decision module 203, and a processing module 204.
  • the bearer analysis module 201 is configured to acquire QoS resource information that is available to the wireless network;
  • the bearer analysis module 201 is configured to: collect information on the radio base station and the core network, such as the SGSN/MME, to determine the radio network bearer capability, and analyze and refine according to the bandwidth allocated by the collected radio network to the access device. Wireless network surplus, idle available QoS resource information.
  • the network interaction module 202 is configured to acquire QoS resource information that the device is actually allocated, and obtain a service type that the device transmits through the wireless network;
  • the network interaction module 202 is configured to: collect and obtain a service type that is transmitted by the device through the network through the deep packet inspection technology; collect the service type information and the QoS resource information that the device is actually allocated or occupied by interacting with the PCRF network element. Such as the actual QoS indicators of the device's actual network bandwidth.
  • the QoS decision module 203 is configured to notify the processing module when it is determined that the reference QoS or the utility scenario requirement corresponding to the service cannot be met according to the QoS resource information that is actually allocated or occupied by the device. That is, the information received from the bearer analysis module and the network interaction module is received, and the information is analyzed to determine that the QoS indicator needs to be adjusted for the device, and the processing module is notified to perform the corresponding adjustment operation;
  • the QoS decision module 203 is configured to: when the QoS resource information actually allocated by the device is lower than the reference QoS indicator or the utility scenario requirement of the service type transmitted by the device through the wireless network, determine that the device needs to be adjusted.
  • the QoS indicator is notified to the processing module 204. That is, the QoS resource information that is actually allocated by the device, such as the QoS indicator of the actual network bandwidth of the device, and the device pass.
  • the service type of the network transmission combined with the reference QoS indicator of the service type transmitted by the device through the network or the actual scenario requirement, determines whether there is a need to adjust the QoS indicator of the wireless network of the device: when the QoS index of the actual network bandwidth of the device is low
  • the reference QoS indicator or the actual scenario requirement of the service type transmitted by the device through the network determines that the QoS indicator of the device needs to be adjusted, and optionally, the QoS resource condition that can be utilized by the wireless network is processed, when the wireless network is redundant.
  • the available QoS resources can meet the QoS specifications required by the device, and the notification processing module adjusts the QoS indicators for the device.
  • the QoS decision module 203 may further determine whether the device has the condition for adjusting the QoS indicator, and if necessary, send the QoS indicator adjustment notification to the processing module 204.
  • the processing module 204 is configured to receive a notification from the QoS decision module to adjust the QoS indicator of the device.
  • the processing module 204 is configured to receive an instruction of the QoS decision module 203, and according to the QoS resource information that can be utilized by the wireless network, determine whether the QoS indicator required by the device can be provided, and if so, to the The device automatically adjusts the QoS indicator of the device when the device pushes the QoS indicator adjustment command or determines that the QoS resource required by the device can be provided.
  • the processing module 204 determines whether to recommend adjusting the QoS indicator for the device or automatically adjusting the QoS indicator for the device according to the type or attribute information of the device.
  • the processing module 204 pushes the QoS indicator adjustment suggestion instruction to the device, and if the device response processing module 204 receives the adjustment suggestion instruction, adjusts the QoS indicator according to the recommendation (may be provided in the manner provided in the recommended instruction)
  • the processing module 204 sends a formal adjustment notification to the network interaction module 203, instructing the network interaction module to interact with the PCRF network element, and the notification message includes the QoS indicator to be adjusted; when the automatic adjustment of the QoS indicator is adopted
  • the processing module automatically sends a formal adjustment notification to the network interaction module, indicating that the network interaction module interacts with the PCRF network element, and the notification message includes the QoS indicator to be adjusted.
  • the QoS decision module 203 is further configured to: whether the authentication device has the condition for adjusting the QoS indicator, and if the condition is met, send the QoS indicator adjustment instruction to the network interaction module 202.
  • the network interaction module 202 is further configured to receive the QoS indicator adjustment instruction from the processing module, interact with the PCRF network element through the Rx protocol interface, and request the QoS index for the device.
  • the adjustment result of the QoS indicator received from the PCRF is returned to the processing module; at this time, the processing module 204 is also set to be based on actual needs (in some scenarios, the adjustment of the QoS resource does not need to notify the device, and some The scenario needs to be notified), notifying the device of the result of QoS adjustment.
