WO2013135156A1 - 一种分布式部署、集中式控制的有线电视网络宽带接入系统 - Google Patents
一种分布式部署、集中式控制的有线电视网络宽带接入系统 Download PDFInfo
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Classifications
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- H04N21/25—Management operations performed by the server for facilitating the content distribution or administrating data related to end-users or client devices, e.g. end-user or client device authentication, learning user preferences for recommending movies
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- H04L41/5009—Determining service level performance parameters or violations of service level contracts, e.g. violations of agreed response time or mean time between failures [MTBF]
- H04L41/5012—Determining service level performance parameters or violations of service level contracts, e.g. violations of agreed response time or mean time between failures [MTBF] determining service availability, e.g. which services are available at a certain point in time
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- H04L41/508—Network service management, e.g. ensuring proper service fulfilment according to agreements based on type of value added network service under agreement
- H04L41/509—Network service management, e.g. ensuring proper service fulfilment according to agreements based on type of value added network service under agreement wherein the managed service relates to media content delivery, e.g. audio, video or TV
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- H04L43/0817—Monitoring or testing based on specific metrics, e.g. QoS, energy consumption or environmental parameters by checking availability by checking functioning
Definitions
- the invention relates to the field of communications, in particular to a cable television network broadband access system with distributed deployment and centralized control. Background technique
- cable TV access networks should gradually be redirected through two-way networks.
- NGB Next Generation Broadcasting Network Evolution Through the transformation and integration of the network, radio and television operators must not only inherit the original video services, but also provide more abundant value-added service types such as data, VOIP, IPTV, VOD and online games.
- broadband access technology based on coaxial cable has become the preferred solution for "two-way network modification of broadcasting and television", using existing cable TV coaxial cable as transmission medium to simultaneously transmit TV and two-way data signals. It can greatly reduce the difficulty and strength of dual-network reconstruction.
- This technology can be applied to residential communities, hotels, hospitals, apartment buildings, office buildings, etc. that have been laid with cable TV coaxial networks.
- the existing coaxial broadband access technology mainly includes two major directions: one is based on CMTS and CM equipment: a two-stage architecture for headend and terminal, using ITU-T J.122, J.222
- CMTS equipment based on protocol systems such as ITU-T J.122 and J.222 is generally designed for tens of thousands of large-scale subscriber units.
- ITU-T J.122 and J.222 is generally designed for tens of thousands of large-scale subscriber units.
- the cost of these devices is unaffordable for operators, so the average bandwidth cost per user is one of the main obstacles that CMTS equipment cannot be applied on a large scale. In addition, it is placed in the central computer room.
- EoC-based system a two-stage architecture for headends and terminals.
- EoC standards including HomePlugAV v HomePlugBPL, HomePNA, MoCA, WIFI down-clocking, etc. These standards are technically superior.
- the present invention provides a distributed deployment and centralized control of a cable television network broadband access system, which is implemented by a system terminal, a system access terminal, and a system head end.
- the three-level distributed deployment and centralized control system architecture can not only realize end-to-end control management and QoS priority guarantee of broadband data services, but also simple network layout, low comprehensive cost and high management efficiency.
- the invention provides a distributed deployment and centralized control cable television broadband access system, which comprises:
- a system terminal configured to receive and send uplink and downlink service data, and receive and respond to access control data and management control data;
- the system access end is configured to perform data format conversion, data forwarding or processing on the uplink and downlink service data, system terminal access control data, and management control data, and send, receive, and perform management control data on the system access end. Answer
- the system head end is configured to perform management control and access control on the system access terminal and the system terminal, and process, aggregate, and forward the uplink and downlink service data.
- the system comprises a plurality of said system terminals, a plurality of said system access terminals and a plurality of said system head ends.
- the system access terminal is configurable to the system terminal access control and management control function, and the system head end has a management control function for the system access end, and the system terminal access control and management control function is Configurable.
