QoS CONTROL METHOD AND SYSTEM

Description

FIELD OF THE INVENTION

[0001] The invention relates to a technology for the control of Quality of Service (QoS), and more particularly, to a method and a system for the control of QoS for an access network in a Next Generation Network (NGN).

BACKGROUND

[0002] The technology for the control of QoS has become and will continue to be a key technology for a long time in the future. With the convergence of the networks and the IP realization of telecommunication services, especially with the development and maturation of the NGN, the QoS control in the NGN has become the focus of attention for all operators and network equipment providers.

[0003] The NGN is a network based on packet switching. A network based on packet switching is different from a network based on circuit switching. Circuit switching is connection-oriented, while packet switching is connectionless in nature. Therefore, it is very important to guarantee the continuity and quality of communications with high priority over a connectionless packet switching network. It is found that network congestion occurs mostly in the access network near the users; the reason is that the resources of the access network are limited. Applications such as QQ (Chinese instant messaging software), video chatting and Bit Torrent (BT) downloading consume much bandwidth. For a NGN, only increasing the access bandwidth is not enough, and QoS control is necessary in the cases of those applications, in order to meet the QoS requirements of communications with high priority. One of the typical QoS control method is based on call and flow control.

[0004] As shown in Figure 1, a QoS control method based on call admission control and flow control in NGN in a prior art is illustrated. Specifically, a typical bandwidth reservation process is as follows.

[0005] Step 1: A User Equipment (UE) communicates with an Application Function (AF) entity via application layer signaling. During the communication, the AF entity obtains QoS parameters required by a specific UE service.

[0006] Step 2: The AF entity requests a Resource Management Function (RMF) entity for resources of the specific UE service flow.

[0007] Step 3: The RMF entity determines whether the request is acceptable based on the network resources currently available and the resources available for a subscribed user. If the request for resources is acceptable, each of the network elements on the bearing channel, such as the edge device and the gateway illustrated in Figure 1, is controlled, in order to reserve or commit resources. An edge device is an access equipment at the edge of an aggregate network to a core network.

[0008] Step 4: The RMF entity may also notify the UE of the QoS parameters such as the bandwidth and priority of the specific service flow.

[0009] Seen from steps 1 to 4, it is obvious that the QoS control is only performed at the edge device and the gateway, etc.; however, as illustrated in Figure 1, the user data messages from a terminal equipment such as a UE access first an access equipment such as a Digital Subscriber Line Access Multiplexer (DSLAM). The user data messages may have already experienced congestion before they reach the edge device from the UE. In other words, the congestion may occur in the access aggregate network between the UE and the edge device. Therefore, it is urgent to solve the problem of performing QoS control in the access equipment of the access aggregation network, in order to guarantee QoS.

[0010] US 2002/188732 A1 discloses a system and method for allocating bandwidth across a network to and different end point nodes improves the predictability and efficiency of best effort network architectures. Advanced traffic processors associated with end point nodes detect and classify. A packet policy module of the advanced traffic processor allocates bandwidth by applying policy definitions, flow ID rules, and flow policy maps to prioritize packet flows. In one embodiment, bandwidth is allocated on demand on a per-download basis so that bulk file transfers are provided substantially reduced download times through allocation of bandwidth for a premium fee.

[0011] WO 2004/008698 A2 discloses a system for providing multiple quality of service classes to a subscriber using a terminal unit includes a gateway operable to communicate with a network and a base station coupled to the gateway. The base station is operable to communicate with the terminal unit over a wireless interface. The base station is further operable to identify a first quality of service class associated with the first packet and a second quality of service class associated with the second packet using quality of service information. The quality of service information is associated with the first and second applications, and at least a portion of the quality of service information is identified by a network address. In addition, the base station is operable to communicate the first packet to the terminal unit using the first quality of service class and to communicate the second packet to the terminal unit using the second quality of service class.

SUMMARY

[0012] The present invention provides a method, a system and an equipment for QoS control in order to perform QoS control at an access equipment, to further improve QoS.

[0013] The present invention provides a method for QoS control, including:

(a) assigning by a logical link management function entity, a logical link channel to each flow transmitted by a terminal equipment, according to the transmission priority of each flow, notifying the terminal equipment of information about flow classification and information about the logical link channel assigned, and notifying an access equipment of information about the logical link channel assigned and the transmission priority;

(b) classifying by the terminal equipment, user data messages into flows according to the information about flow classification, and transmitting user data messages to the access equipment via the logical link channel; and

(c) performing QoS control, by the access equipment, according to the logical link channel to which each flow corresponds and the transmission priority to which each flow corresponds.

[0014] Step (a) described above further includes:

notifying the terminal equipment of information about a parameter for bandwidth QoS control of each flow;

[0015] After Classifying the user data messages into flows by the terminal equipment and before transmitting user data messages to the access equipment, step (b) further includes:

performing a bandwidth QoS control over each flow according to the parameter for bandwidth QoS control of each flow.

[0016] Step (a) described above further includes:

notifying the access equipment of a parameter for bandwidth QoS control;

[0017] Step (c) specifically includes:

(c1) identifying the transmission priorities of the flows according to the identifications of different logical link channels;

(c2) performing QoS control over the flows transmitted via each logical link channel according to the transmission priority of the logical link channel and the acquired parameter for bandwidth QoS control.

[0018] Assigning a logical link channel to each flow in step (a) includes:

assigning randomly and discretely a logical link channel to each user side port of the access equipment, meanwhile, assigning different logical link channels to different transmission priorities and assigning different logical link channels or the same logical link channel to the same transmission priority.

[0019] The logical link channel assigned is identified with an identification of the logical link channel.

[0020] The identification of the logical link channel includes an identification of a Virtual Local Area Network (VLAN ID) or an identification of a Permanent Virtual Circuit (PVC ID).

[0021] Performing QoS control by the access equipment in step (c2) includes:

after receiving the flows, performing, by the access equipment, QoS control for the received flows at a user side port, according to the transmission, priority of the logical link channel at the port and the parameter for bandwidth QoS control; and/or

before transmitting each flow, performing, by the access equipment, QoS control at a network side port according to the parameter for bandwidth QoS control and the transmission priorities, after a number of logical channelswith the same transmission priority from different user side ports at the network side port are combined.

[0022] The identification of the logical link channel includes a VLAN ID or a PVC ID.

[0023] The terminal equipment includes a user equipment or a remote access equipment.

[0024] The present invention provides a logical link management function entity, including:

a logical link channel assigning unit, configured to assign a logical link channel according to the transmission priority of each flow; and

a notifying unit, configured to notify a terminal equipment of information about a flow classification and information about the logical link channel assigned by the logical link channel assigning unit for each flow, and notify an access equipment of information about the logical link channel assigned by the logical link channel assigning unit and the transmission priority corresponding to each flow.

[0025] The logical link channel assigning unit is configured to assign different logical link channel to different transmission priorities at each user side port of the access equipment at the same time, and to assign different logical link channels or a same logical link channel for a same transmission priority: and the logical link channel is assigned randomly and discretely.