  • FIG. 3 is a schematic flowchart of acquiring a bearer capability of a wireless network according to an embodiment of the present invention. Referring to FIG. 2, FIG. 3 includes:
  • Step 300 The bearer analysis module 201 initiates a request for collecting the radio access network bearer capability data information to the radio base station, to obtain the uplink/downlink network bandwidth information that has been reserved or allocated.
  • Step 301 The radio base station returns the collection result data, that is, the bearer capability data information, to the bearer analysis module 201.
  • Step 302 The bearer analysis module 201 initiates a request for collecting the reserved bandwidth or the allocated bandwidth to the SGSN or the MME.
  • step 300 is to collect from the radio access network, and the step is to collect from the core network, where the processing is to obtain more accurate information.
  • Step 303 The SGSN or the MME returns the collection result data, that is, the reserved bandwidth or the allocated bandwidth of the wireless network, to the bearer analysis module 201.
  • Step 304 The bearer analysis module 201 analyzes and calculates the available and reserved QoS resource information of the wireless network by using the information collected from the radio base station and the core network.
  • FIG. 4 is a schematic flowchart of obtaining an actual network QoS index of a device according to an embodiment of the present invention. Referring to FIG. 2, as shown in FIG.
  • Step 400 The network interaction module 202 interacts with the PCRF network element through the Rx protocol interface, and subscribes the QoS indicator of the device to the PCRF by using an Authentication Authorization Request (AAR) message.
  • AAR Authentication Authorization Request
  • Step 401 The PCRF and the PCEF pass the Gx protocol interface, and the PCRF uses the Re-authentication Request (RAR) message to subscribe the QoS indicator of the device to the PCEF.
  • RAR Re-authentication Request
  • Step 402 The PCEF reports the QoS indicator to the PCRF by using a re-authentication response (RAA, Re-Auth-Answer) message according to the registered subscription event.
  • RAA re-authentication response
  • Step 403 The PCRF uses the AAA message to return the QoS indicator parameters of the subscribed device to the network interaction module 202, such as the QoS indicator of the actual network bandwidth of the device.
  • the network interaction module notifies the PCRF through the Rx protocol interface to send a subscription instruction to the PCEF supporting the deep packet inspection technology, instructing it to detect the data information flowing through the network, detecting the service type information transmitted by the device through the network, and then, the PCEF to the PCRF. Feeding the detected service type information, the PCRF feeds the information back to the network interaction module 202, such as VoIP, voice, interactive game, video and video conference, and the service type that the network interaction module 202 transmits the device through the network. The information is sent to the QoS decision module 203.
  • FIG. 5 is a schematic flowchart of a decision of adjusting an online QoS index of a device and a decision to be made according to an embodiment of the present invention. Referring to FIG. 2, as shown in FIG.
  • Step 500 The bearer analysis module 201 reports the available QoS resource information of the wireless network to the QoS decision module 203.
  • Step 501 The network interaction module 202 reports to the QoS decision module 203 the QoS resource information that the device is actually allocated, that is, the QoS resource information that the device is actually allocated (that is, the device actually occupies);
  • Step 502 The network interaction module 202 reports the service type transmitted by the device through the network to the QoS decision module 203.
  • Step 503 The QoS decision module 203 comprehensively analyzes and determines whether the QoS indicator adjustment needs to be implemented on the device: if the device actually accesses the network, the actual allocated network QoS indicator fails to reach the required reference when accessing a type of service or a transmitted service type. QoS metrics or actual scenario requirements. At the same time, the QoS decision module 203 determines that the radio bearer capability of the current wireless network can meet the QoS specifications required by the device. In addition, when the authentication device has the condition for adjusting the QoS indicator, the QoS of the wireless network of the device is required. Indicators are adjusted;
  • the authentication in this step can support the device for authenticating the device based on the device attribute identifier (identity for identifying the device) and the device status (such as normal, abnormal, inactive, etc.). These conditions can be configured and adjusted according to actual deployment requirements and are not limited.
  • Step 504 The QoS decision module 203 issues a QoS indicator adjustment instruction to the device to the processing module 204.
  • FIG. 6 is a schematic flowchart of adjusting an online QoS index of a device according to an embodiment of the present invention. Referring to FIG. 2, as shown in FIG.