- the system access end of the system of the present invention comprises:
- the data decapsulation and encapsulation subsystem is configured to decapsulate and encapsulate the data packet format of the uplink and downlink service data, the system terminal access control data and the management control data, and send, receive, and receive the management control data of the system access terminal.
- Answer The physical framing subsystem is configured to perform frame structure processing, physical layer encapsulation, physical signal reception and transmission on the uplink and downlink service data, system terminal access control data, and management control data.
- the system head end includes: a convergence forwarding subsystem, configured to aggregate and forward the uplink and downlink service data;
- a classification mapping subsystem is configured to classify and map data flows of uplink and downlink service data to perform priority control on service data;
- the service configuration subsystem is configured to register and configure the system access terminal and the system terminal;
- the network management subsystem is configured to manage and configure all the devices related to the system head end, the system access end, the system terminal, and the network. Status monitoring, configuring and managing service priorities and service types for the processing of the uplink and downlink service data at the system head end and the system access end;
- the central control subsystem is configured to configure and manage all subsystems in the system headend, receive, process and transmit management control data of the system terminal and the system access end, and the network management subsystem and the system access terminal and system Management configuration and status monitoring data between terminals perform data format conversion and data forwarding, and perform data on configuration data about service priorities and service types between the network management subsystem and other subsystems, system access terminals, and system terminals. Format conversion and data forwarding;
- the access control subsystem is used for access control of the system access terminal and the system terminal device at the system head end.
- the system access end of the system of the present invention includes: a physical framing subsystem, which is used for implementing frame structure processing, physical layer encapsulation, and physical processing of uplink and downlink service data and system terminal access control data and management control data. Receiving and transmitting signals;
- the system head end includes: a convergence forwarding subsystem, configured to aggregate and forward the uplink and downlink service data;
- a classification mapping subsystem is configured to classify and map data flows of uplink and downlink service data to perform priority control on service data;
- the service configuration subsystem is configured to register and configure the system access terminal and the system terminal;
- the network management subsystem is configured to manage and configure all the devices related to the system head end, the system access end, the system terminal, and the network. Status monitoring, configuring and managing service priorities and service types for the processing of the uplink and downlink service data at the system head end and the system access end;
- Central control subsystem for configuring and managing all subsystems in the system headend Receiving, processing, and transmitting the management control data of the terminal and the system access end, and performing data format conversion and data forwarding on the management configuration and status monitoring data between the network management subsystem and the system access terminal and the system terminal, and the network management device Data format conversion and data forwarding between the system and other subsystems, system access terminals, and system terminals regarding service priorities and service types;
- the access control subsystem is configured to implement access control of the system access terminal and the system terminal device at the head end of the system;
- the data decapsulation and encapsulation subsystem is configured to decapsulate and encapsulate the data packet format of the uplink and downlink service data, the system terminal access control data, and the management control data, and send, receive, and receive the management control data of the system access terminal. Answer.
- the system terminal of the present invention is used in the uplink direction to transmit service data, access control data and management control data to a coaxial cable media converter (CMC) device.
- CMC coaxial cable media converter
- the downlink direction for receiving service data, access control data, and management control data;
- the system access terminal includes a CMC device, and the CMC device includes: a radio frequency interface module, configured to receive service data transmitted by the system terminal in an uplink direction, parse the C-DOCSIS frame of the service data, and The frame data is mapped to VLAN information, a CDT tag is inserted in the Ethernet frame header of the service data, and the service data inserted into the CDT tag is transmitted to the classifying and forwarding module, and the encapsulated C-DOCSIS management information (CDMM) is encapsulated.