[0026] The present invention provides a QoS control system, including:

[0027] the Logical Link Management Function (LLMF) entity described above;

[0028] a terminal equipment, configured to classify user data messages into each flow according to the information about the flow classification, and transmit the flows to the access equipment via the logical link channel; and

[0029] an access equipment, configured to perform QoS control according to the logical link channel and the transmission priority corresponding to each flow.

[0030] The terminal equipment includes:

a flow classifying unit, configured to classify the user data messages into each flow according to the information of the flow classification; and

a transmitting unit, configured to transmit each flow to the access equipment via the logical link channel assigned respectively.

[0031] The access equipment includes:

an identifying unit, configured to identify the transmission priority corresponding to each flow according to the identification of the logical link channel assigned to each flow, and

a QoS control unit, configured to perform QoS control over the flows transmitted via each logical link channel according to the transmission priority corresponding to each logical link channel.

[0032] The logical link management function entity is further configured to transmit a parameter for bandwidth QoS control to the terminal equipment and the access equiment, wherein

[0033] The terminal equipment is further configured to perform a bandwidth control over each flow according to the parameter for bandwidth QoS control.

[0034] The access equipment is further configured to perform QoS control over the flows transmitted via each logical link channel according to the parameter for bandwidth QoS control corresponding to the logical link channel.

[0035] The QoS control unit includes:

a user side QoS control unit, configured to perform QoS control over the received flows at a user side port side, according to the transmission priority to which the logical link channel at the port corresponds and the parameter for bandwidth QoS control; and/or

a network side QoS control unit, configured to perform QoS control at a network side port according to the parameters for bandwidth QoS control and flow transmission priorities after the flows with the same transmission priority from different user side ports at the network side port are combined, and before each flow is transmitted.

[0036] The logical link management function entity is an independent equipment, or integrated in the access equipment, or integrated in a resource management function entity.

[0037] The terminal equipment includes a user equipment or a remote access equipment.

[0038] Compared with the prior art, the present invention has the following advantages.

[0039] By assigning a logical link channel for each flow transmitted according to the transmission priority of each flow, notifying the terminal equipment of information about the flow classification and information about the logical link channel assigned to each flow, and notifying an access equipment of information about the transmission priority of and the logical link channel, assigned to each flow; by the terminal equipment, classifying, user data messages into each flow according to the information about the flow classification, and transmitting each flow to the access equipment via the logical link channel assigned; by the access equipment, performing QoS control, recording to the logical link channel and the transmission priority of each flow, QoS control may be performed at the access equipment in the invention, in order to improve QoS. Furthermore, in the case that the terminal equipment is a user equipment in the invention, since only the information of the flow classification and the logical link channel are transmitted down to the user equipment, not transmitting the information about the transmission priority, it is possible to prevent a user from using illegally the information when the user knows the priority of the logical link channel, therefore making the terminal more reliable.

BRIEF DESCRIPTION OF THE DRAWINGS

[0040] 

Figure 1 is a diagram illustrating a QoS control method based on call or application in NGN in a prior art;

Figure 2 is a diagram illustrating the structure of a QoS control system in an embodiment of the invention;

Figure 3 is a flowchart illustrating a QoS control method in an embodiment of the invention; and

Figure 4 is a diagram illustrating a QoS control in an embodiment of the invention.

DETAILED DESCRIPTION

[0041] The invention will be further described in detail with reference to the figures, in order to make the objectives, the technical solution and the advantages of the present invention more clear.

[0042] In the prime idea of the invention, a logical link channel is assigned by a logical link management function entity between a terminal equipment and an access equipment based on a flow, to prevent a terminal equipment from using a logical link channel illegally, and to control the access equipment and the terminal equipment to perform the QoS control based on the logical link channel. The detailed description is as follows.

[0043] Referring to Figure 2, it is a diagram illustrating the QoS control system in the invention. The QoS control system in an embodiment of the invention includes mainly a Logical Link Management Function (LLMF) entity 11, a terminal equipment 12, an access equipment 13 and an edge device 14.

[0044] The LLMF 11 is configured to assign a logical link channel for each flow transmitted by a terminal equipment according to a transmission priority corresponding to each flow, notify the terminal equipment 12 of information about the flow classification and the logical link channel assigned, and notify the access equipment 13 of information about the logical link channel assigned and the transmission priority corresponding to the flow.

[0045] The information about the logical link channel may include an identification of the logical link channel.

[0046] Specifically, the logical link management function entity 11 may include a logical link channel assigning unit 111 and a notifying unit 112.

[0047] The logical link channel assigning unit 111 is configured to assign a logical link channel according to a transmission priority of each flow. Specifically, the logical link channel assigning unit 111 may assign a logical link channel to each flow according to the following rule.

[0048] When a logical link channel is assigned, each logical link channel is represented by an identification of the logical link channel, and the identification of the logical link channel is assigned randomly and discretely at each user side port of the access equipment. At the same time, different identifications of the logical link channel are assigned to different transmission priorities, different identifications or a same identification of the logical link channel is assigned to a same transmission priority. In other words, the identifications of the logical link channels for the same transmission priority may be the same or different, as long as the identifications for identifying the logical link channels are assigned randomly and discretely.

[0049] Moreover, the identification of the logical link channel may be an identification of a Virtual Local Area Network (VLAN ID) or an identification of a Permanent Virtual Circuit (PVC ID), or another identification which may distinguish a logical link channel from others, the description of which is omitted here.

[0050] The notifying unit 112 is configured to notify the terminal equipment of the information about the flow classification and the logical link channel assigned by the logical link channel assigning unit 111, and to notify the access equipment of the information about the transmission priority of each flow and the logical link channel assigned by the logical link channel assigning unit 111.

[0051] The terminal equipment 12 is configured to classify user data messages into each flow according to the flow classification information of the flows. The flows are transmitted to the access equipment via the logical link channel assigned. Specifically, the terminal equipment 12 in an embodiment of the invention may include a flow classifying unit 121 and a transmitting unit 122, in order to perform QoS control.

[0052] The flow classifying unit 121 is configured to classify the user data messages into each flow according to the information about flow classification.

[0053] The transmitting unit 122 is configured to transmit each flow classified to the access equipment via the logical link channel assigned.

[0054] The access equipment 13 is configured to perform QoS control according to the logical link channel and the transmission priority that each flow corresponds to. In order to perform QoS control, the access equipment 13 in an embodiment of the invention includes an identifying unit 131 and a QoS control unit 132.

[0055] The identifying unit 131 is configured to identify the transmission priority that each flow corresponds to according to the identification of the logical link channel.

[0056] The QoS control unit 132 is configured to perform QoS control over the flow transmitted via each logical link channel according to the transmission priority that each logical link channel identified corresponds to.