  • Step 600 The processing module 204 may use the short message or the API interface mode to push the prompt information of the QoS indicator adjustment to the device, so as to prompt the device that the current network QoS does not meet the requirements of the application being accessed, whether the QoS needs to be improved, and the lifting operation instruction is provided. ;
  • Step 601 If the device feedback requests to improve the QoS, the QoS indicator adjustment request may be submitted to the processing module 204 by using a short message or an API interface manner;
  • Step 602 The processing module 204 sends a QoS indicator adjustment instruction to the network interaction module 202.
  • Step 603 The network interaction module 202 interacts with the PCRF network element through the Rx protocol interface, for example, sends an AAR request message to the PCRF, and requests the device to perform QoS index adjustment.
  • the AAR is a protocol interface message.
  • the method includes a plurality of parameters, and the operation type is included in the parameter.
  • the QoS operation type is requested, and the corresponding QoS condition is queried in the step 400.
  • the other parameters corresponding to these two types of processes are also different.
  • Step 604 The PCRF and the PCEF are exchanged through the Gx protocol interface, and the PCRF can use the RAR message to notify the PCEF to adjust the QoS index of the device.
  • Step 605 After the PCEF completes the adjustment, the QoS indicator adjustment result may be reported to the PCRF by using the RAA message.
  • Step 606 After receiving the QoS indicator adjustment result of the PCEF, the PCRF may use an AAA message to feed back the adjustment result of the QoS indicator for the device to the network interaction module 202.
  • Step 607 The network interaction module 202 returns a QoS indicator adjustment result to the processing module 204.
  • Step 611 The processing module 204 notifies the device to perform QoS adjustment for the QoS indicator adjustment result.
  • the method and apparatus for implementing QoS management of a wireless network are evaluated by comprehensively analyzing the bearer capability of the wireless network, the bandwidth usage, the actual QoS indicators and the online experience when the device is connected to the Internet. Whether QoS adjustment is required. And, according to the operation The commerce mode of the quotient needs to be adjusted according to the characteristics of the device type, and the QoS metric can be adjusted by the device.
  • the QoS management device directly adjusts the QoS for the device that needs to perform QoS adjustment. index.
  • the solution of the embodiment of the present invention solves the problem that the adjustment failure caused by the wireless network QoS indicator is blindly adjusted by the device side or the application side, or the over-adjustment is caused by the device side or the application side being unable to determine the wireless network withstand capability and the actual QoS index requirement of the device.
  • the wireless network resources are excessively consumed or the network resources of other devices are crowded; or the wireless network resource utilization rate is not high.
  • the technical solution provided by the embodiment of the present invention comprehensively analyzes the actual bearability of the wireless access network and the actual network quality of the device. When the QoS of the wireless network is found to be redundant and idle, and the device is under normal conditions, the actually enjoyed QoS indicator cannot satisfy the transmission.
  • the device can provide an instruction to adjust the recommended QoS indicator, and adjust the QoS indicator of the device that accepts the adjustment proposal, or automatically adjust the QoS indicator for the device, thereby effectively utilizing the wireless network bandwidth and improving The quality of network services for the device.
  • the embodiments of the present invention comprehensively analyze the actual bearability of the wireless access network and the actual communication requirements of the device.
  • the QoS resources of the wireless network are found to be redundant and idle, and the device is under normal conditions, the actual QoS indicators can not meet the service type transmitted.

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  • Computer Networks & Wireless Communication (AREA)
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Abstract

La présente invention concerne, dans un de ses modes de réalisation, un procédé et un dispositif de gestion de QoS de réseaux sans fil, le procédé comportant les étapes consistant à: acquérir des informations d'une ressource de QoS disponible pour un réseau sans fil, et acquérir un type de service émis par un dispositif via le réseau sans fil et acquérir des informations d'une ressource de QoS effectivement attribuée au dispositif; et s'il est déterminé, d'après les informations de la ressource de QoS effectivement attribuée au dispositif, qu'une QoS standard ou une exigence de scénario pratique correspondant au type de service ne peut pas être satisfaite, et s'il est évalué que le réseau sans fil porteur comprend une ressource de QoS disponible, régler, en fonction d'un état de la ressource de QoS disponible pour le réseau sans fil, une ressource de QoS pour un dispositif authentifié.
PCT/CN2015/092123 2014-11-21 2015-10-16 Procédé et dispositif de gestion de qos de réseaux sans fil WO2016078495A1 (fr)

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CN201410676095.9A CN104507126B (zh) 2014-11-21 2014-11-21 一种实现无线网络QoS管理的方法及装置

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