- CDMM C-DOCSIS management information
- Transmitted to the system control module in the downlink direction, for receiving the service data transmitted by the classification and forwarding module, identifying the system terminal and the service flow to which the service data belongs according to the CDT tag, and according to the identified terminal and service flow pair Performing traffic shaping and scheduling on the service data, and transmitting the service data to the system to be finalized;
- the system headend includes:
- the configuration system is configured to provide system terminal service provisioning and device configuration services, and implement configuration file generation and delivery, and software upgrade of the system terminal;
- Network management system for configuring, maintaining, and monitoring network devices
- Convergence equipment including:
- the classification forwarding module is configured to map the CDT label to the service tag supported by the aggregation network and send it to the aggregation network in the uplink direction; in the downlink direction, the Ethernet used for the service data transmitted by the aggregation network
- the frame performs VLAN TAG information stripping, performs data stream feature matching on the frame, and performs frame classification according to the matched data stream feature, and inserts a CDT label in the Ethernet frame header of the service data to identify a specific service of the specific terminal. Streaming, and transmitting the service data inserted into the CDT tag to the radio frequency forwarding module;
- the system control module is configured to configure and manage the radio interface module and the classifying forwarding module, and send corresponding response frames to the encapsulated management information (CDMM) transmitted by the radio frequency interface module.
- CDMM encapsulated management information
- the system terminal of the present invention is used to transmit service data, access control data, and management control data to the CMC device in the uplink direction, and to receive the service data in the downlink direction. Access control data and management control data.
- the system access terminal includes a CMC device, and the CMC device includes:
- a system control module configured to configure and manage a radio interface module and a classifying forwarding module, and send a corresponding response frame to the encapsulated management information (CDMM) transmitted by the radio frequency interface module;
- the classification forwarding module is configured to map the CDT label to a service tag supported by the aggregation network and send it to the aggregation network in the uplink direction, and to perform an Ethernet frame for the service data transmitted by the aggregation network in the downlink direction.
- the TAG information is stripped, the data stream feature matching is performed on the frame, and the frame classification is performed according to the matched data stream feature, and a CDT tag is inserted in the Ethernet frame header of the service data to identify a specific service flow of the specific system terminal. And transmitting the service data inserted into the CDT tag to the radio frequency forwarding module;
- the radio frequency interface module is configured to receive service data transmitted by the system terminal in an uplink direction, parse the C-DOCSIS frame of the service data, and perform VLAN information mapping on the frame data, and the Ethernet frame in the service data. Inserting a CDT tag into the header, and transmitting the service data inserted into the CDT tag to the class forwarding module, and transmitting the package CDMM to the system control module; in the downlink direction, receiving the service data transmitted by the classifying forwarding module, according to The CDT tag identifies a system terminal and a service flow to which the service data belongs, and performs traffic shaping and scheduling on the service data according to the identified belonging terminal and the service flow, and transmits the service data to the system terminal;
- the system head end includes: a configuration system, configured to provide a system terminal service provisioning and a device configuration service, and implement configuration file generation and delivery, and software upgrade of the system terminal;
- Network management system for configuring, maintaining, and monitoring network devices
- the aggregation forwarding device is used to complete the access of the metropolitan area network.
- the invention provides a distributed deployment and centralized control cable television network broadband access system, wherein the system is a three-level distributed deployment and centralized control composed of a system terminal, a system access terminal and a system head end.
- System architecture compared with the current cable TV network broadband access technology, generally only the system terminal and the system head end two-stage architecture, the system of the present invention can not only achieve end-to-end control management of broadband data services and The QoS priority is guaranteed, and the network is simple, the overall cost is low, and the management efficiency is high.
- FIG. 1 is a schematic structural diagram of a distributed deployment and centralized control cable television network broadband access system according to a first embodiment of the present invention
- FIG. 2 is a schematic structural diagram of a distributed deployment and centralized control cable television network broadband access system according to a second embodiment of the present invention
- FIG. 3 is a schematic structural diagram of a distributed deployment and centralized control cable television network broadband access system according to a third embodiment of the present invention.
- FIG. 4 is a schematic structural diagram of a distributed deployment and centralized control cable television network broadband access system according to a fourth embodiment of the present invention.
- FIG. 5 is a schematic structural diagram of a distributed deployment and centralized control cable television network broadband access system according to a fifth embodiment of the present invention.
- FIG. 6 is a schematic diagram of another architecture according to a fifth embodiment of the present invention.