[0057] The logical link management function (LLMF) entity 11 is further configured to notify the terminal equipment 12 and the access equipment 13 of a parameter for bandwidth QoS control. The terminal equipment 12 is further configured to perform a bandwidth control for each flow according to the parameter for bandwidth QoS control after the user data messages have been classified into flows. Specifically, a control unit 123 may be added in the terminal equipment 12 between the flow classifying unit 121 and the transmitting unit 122, and the bandwidth control over each flow is performed by the control unit 123 according to the parameter for bandwidth QoS control. After the transmission priority that the flow corresponds to is identified according to the identifications of different logical link channels, the access equipment 13 is further configured to perform QoS control over the flow transmitted via each logical link channel according to the transmission priority and the parameter for bandwidth QoS control that each logical link channel corresponds to. Specifically, the operation may be performed by the QoS control unit 132 in the access equipment 13.

[0058] The parameter for bandwidth QoS control may include the bandwidths for uplink and downlink transmissions. The bandwidths assigned for uplink and downlink transmissions from and to the terminal equipment 12 are the bandwidths for uplink and downlink transmissions of the logical link channel of the current flow respectively. The bandwidths assigned to uplink and downlink transmissions from and to the access equipment 13 may include the bandwidths for uplink and downlink transmissions of the logical link channel of the current flow, or the bandwidths for uplink and downlink transmissions of the combination of the current flow and the existing flows with the same priority at a single user side port, and/or the bandwidths for uplink and downlink transmissions of the combination of the current flow and the existing flows with the same priority at different user side ports.

[0059] The QoS control unit 132 may further include a user side QoS control unit and/or a network side QoS control unit.

[0060] The user side QoS control unit is configured to perform QoS control at the user side port over the received flow, according to the transmission priority that the logical link channel identified by the identifying unit 131 corresponds to and the bandwidth after the combination of flows received at the port with the same priority, or combine the bandwidths for uplink and downlink transmissions of the logical link channel of the current flows received and the bandwidths for uplink and downlink transmissions of the existing flows with the same priority at the port, perform QoS control at the user side port over the received flows based on the combined bandwidth and the transmission priority, and then transmit the flows after the QoS control to the edge device.

[0061] The network side QoS control unit is configured to perform QoS control at the network side port before the flow is transmitted, according to the transmission priority that the logical link channel at the port corresponds to and the bandwidth after combination of the flows received with the same priority at different user side ports, or combine the bandwidths for uplink and downlink transmissions of data flow with the same transmission priority at different user side ports at the network side port, perform QoS control based on the bandwidths after combination and the different transmission priority to which each combination corresponds, and then transmit the flows to the edge device.

[0062] Preferably, the QoS control system illustrated in Figure 2 further includes an edge device 14. Then, the notifying unit 112 of the logical link management function entity 11 may further be configured to transmit information about the correspondence between the newly assigned identification of the logical link channel and the flow directly or indirectly to the edge device 14. The identification of the logical link channel is taken by the edge device 14 as a matching parameter when the flows are classified. When the identification of the logical link channel marked by a user is transmitted transparently to the edge device, they are checked and matched by the edge device 14; the edge device 14 further continues the QoS control over the received flow transmitted.

[0063] It should be noted that the logical link management function entity 11 in an embodiment of the invention may be an independent equipment, or may be integrated in other equipments such as the access equipment or the resource management function entity.

[0064] The QoS control process is specifically described here below.

[0065] Referring to Figure 3, it is a flow chart illustrating a QoS control method in an embodiment of the invention. The method includes the following steps.

[0066] Step S11: assigning a respective logical link channel to each flow transmitted by a terminal equipment according to the transmission priority of each flow, notifying the terminal equipment of information about the flow classification and the logical link channel assigned, and notifying an access equipment of information about the transmission priority that the flow corresponds to and the logical link channel assigned.

[0067] The flow identification information includes the source IP address, the destination IP address, the source port, the destination port and the protocol type.

[0068] Specifically, the logical link channels are assigned to each flow according to the following rule in an embodiment of the invention.

[0069] Each logical link channel is represented with the identification of the logical link channel when the logical link channel is assigned, and the identification of the logical link channel is assigned randomly and discretely at each user side port of the access equipment. At the same time, different identifications of the logical link channel are assigned to different transmission priorities, different identifications or a same identification of the logical link channel is assigned to a same transmission priority. In other words, the identifications of the logical link channels assigned to flows with the same transmission priorities may be the same or different, as long as the identifications for identifying the logical link channels are assigned randomly and discretely.

[0070] Step S12: The terminal equipment classifies user data messages into flows according to the flow classification information, and then transmits the flows to the access equipment via the logical link channel assigned.

[0071] Step S13: The access equipment performs QoS control according to the logical link channel and the transmission priority that each flow corresponds to.

[0072] It should be noted that the terminal equipment may also be notified of the parameter for bandwidth QoS control in step S11 of an embodiment of the invention. The terminal equipment may also perform bandwidth control over each flow according the parameter for bandwidth QoS control, after classifying the user data messages into flows. The parameter for bandwidth QoS control may include the bandwidths for uplink and downlink transmissions, and the bandwidths for uplink and downlink transmissions may be bandwidths for uplink and downlink transmissions of the logical link channel of the current flow.

[0073] Similarly, in step S11 of an embodiment of the invention, the access equipment may also be notified of the parameter for bandwidth QoS control. The access equipment identifies the transmission priorities to which the flows correspond according to different identifications of the logical link channels, and perform QoS control over the flow transmitted via each logical link channel according to the transmission priorities that each logical link channel correspond to and the parameter for bandwidth QoS control. The information about the parameters for the bandwidth control to and from the access equipment may include the bandwidths for uplink and downlink transmissions. The bandwidths for uplink and downlink transmissions may include the bandwidth for uplink and downlink transmissions of the logical link channel of the current flow, or the bandwidths for uplink and downlink transmissions after combination of the current flow with the same priority at a single user side port with the existing flows, and/or the bandwidths for uplink and downlink transmissions after combination of the current flow with the same priority at a different user side port with the existing flows.

[0074] Specifically, the QoS control performed by the access equipment may include a user side QoS control and a network side QoS control, or anyone of the two QoS controls. The user side QoS control refers to QoS control at the user side port by the access equipment for the flow just received according to the transmission priority that the logical link channel at the port corresponds to and the bandwidth after combination of the received flows with the same priorities at the port, or combining the bandwidths for uplink and downlink transmissions of the logical link channel of the current flow received and the bandwidths for uplink and down link transmissions of the existing flows at the port, performing QoS control based on the combined bandwidth and the transmission priority. The flow after the QoS control has been performed is transmitted, i.e., transmitted to the edge device. The network side QoS control refers to performing QoS control at the network side port according to the transmission priority that the logical link channel at the port corresponds to and the combined bandwidth of the received flows with the same priority at different user side ports, or performing QoS control at the network side port based on the combined bandwidth and the different transmission priorities with which each combination associates after the data flows with the same transmission priorities at different user side ports are combined.