- FIG. 7 is a schematic structural diagram of a distributed deployment and centralized control cable television network broadband access system according to a sixth embodiment of the present invention. detailed description
- the system includes: a system terminal 11 for receiving and transmitting uplink and downlink service data, and docking Incoming control data and management control data for receiving and responding;
- the system access terminal 12 is configured to perform data format conversion and data forwarding or processing on the uplink and downlink service data, system terminal access control data, and management control data, and Sending, receiving, and responding to the management control data of the system access end;
- the system head end 13 is configured to perform management control and access control on the system access end and the system terminal, and perform the uplink and downlink service data Processing, aggregation, and forwarding.
- the cable television network broadband access system of the invention is a three-level distributed deployment and centralized control system architecture composed of a system terminal, a system access terminal and a system head end, which can not only realize end-to-end control of broadband data services. Management and QoS priority protection, and simple network, low comprehensive cost and high management efficiency.
- the access control data refers to various communication data between the system head end and the system access end in the initial stage of the work, including but not limited to whether the system terminal is allowed, as part of the entire network system. What kind of transport protocol is used after joining the system, joining the system, the communication time slot and bandwidth allocated by the system terminal.
- the management control data refers to related data about the working state and device parameters of the system terminal between the system terminal and the system access end and the system head end; the processing of the data includes but is not limited to the classification of the data and Mapping, data parsing, data encapsulation, and decapsulation.
- the system access terminal 12 is configurable to the system terminal 11 for access control and management control functions
- the system head end 13 has a management control function for the system access terminal 12 and access of the system terminal 11
- Control and management control functions are configurable.
- the function is configurable, and the functions of the access control and the management control are flexibly configured by the system head end, including but not limited to the scope of the configuration function, the parameter items and thresholds, the adopted data transmission protocol and the type. Support for subsequent feature extensions and upgrades.
- the system headend 13 can manage to control one type of system access terminal 12 or simultaneously manage and control a plurality of different types of system access terminals 12.
- the function of the system access end may have one or more subsystems with different functional scopes including, but not limited to, a physical framing subsystem, a data decapsulation and encapsulation subsystem, an access control subsystem, and a classification mapping subsystem. Because it contains different functional areas The subsystems constitute a plurality of different types of system access terminals, and the system head end can manage to control one type of system access terminal or simultaneously manage and control a plurality of different types of system access terminals.
- the system headend 13 intelligently adapts and supports the data transfer protocol between the system terminal 11 and the system access terminal 12.
- the data transmission protocol of the system head end 13 and the system access end 12 is configurable, and the data transmission protocol may be an IP protocol, an Ethernet protocol, an EPON protocol, a GPON protocol, an NGPON protocol, a 10GEPON protocol, or a WDM. - PON protocol and proprietary protocol.
- the transmission medium of the system head 13 and the system access 12 may be an optical fiber, a coaxial cable, or a combination thereof.
- the data transmission protocol between the system access terminal 12 and the system terminal 11 may be fixed or configurable, and the data transmission protocol may include a C-DOCSIS protocol, a DOCSIS protocol, a HiNOC protocol, and a HomePlugAV protocol. And other public and private agreements based on cable TV networks.
- the transmission medium of the system access terminal 12 and the system terminal 11 may be an optical fiber, a coaxial cable, or a combination thereof.
- FIG. 2 is a schematic diagram of a system architecture according to a second embodiment of the present invention.
- the system may also include a plurality of the system terminals 11-1, 11-2, 11-x, and a plurality of the system access terminals 12 -1, 12-2, 12-n and a plurality of said system head ends 13-1, 13-2, 13-m, such a network-like three-level distributed network architecture, suitable for large cable television metropolitan areas Network and access network systems.
- the system includes: a system access terminal 12, where the system access end includes a data decapsulation and encapsulation subsystem 121 for uplink and downlink.