[0075] Furthermore, information about the correspondence between the identification of the newly assigned logical link channel and the flow may be transmitted to the edge device directly or indirectly in step S 11, and a new step S 14 may be added, in which the edge device takes also the identification of the logical link channel as a matching parameter of a flow classification when performing the flow classification. When the identification of the logical link channel identified by the user is transmitted to the edge device, they are checked and matched by the edge device, i.e., the edge device 14 continues the QoS control over the received flow.

[0076] The system and method are described below with a specific embodiment.

[0077] Referring to Figure 4, it is a diagram illustrating an embodiment of the QoS control in the invention. As illustrated in Figure 4, in order to compare the present invention with the prior art illustrated in Figure 1, an embodiment of the present invention takes as examples that the terminal equipment is UE and that the access equipment is DSLAM. As the logical link management function (LLMF) entity, an independent equipment is adopted in the embodiment, ant it has the following functions: substituting for the RMF to issue resource control commands to UE, assigning a logical link channel between the UE and the access equipment DSLAM based on flow, to prevent a user from using the logical link channel illegally, and controlling the access equipment DSLAM and UE to realize QoS control based on logical link channel.

[0078] To facilitate the description, the interface between RMF and UE is defined as a U interface, the interface between LLMF and access equipment DSLAM is defined as an A interface, and the interface between LLMF and RMF is defined as an M interface. In addition, to facilitate the description, VLAN ID of an Ethernet IEEE 802.1Q is used to identify the logical link channel in the embodiment. It should be noted that the invention is not limited to that. Any access technology using similar ID to identify a logical link channel, assigning an ID randomly and dynamically, falls in the scope of the invention.

[0079] Specifically, the process for implementing QoS is as follows.

[0080] Step 1: When a request to establish a QoS channel based on flow is received by an RMF and the request is accepted and controlled locally, a resource control command is transmitted to an LLMF entity through an M interface. The information carried includes: a user side port ID, a flow ID, flow classification information, QoS parameters for the bandwidths for uplink and downlink transmissions, and transmission priorities etc., in which the flow ID is an identifier for a flow assigned by an RMF entity. The flow ID may be used for control, and is not present in the data messages. The flow classification information usually means the IP five tuple information, including, a source IP address, a destination IP address, a source port, a destination port and a protocol type.

[0081] Step 2: After the request is received by the LLMF entity, a VLAN ID is assigned to each flow to identify the logical link channel used by the flow, such as VLAN 1, VLAN 2 and VLAN 3 shown in Figure 4. A VLAN ID is assigned in the following way: A VLAN ID is assigned randomly and is meaningful only at a certain user side port, and a VLAN ID may be reused between different user side ports. At a user side port, an assigned VLAND ID with the same priority may be assigned, and also a VLAND ID which is not used may be assigned randomly, but an assigned VLAND ID with different priority cannot be assigned. After a VLAND ID is released, the priority of a flow may be different from that before when the VLAN ID is once again re-assigned to the flow. A VLAN ID may also be assigned in other ways, which is not described in detail here.

[0082] It is assumed in an embodiment of the invention that a user side port includes N priorities, the transmission priority of the flow to be assigned is P, and then a VLAN may be assigned in the following way:

[0083] 

(a) The first VLAN ID to be assigned is randomly selected from the VLAN ID space. The VLAN ID is put into the set with priority P (It should be noted that once a VLAND ID is assigned, the VLAN ID corresponds to the transmission priority of the related flow, and it is said that the VLAND ID possesses an attribute of the priority). After the step, it may be said that the first assigned VLAND ID possesses the priority of P.

(b) If the VLAN ID assigned is not the first one, the subset with the same transmission priority in the set of assigned VLAN ID may be combined with the set of unassigned VLAN ID, to form a set for assignment. It is assumed that the set for assignment includes M samples, and a random number (RAND) is generated at the same time.

(c) The VLANs in the set for assignment are queued up, and it is assumed that they are numbered from 1 to M.

(d) The VLAND ID value of the sample numbered S = (RAND MOD M) + 1 in the queue is extracted to be used as the newly assigned VLAND ID. In which, RAND MOD M is a RAND modulo M operation.

(e) The VLAND ID assigned in step (d) is assigned as a new VLAN ID, and the VLAN ID is put into the set of priority P. Then the process of assignment ends.

[0084] Step 3: If uplink and downlink flow data with priority of P already exists at the user side port, the LLMF entity combines the existing uplink and downlink flow bandwidth with priority of P at the user side port and the flow bandwidth of the new flow, and calculates the new bandwidths for uplink and downlink transmissions with priority of P at the user side port.

[0085] In this step, the LLMF entity may also combine the flows with the same transmission priorities from different user side ports at the network side, and calculate the new bandwidths for uplink and downlink transmissions with the priority of P from different user side ports at the network side.

[0086] Step 4: The LLMF entity transmits the information obtained in step 2 and 3 via the U interface down to UE, and via the A interface down to the access equipment, respectively.

[0087] When the control is enforced to the UE, the information transmitted includes: the flow classification information, the bandwidths for uplink and downlink transmissions of the logical link channel of the current flow, the newly assigned VLAN ID. The information about the transmission priorities are not necessary to be transmitted to UE. The UE classifies user data messages into different flows according the flow classification information and the corresponding VLAN ID, and a VLAN ID is assigned to the assigned flow. In the mean time, the UE may perform a bandwidth QoS control for each flow according to the bandwidths for uplink and downlink transmissions.

[0088] When controls are enforced to access equipments, the information transmitted may include: the port ID at the user side and the newly assigned VLAN ID, the bandwidths for uplink and downlink transmissions with the priority that the newly calculated VLAN ID corresponds to, information about the transmission priorities. It may further include: ID of the port at the network side of the access equipment, the transmission priority of the port at the network side, the newly calculated combined bandwidths for uplink and downlink corresponding to the priority.

[0089] The access equipment performs QoS control over ports at the user side, based on different transmission priorities, according to the IDs of the ports at the user side, the VLAN ID, the transmission priorities, and the bandwidths for uplink and downlink transmissions at the user side port. Furthermore, the access equipment performs QoS control over ports at the network side, based on the combined flows with different transmission priorities, according the IDs of the ports at the network side, the transmission priorities of ports at the network side and the bandwidths for uplink and downlink transmissions with the respective transmission priority.

[0090] Step 5: Optionally, the LLMF entity returns information about the correspondence between the newly assigned VLAN ID and the flow ID to the RMF entity, and the RMF entity commands the edge device to use the VLAN ID information as a matching parameter when the flows are classified. When a VLAN ID identified by the user equipment is transmitted transparently to the edge device, the VLAN ID is checked and handled by the edge device.

[0091] In Step 3, the combination of flows and the calculation of the bandwidths for uplink and downlink transmissions based on the combined flows may not be performed. Instead, the bandwidths for uplink and downlink transmissions of the current flow may be transmitted directly to the access equipment. In Step 4, the access equipment combines the flows with a same priority at a port at the user side, and then performs QoS control based on the transmission priorities and the bandwidths for uplink and downlink transmissions; At a port at the network side, the access equipment combines the flows with a same priority from different user side ports, and then performs QoS control based on the transmission priorities and the bandwidth for uplink and downlink transmissions.

[0092] The descriptions presented above are only preferred embodiments of the invention, and are not intended to limit the scope ot the invention. Any change, equivalent replacement, modifications within principle of the invention all fall in the scope of the invention.

Claims

1. A QoS control method, characterized in that it comprises:

(a) assigning , by a logical link management function entity (11), a logical link channel to each flow transmitted by a terminal equipment (12) according to the transmission priority of each flow, notifying the terminal equipment (12) of information about flow classification and information about the logical link channel assigned, and notifying an access equipment (13) of information about the logical link channel assigned and the transmission priority;

(b) classifying by the terminal equipment (12), user data messages into flows according to the information about flow classification, and transmitting user data messages to the access equipment (13) via the logical link channel; and

(c) performing QoS control, by the access equipment (13), according to the logical link channel to which each flow corresponds and the transmission priority to which each flow corresponds.

2. The QoS control method according to claim 1, characterized in that the step (a) further comprises:

notifying the terminal equipment (12) of information about a parameter for bandwidth QoS control of each flow; and the step (b) further comprises:

performing a bandwidth QoS control over each flow according to the parameter for bandwidth QoS control of each flow, after classifying the user data messages into flows by the terminal equipment (12) and before transmitting user data messages to the access equipment (13).

3. The QoS control method according to claim 1, characterized in that the step (a) further comprises:

notifying the access equipment (13) of a parameter for bandwidth QoS control; and the step (c) comprises:

(c1) identifying the transmission priorities of the flows according to the identifications of different logical link channels;

(c2) performing QoS control over the flows transmitted via each logical link channel according to the transmission priority of the logical link channel and the acquired parameter for bandwidth QoS control.

4. The QoS control method according to any one of claims 1 to 3, characterized in that the assigning of a logical link channel to each flow in step (a) comprises:

assigning randomly and discretely a logical link channel to each user side port of the access equipment (13), meanwhile, assigning different logical link channels to different transmission priorities and assigning different logical link channels or the same logical link channel to the same transmission priority.

5. The QoS control method according to claim 4, characterized in that the logical link channel assigned is identified with an identification of the logical link channel.

6. The QoS control method recording to claim 5, characterized in that the identification of the logical link channel comprises an identification of a Virtual Local Area Network (VLAN ID) or an identification of a Permanent Virtual Circuit (PVC ID).

7. The QoS control method according to claim 3, characterized in that the performing QoS control by the access equipment (13) in step (c2) comprises:

after receiving the flows, performing, by the access equipment (13), QoS control for the received flows at a user side port, according to the transmission priority of the logical link channel at the port and the parameter for bandwidth QoS control; and/or

before transmitting each flow, performing, by the access equipment (13), QoS control at a network side port according to the parameter for bandwidth QoS control and the transmission priorities, after a number of logical channels with the same transmission priority from different user side ports at the network side port are combined.

8. The QoS control method according to anyone of claims 1 to 3, characterized in that the terminal equipment (12) comprises a user equipment or a remote access equipment (13).

9. A logical link management function entity (11), characterized in that it comprises:

a logical link channel assigning unit (111), configured to assign a logical link channel according to the transmission priority of each flow; and

a notifying unit (112), configured to notify a terminal equipment (12) of information about a flow classification and information about the logical link channel assigned by the logical link channel assigning unit (111) for each flow, and notify an access equipment (13) of information about the logical link channel assigned by the logical link channel assigning unit (111) and the transmission priority corresponding to each flow.

10. The logical link management function entity (11) according to claim 9, characterized in that the logical link channel assigning unit (111) is configured to assign different logical link channels to different transmission priorities at each user side port of the access equipment (13) at the same time, and to assign different logical link channels or a same logical link channel for a same transmission priority; and the logical link channel is assigned randomly and discretely.

11. A QoS control system, characterized in that the system comprises the logical link management function entity (11) according to claim 9 or 10;
a terminal equipment (12), configured to classify user data messages into each flow according to the information about the flow classification, and transmit the flows to the access equipment (13) via the logical link channel; and
an access equipment (13), configured to perform QoS control according to the logical link channel and the transmission priority corresponding to each flow.

12. The QoS control system according to claim 11, characterized in that the terminal equipment (12) comprises:

a flow classifying unit (121), configured to classify the user data messages into each flow according to the information of the flow classification; and

a transmitting unit (122), configured to transmit each flow to the access equipment (13) via the logical link channel assigned respectively.

13. The QoS control system according to claim 11, characterized in that the access equipment (13) comprises:

an identifying unit (131), configured to identify the transmission priority corresponding to each flow according to the identification of the logical link channel assigned to each flow; and

a QoS control unit (132), configured to perform QoS control over the flows transmitted via each logical link channel according to the transmission priority corresponding to each logical link channel.

14. The QoS control system according to claim 11, characterized in that it comprises the logical link management junction entity is further configured to transmit a parameter for bandwidth QoS control to the terminal equipment (12) and the access equipment (13);
the terminal equipment (12) is further configured to perform a bandwidth control over each flow according to the parameter for bandwidth QoS control; and
the access equipment (13) is further configured to perform QoS control over the flows transmitted via each logical link channel according to the parameter for bandwidth QoS control corresponding to the logical link channel.

15. The QoS control system according to claim 13, characterized in that the QoS control unit (132) comprises:

a user side QoS control unit, configured to perform QoS control over the received flows at a user side port side, according to the transmission priority to which the logical link channel at the port corresponds and the parameter for bandwidth QoS control; and/or

a network side QoS control unit, configured to perform QoS control at a network side port according to the parameters for bandwidth QoS control and flow transmissions priorities after the flows with the same transmission priority from different user side ports at the network side port are combined, and before each flow is transmitted.

16. The QoS control system according to any one of claims 12 to 15, characterized in that the logical link management function entity is an independent equipment, or integrated in the access equipment (13), or integrated in a resource management function entity.

17. The QoS control system according to any one of claims 12 to 15, characterized in that the terminal equipment (12) comprises a user equipment or a remote access equipment (13).