- the service data, the system terminal access control data, and the management control data perform decapsulation and encapsulation of the data packet, and send, receive, and respond to the management control data of the system access end;
- the physical framing subsystem 122 is configured to The uplink and downlink service data, system terminal access control data, and management control data are subjected to frame structure processing, physical layer encapsulation, physical signal reception and transmission.
- the system head end 13 includes: a convergence forwarding subsystem 136, configured to aggregate and forward the uplink and downlink service data, and a classification mapping subsystem 131, configured to perform data flow on the uplink and downlink service data. Classification and mapping to prioritize business data; service configuration subsystem 132 for registering and configuring system access terminals and system terminals; network management subsystem 133 for accessing system headends and systems Management, configuration, and status monitoring of all the devices in the system, the system terminal, and the network.
- the service priority and service type are configured and managed in the process of processing the uplink and downlink service data at the system head end and the system access end.
- the central control subsystem 134 is configured to configure and manage all subsystems in the system headend, and receive, process, and transmit the management control data of the system terminal and the system access end, and the network management subsystem and the system access end.
- Management configuration and system monitoring data between the system terminal, data format conversion and data forwarding, configuration data about the service priority and service type between the network management subsystem and other subsystems, system access terminals, and system terminals Data format conversion and data forwarding; access control subsystem 135 for system headend to system connection End of the access control system of a terminal device.
- the system terminal 11 is generally an integrated structure for receiving and transmitting uplink and downlink service data, and receiving and responding to access control data and management control data.
- Fourth embodiment is generally an integrated structure for receiving and transmitting uplink and downlink service data, and receiving and responding to access control data and management control data.
- FIG. 4 is a schematic diagram of a system architecture according to a fourth embodiment of the present invention.
- the data decapsulation and encapsulation subsystem 121 can also be disposed in the system head end 13.
- the system access terminal 12 is mainly responsible for service data. Physical framing, this architecture can further simplify the structure of the system access terminal 12 to improve work efficiency and network deployment costs.
- the system includes: the system access terminal 12, the system access end includes: a physical framing subsystem 122, configured to perform frame structure processing on uplink and downlink service data, system terminal access control data, and management control data. , physical layer encapsulation, physical signal reception and transmission.
- the system head end 13 includes: a convergence forwarding subsystem 136, configured to aggregate and forward the uplink and downlink service data, and a classification mapping subsystem 131, configured to classify and map the uplink and downlink service data, to The service data is prioritized; the service configuration subsystem 132 is configured to register and configure the system access terminal and the system terminal; the network management subsystem 133 is configured to the system head end, the system access terminal, the system terminal, and the network.
- All the related devices perform management configuration and status monitoring, and perform service priority and service type configuration and management on the processing process of the uplink and downlink service data at the system head end and the system access end; the central control subsystem 134 For all children in the system header
- the system performs configuration and management, receives, processes, and transmits management control data of the system terminal and the system access end, and performs data format conversion on the management configuration and status monitoring data between the network management subsystem and the system access terminal and the system terminal.
- Access control subsystem 135 The access control of the system access terminal and the system terminal device is implemented at the system head end; the data decapsulation and encapsulation subsystem 121 is configured to perform data packet on the uplink and downlink service data, the system terminal access control data, and the management control data. Decapsulation and encapsulation, sending, receiving and responding to the management control data of the system access terminal.
- FIG. 5 and FIG. 6, are schematic diagrams of a system architecture based on a C-DOCSIS system according to a fifth embodiment of the present invention, wherein the system terminal 11 is a cable modem (CM) 111, and is used for uplinking service data.
- the access control data and the management control data are transmitted to the axis cable media converter (CMC) device; in the downlink direction, the service data, the access control data, and the management control data are received.