Ansprüche

1. QoS-Steuerverfahren, dadurch gekennzeichnet, dass es Folgendes umfasst:

(a) Zuweisen durch eine Funktionsentität (11) für das Management einer logischen Verknüpfung eines Kanals für logische Verknüpfung zu jedem Fluss, der durch eine Endgerätausrüstung (12) übertragen wird, in Übereinstimmung mit der Übertragungspriorität jedes Flusses, Melden von Informationen über die Flussklassifizierung und von Informationen über den zugewiesenen Kanal für logische Verknüpfung an die Endgerätausrüstung (12) und Melden von Informationen über den zugewiesenen Kanal für logische Verknüpfung und der Übertragungspriorität an eine Zugriffsausrüstung (13);

(b) Klassifizieren durch die Endgerätausrüstung (12) von Anwenderdatennachrichten in Flüsse in Übereinstimmung mit den Informationen über Flussklassifikation und Übertragen von Anwenderdatennachrichten zu der Zugriffsausrüstung (13) über den Kanal für logische Verknüpfung; und

(c) Ausführen einer QoS-Steuerung durch die Zugriffsausrüstung (13) in Übereinstimmung mit dem Kanal für logische Verknüpfung, dem jeder Fluss entspricht, und der Übertragungspriorität, der jeder Fluss entspricht.

2. QoS-Steuerverfahren nach Anspruch 1, dadurch gekennzeichnet, dass der Schritt (a) ferner Folgendes umfasst:

Melden von Informationen über einen Parameter zur Bandbreiten-QoS-Steuerung jedes Flusses an die Endgerätausrüstung (12); und der Schritt (b) ferner Folgendes umfasst:

Ausführen einer Bandbreiten-QoS-Steuerung über jeden Fluss in Übereinstimmung mit dem Parameter zur Bandbreiten-QoS-Steuerung jedes Flusses nach dem Klassifizieren der Anwenderdatennachrichten in Flüsse durch die Endgerätausrüstung (12) und vor dem Übertragen von Anwenderdatennachrichten zu der Zugriffsausrüstung (13).

3. QoS-Steuerverfahren nach Anspruch 1, dadurch gekennzeichnet, dass der Schritt (a) ferner Folgendes umfasst:

Melden eines Parameters zur Bandbreiten-QoS-Steuerung an die Zugriffsausrüstung (13); und der Schritt (c) Folgendes umfasst:

(c1) Identifizieren der Übertragungsprioritäten der Flüsse in Übereinstimmung mit den Kennungen verschiedener Kanäle für logische Verknüpfung;

(c2) Ausführen einer QoS-Steuerung über die Flüsse, die über jeden Kanal für logische Verknüpfung übertragen werden, in Übereinstimmung mit der Übertragungspriorität des Kanals für logische Verknüpfung und des erfassten Parameters zur Bandbreiten-QoS-Steuerung.

4. QoS-Steuerverfahren nach einem der Ansprüche 1 bis 3, dadurch gekennzeichnet, dass das Zuweisen eines Kanals für logische Verknüpfung zu jedem Fluss im Schritt (a) Folgendes umfasst:

zufälliges und diskretes Zuweisen eines Kanals für logische Verknüpfung zu jedem anwenderseitigen Port der Zugriffsausrüstung (13) und währenddessen Zuweisen unterschiedlicher Kanäle für logische Verknüpfung zu unterschiedlichen Übertragungsprioritäten und Zuweisen unterschiedlicher Kanäle für logische Verknüpfung oder desselben Kanals für logische Verknüpfung zu derselben Übertragungspriorität.

5. QoS-Steuerverfahren nach Anspruch 4, dadurch gekennzeichnet, dass der zugewiesene Kanal für logische Verknüpfung mit einer Kennung des Kanals für logische Verknüpfung identifiziert wird.

6. QoS-Steuerverfahren nach Anspruch 5, dadurch gekennzeichnet, dass die Kennung des Kanals für logische Verknüpfung eine Kennung eines virtuellen Nahbereichsnetzes (VLAN ID) oder eine Kennung einer permanenten virtuellen Schaltung (PVC ID) umfasst.

7. QoS-Steuerverfahren nach Anspruch 3, dadurch gekennzeichnet, dass das Ausführen der QoS-Steuerung durch die Zugriffsausrüstung (13) im Schritt (c2) Folgendes umfasst:

nach dem Empfangen der Flüsse Ausführen durch die Zugriffsausrüstung (13) einer QoS-Steuerung für die empfangenen Flüsse bei einem anwenderseitigen Port in Übereinstimmung mit der Übertragungspriorität des Kanals für logische Verknüpfung bei dem Port und dem Parameter zur Bandbreiten-QoS-Steuerung;

und/oder

vor dem Übertragen jedes Flusses Ausführen durch die Zugriffsausrüstung (13) einer QoS-Steuerung bei einem netzseitigen Port in Übereinstimmung mit dem Parameter zur Bandbreiten-QoS-Steuerung und den Übertragungsprioritäten, nachdem eine Anzahl logischer Kanäle mit derselben Übertragungspriorität von verschiedenen anwenderseitigen Ports bei dem netzseitigen Port kombiniert worden sind.

8. QoS-Steuerverfahren nach einem der Ansprüche 1 bis 3, dadurch gekennzeichnet, dass die Endgerätausrüstung (12) eine Anwenderausrüstung oder eine Fernzugriffsausrüstung (13) umfasst.

9. Funktionsentität (11) für das Management einer logischen Verknüpfung, dadurch gekennzeichnet, dass sie Folgendes umfasst:

eine Einheit (111) zum Zuweisen eines Kanals für logische Verknüpfung, die konfiguriert ist, einen Kanal für logische Verknüpfung in Übereinstimmung mit der Übertragungspriorität jedes Flusses zuzuweisen; und

eine Meldeeinheit (112), die konfiguriert ist, einer Endgerätausrüstung (12) Informationen über eine Flussklassifikation und Informationen über den Kanal für logische Verknüpfung, der durch die Einheit (111) zum Zuweisen eines Kanals für logische Verknüpfung zugewiesen wird, für jeden Fluss zu melden und einer Zugriffsausrüstung (13) Informationen über den Kanal für logische Verknüpfung, der durch die Einheit (111) zum Zuweisen eines Kanals für logische Verknüpfung zugewiesen wird, und die Übertragungspriorität, die jedem Fluss entspricht, zu melden.

10. Funktionsentität (11) für das Management einer logischen Verknüpfung nach Anspruch 9, dadurch gekennzeichnet, dass die Einheit (111) zum Zuweisen eines Kanals für logische Verknüpfung konfiguriert ist, unterschiedliche Kanäle für logische Verknüpfung unterschiedlichen Übertragungsprioritäten bei jedem anwenderseitigen Port der Zugriffsausrüstung (13) gleichzeitig zuzuweisen und verschiedene Kanäle für logische Verknüpfung oder denselben Kanal für logische Verknüpfung für dieselbe Übertragungspriorität zuzuweisen; und der Kanal für logische Verknüpfung zufällig und diskret zugewiesen wird.

11. QoS-Steuersystem, dadurch gekennzeichnet, dass das System Folgendes umfasst:

die Funktionsentität (11) für das Management einer logischen Verknüpfung nach Anspruch 9 oder 10;

eine Endgerätausrüstung (12), die konfiguriert ist, Anwenderdatennachrichten in jeden Fluss in Übereinstimmung mit den Informationen über die Flussklassifikation zu klassifizieren und die Flüsse zu der Zugriffsausrüstung (13) über den Kanal für logische Verknüpfung zu übertragen; und

eine Zugriffsausrüstung (13), die konfiguriert ist, eine QoS-Steuerung in Übereinstimmung mit dem Kanal für logische Verknüpfung und der Übertragungspriorität, die jedem Fluss entspricht, auszuführen.

12. QoS-Steuersystem nach Anspruch 11, dadurch gekennzeichnet, dass die Endgerätausrüstung (12) Folgendes umfasst:

eine Flussklassifizierungseinheit (121), die konfiguriert ist, die Anwenderdatennachrichten in jeden Fluss in Übereinstimmung mit den Informationen der Flussklassifikation zu klassifizieren; und

eine Übertragungseinheit (122), die konfiguriert ist, jeden Fluss an die Zugriffsausrüstung (13) über den jeweils zugewiesenen Kanal für logische Verknüpfung zu übertragen.

13. QoS-Steuersystem nach Anspruch 11, dadurch gekennzeichnet, dass die Zugriffsausrüstung (13) Folgendes umfasst:

eine Identifizierungseinheit (131), die konfiguriert ist, die Übertragungspriorität, die jedem Fluss entspricht, in Übereinstimmung mit der Kennung des jedem Fluss zugewiesenen Kanals für logische Verknüpfung zu identifizieren; und

eine QoS-Steuereinheit (132), die konfiguriert ist, die QoS-Steuerung über die Flüsse, die über jeden Kanal für logische Verknüpfung übertragen werden, in Übereinstimmung mit der Übertragungspriorität, die jedem Kanal für logische Verknüpfung entspricht, auszuführen.

14. QoS-Steuersystem nach Anspruch 11, dadurch gekennzeichnet, dass:

die Funktionsentität für das Management einer logischen Verknüpfung ferner konfiguriert ist, einen Parameter zur Bandbreiten-QoS-Steuerung an die Endgerätausrüstung (12) und an die Zugriffsausrüstung (13) zu übertragen;

die Endgerätausrüstung (12) ferner konfiguriert ist, eine Bandbreitensteuerung über jeden Fluss in Übereinstimmung mit dem Parameter zur Bandbreiten-QoS-Steuerung auszuführen; und

die Zugriffsausrüstung (13) ferner konfiguriert ist, eine QoS-Steuerung über die Flüsse, die über jeden Kanal für logische Verknüpfung übertragen werden, in Übereinstimmung mit dem Parameter zur Bandbreiten-QoS-Steuerung, der dem Kanal für logische Verknüpfung entspricht, auszuführen.

15. QoS-Steuersystem nach Anspruch 13, dadurch gekennzeichnet, dass die QoS-Steuereinheit (132) Folgendes umfasst:

eine anwenderseitige QoS-Steuereinheit, die konfiguriert ist, eine QoS-Steuerung über die empfangenen Flüsse auf der Seite eines anwenderseitigen Ports in Übereinstimmung mit der Übertragungspriorität, der der Kanal für logische Verknüpfung bei dem Port entspricht, und dem Parameter zur Bandbreiten-QoS-Steuerung auszuführen; und/oder

eine netzseitige QoS-Steuereinheit, die konfiguriert ist, eine QoS-Steuerung bei einem netzseitigen Port in Übereinstimmung mit den Parametern zur Bandbreiten-QoS-Steuerung und den Flussübertragungsprioritäten auszuführen, nachdem die Flüsse mit derselben Übertragungspriorität von verschiedenen anwenderseitigen Ports bei dem netzseitigen Port kombiniert worden sind und bevor jeder Fluss übertragen wird.

16. QoS-Steuersystem nach einem der Ansprüche 12 bis 15, dadurch gekennzeichnet, dass die Funktionsentität für das Management einer logischen Verknüpfung eine unabhängige Ausrüstung ist oder in die Zugriffsausrüstung (13) integriert ist oder in eine Betriebsmittelmanagement-Funktionsentität integriert ist.

17. QoS-Steuersystem nach einem der Ansprüche 12 bis 15, dadurch gekennzeichnet, dass die Endgerätausrüstung (12) eine Anwenderausrüstung oder eine Fernzugriffsausrüstung (13) umfasst.

Revendications

1. Procédé de contrôle de la Qualité de Service, QoS, caractérisé en ce qu'il comprend :

(a) l'assignation, par une entité fonctionnelle de gestion de liaison logique (11), d'un canal de liaison logique à chaque flux transmis par un équipement terminal (12) en fonction de la priorité de transmission de chaque flux, la notification à l'équipement terminal (12) d'informations sur le classement des flux et d'informations sur le canal de liaison logique assigné, et la notification à un équipement d'accès (13) d'informations sur le canal de liaison logique assigné et sur la priorité de transmission,

(b) le classement, par l'équipement terminal (12), de messages de données utilisateur en flux en fonction des informations sur le classement des flux et la transmission de messages de données utilisateur à l'équipement d'accès (13) par l'intermédiaire du canal de liaison logique, et

(c) l'exécution du contrôle de la qualité de service, QoS, par l'équipement d'accès (13), en fonction du canal de liaison logique auquel correspond chaque flux, ainsi que de la priorité de transmission à laquelle correspond chaque flux.

2. Procédé de contrôle de la qualité de service, QoS, selon la revendication 1, caractérisé en ce que l'étape (a) comprend en outre :

la notification à l'équipement terminal (12) d'informations au sujet d'un paramètre pour le contrôle de la qualité de service, QoS, en bande passante de chaque flux, et

l'étape (b) comprend en outre :

l'exécution d'un contrôle de la qualité de service, QoS, en bande passante sur chaque flux en fonction du paramètre pour le contrôle de la qualité de service, QoS, en bande passante de chaque flux, après le classement en flux des messages de données utilisateur par l'équipement terminal (12) et avant la transmission de messages de données utilisateur à l'équipement d'accès (13).

3. Procédé de contrôle de la qualité de service, QoS, selon la revendication 1, caractérisé en ce que l'étape (a) comprend en outre :

la notification à l'équipement d'accès (13) d'un paramètre pour le contrôle de la qualité de service, QoS, en bande passante, et l'étape (c) comprend :

(c1) l'identification des priorités de transmission des flux en fonction des identifications de canaux de liaisons logiques différents,

(c2) l'exécution d'un contrôle de la qualité de service, QoS, sur les flux transmis par l'intermédiaire de chaque canal de liaison logique en fonction de la priorité de transmission du canal de liaison logique et du paramètre acquis pour le contrôle de la qualité de service, QoS, en bande passante.

4. Procédé de contrôle de la qualité de service, QoS, selon l'une quelconque des revendications 1 à 3, caractérisé en ce que l'assignation d'un canal de liaison logique à chaque flux dans l'étape (a) comprend :

l'assignation aléatoire et distincte d'un canal de liaison logique à chaque port du côté utilisateur de l'équipement d'accès (13), et pendant ce temps, l'assignation de canaux de liaisons logiques différents à différentes priorités de transmission ainsi que l'assignation de canaux de liaisons logiques différents ou du même canal de liaison logique à la même priorité de transmission.

5. Procédé de contrôle de la qualité de service, QoS, selon la revendication 4, caractérisé en ce que le canal de liaison logique assigné est identifié grâce à une identification du canal de liaison logique.

6. Procédé de contrôle de la qualité de service, QoS, selon la revendication 5, caractérisé en ce que l'identification du canal de liaison logique comprend l'identification d'un réseau local virtuel (VLAN ID) ou l'identification d'un circuit virtuel permanent (PVC ID).

7. Procédé de contrôle de la qualité de service, QoS, selon la revendication 3, caractérisé en ce que l'exécution du contrôle de la qualité de service, QoS, par l'équipement d'accès (13) à l'étape (c2) comprend :

après la réception des flux, l'exécution par l'équipement d'accès (13) d'un contrôle de la qualité de service, QoS, pour les flux reçus au niveau d'un port du côté utilisateur en fonction de la priorité de transmission du canal de liaison logique au niveau du port et du paramètre de contrôle de la qualité de service, QoS, en bande passante,

et/ou

avant la transmission de chaque flux, l'exécution par l'équipement d'accès (13) d'un contrôle de la qualité de service, QoS, au niveau d'un port du côté réseau en fonction du paramètre de contrôle de la qualité de service, QoS, en bande passante et des priorités de transmission, après qu'un certain nombre de canaux logiques présentant la même priorité de transmission, provenant de différents ports du côté utilisateur,

sont combinés au niveau du port du côté réseau.

8. Procédé de contrôle de la qualité de service, QoS, selon l'une quelconque des revendications 1 à 3, caractérisé en ce que l'équipement terminal (12) comprend un équipement utilisateur ou un équipement d'accès à distance (13).

9. Entité fonctionnelle de gestion de liaison logique (11), caractérisée en ce qu'elle comprend :

une unité d'assignation de canal de liaison logique (111), configurée pour assigner un canal de liaison logique en fonction de la priorité de transmission de chaque flux, et

une unité de notification (112), configurée pour notifier à un équipement terminal (12) des informations sur un classement des flux et des informations sur le canal de liaison logique assigné par l'unité d'assignation de canal de liaison logique (111) pour chaque flux, et pour notifier à un équipement d'accès (13) des informations sur le canal de liaison logique assigné par l'unité d'assignation de canal de liaison logique (111) et sur la priorité de transmission correspondant à chaque flux.

10. Entité fonctionnelle de gestion de liaison logique (11) selon la revendication 9, caractérisée en ce que l'unité d'assignation de canal de liaison logique (111) est configurée pour assigner en même temps des canaux de liaisons logiques différents à différentes priorités de transmission au niveau de chaque port du côté utilisateur de l'équipement d'accès (13), et pour assigner des canaux de liaisons logiques différents ou un même canal de liaison logique pour une même priorité de transmission, et le canal de liaison logique est assigné aléatoirement et de manière distincte.

11. Système de contrôle de la qualité de service, QoS, caractérisé en ce que le système comprend
l'entité fonctionnelle de gestion de liaison logique (11) selon la revendication 9 ou 10, un équipement terminal (12) configuré pour classer des messages de données utilisateur dans chaque flux en fonction des informations sur le classement des flux, et pour transmettre les flux à l'équipement d'accès (13) par l'intermédiaire du canal de liaison logique, et
un équipement d'accès (13) configuré pour effectuer un contrôle de la qualité de service, QoS, en fonction du canal de liaison logique et de la priorité de transmission correspondant à chaque flux.

12. Système de contrôle de la qualité de service, QoS, selon la revendication 11, caractérisé en ce que l'équipement terminal (12) comprend :

une unité de classement en flux (121) configurée pour classer les messages de données utilisateur dans chaque flux en fonction des informations de classement des flux, et

une unité de transmission (122) configurée pour transmettre chaque flux à l'équipement d'accès (13) par l'intermédiaire du canal de liaison logique respectivement assigné.

13. Système de contrôle de la qualité de service, QoS, selon la revendication 11, caractérisé en ce que l'équipement d'accès (13) comprend :

une unité d'identification (131) configurée pour identifier la priorité de transmission correspondant à chaque flux en fonction de l'identification du canal de liaison logique assigné à chaque flux, et

une unité de contrôle de la qualité de service, QoS, (132) configurée pour effectuer un contrôle de la qualité de service, QoS, sur les flux transmis par l'intermédiaire de chaque canal de liaison logique en fonction de la priorité de transmission correspondant à chaque canal de liaison logique.

14. Système de contrôle de la qualité de service, QoS, selon la revendication 11, caractérisé en ce qu'il comprend :

l'entité fonctionnelle de gestion de liaison logique qui est en outre configurée pour transmettre un paramètre pour le contrôle de la qualité de service, QoS, en bande passante à l'équipement terminal (12) et à l'équipement d'accès (13),

l'équipement terminal (12) qui est en outre configuré pour effectuer un contrôle de bande passante sur chaque flux en fonction du paramètre de contrôle de la qualité de service, QoS, en bande passante, et

l'équipement d'accès (13) qui est en outre configuré pour effectuer un contrôle de la qualité de service, QoS, sur les flux transmis par l'intermédiaire de chaque canal de liaison logique en fonction du paramètre de contrôle de la qualité de service, QoS, en bande passante correspondant au canal de liaison logique.

15. Système de contrôle de la qualité de service, QoS, selon la revendication 13, caractérisé en ce que l'unité de contrôle de la qualité de service, QoS, (132) comprend :

une unité de contrôle de la qualité de service, QoS, du côté utilisateur, configurée pour effectuer un contrôle de la qualité de service, QoS, sur les flux reçus au niveau d'un port du côté utilisateur, en fonction de la priorité de transmission à laquelle correspond le canal de liaison logique au niveau du port et du paramètre de contrôle de la qualité de service, QoS, en bande passante, et/ou

une unité de contrôle de la qualité de service, QoS, du côté réseau, configurée pour effectuer un contrôle de la qualité de service, QoS, au niveau d'un port du côté réseau en fonction des paramètres de contrôle de la qualité de service, QoS, en bande passante et des priorités de transmission de flux après que les flux présentant la même priorité de transmission provenant de différents ports du côté utilisateur sont combinés au niveau du port du côté réseau, et avant que chaque flux soit transmis.

16. Système de contrôle de la qualité de service, QoS, selon l'une quelconque des revendications 12 à 15, caractérisé en ce que l'entité fonctionnelle de gestion de liaison logique est un équipement indépendant ou intégré dans l'équipement d'accès (13), ou encore intégré dans une entité fonctionnelle de gestion de ressources.

17. Système de contrôle de la qualité de service, QoS, selon l'une quelconque des revendications 12 à 15, caractérisé en ce que l'équipement terminal (12) comprend un équipement utilisateur ou un équipement d'accès à distance (13).

Drawing