- CMC axis cable media converter
- the system access terminal 12 includes a CMC device, and the CMC device includes: a radio frequency interface module 1201, configured to receive service data transmitted by the system terminal 11 in an uplink direction, and parse the C-DOCSIS frame of the service data. And mapping the frame data to the VLAN information, inserting a CDT tag in the Ethernet frame header of the service data, and transmitting the service data inserted into the CDT tag to the classifying and forwarding module 1311, and managing the encapsulated C-DOCSIS
- the information (CDMM) is transmitted to the system control module 1312; in the downlink direction, the service data transmitted by the classification and forwarding module 1311 is received, and the system terminal 11 and the service flow to which the service data belongs are identified according to the CDT tag, and according to the identification
- the belonging terminal 11 and the service flow perform traffic shaping and scheduling on the service data, and transmit the service data to the system terminal 11.
- the system head end 13 includes: a configuration system 1301, configured to provide a system terminal 11 service provisioning and device configuration service, to implement configuration file generation and delivery, and software upgrade of the system terminal 11;
- the network device is configured, maintained, and monitored.
- the aggregation device 1303 includes: a class forwarding module 1311. In the uplink direction, the CDT label is mapped to a service tag supported by the aggregation network and sent to the aggregation network.
- the Ethernet frame performs stripping of the VLAN TAG information, performs data stream feature matching on the frame, and performs frame classification according to the matched data stream feature, and inserts a CDT label in the Ethernet frame header of the service data to identify the specific terminal 11
- the specific service flow is transmitted to the radio frequency forwarding module 1201.
- the system control module 1312 is configured to configure and manage the radio interface module 1201 and the class forwarding module 1311.
- the distributed architecture of the embodiment is adopted, wherein the CMC device is located in a position close to the user side in the network, such as a cable head or a cell optical node in the cable television HFC network, and implements the function of the radio interface module in the system head end, and utilizes the convergence at the same time.
- the network device implements the functions of the system control module and the classification forwarding module.
- the distributed architecture provides a centralized management interface for all CMC devices on the aggregation device and implements some important control functions such as dynamic QoS interfaces and DHCP relays to simplify network configuration.
- the CMC adopting such a distributed architecture does not require a system control module and a classification module, which can reduce cost and complexity and increase the reliability of the device.
- the system terminal adopts the C-DOCSIS-compliant CM to implement the function of the cable terminal.
- the aggregation device may be an OLT, a switch, and a router device of the PON system, and correspondingly, the physical channel between the aggregation device and the CMC may be a PON optical network and a Gigabit Ethernet, and C-DOCSIS is used between the CMC and the CM. Protocol transmission.
- FIG. 7 is a schematic diagram of an architecture according to a sixth embodiment of the present invention
- the embodiment is also based on a C-DOCSIS system, which is different from the fifth embodiment in that the system in this embodiment transfers the system control module 1201.
- the module 1312 and the radio interface module 1311 are collectively set in a CMC device to implement the function of the system access end.
- the aggregation and forwarding device only needs to provide an IP channel, and can adopt a general aggregation forwarding device, such as an OLT, an Ethernet switch, or a router. Without special development.
- the system terminal 11 is a cable modem (CM) 111 for transmitting service data, access control data, and management control data to the CMC device in the uplink direction, and for receiving service data and access in the downlink direction.
- CM cable modem
- the system access terminal 12 includes a CMC device, and includes: a system control module 1201, Configuring and managing the radio interface module 1311 and the classifying and forwarding module 1312, and sending the corresponding response frame to the encapsulated management letter-bi CDMM transmitted by the radio frequency interface module 1311; the classifying and forwarding module 1312, in the uplink direction, for the CDT
- the label is mapped to the service tag supported by the aggregation network and sent to the aggregation network.
- the Ethernet frame of the service data transmitted by the aggregation network is stripped of the VLAN TAG information, and the data stream feature matching is performed on the frame.
- the radio frequency forwarding module 1312 is configured to receive the service data transmitted by the system terminal 11 in the uplink direction, parse the C-DOCSIS frame of the service data, and perform mapping of the VLAN information of the frame data.
- the system head end 13 includes: a configuration system 1301, configured to provide a system terminal 11 service provisioning and a device configuration service, to implement configuration file generation and delivery, and software upgrade of the system terminal 11; and a network management system 1302.
- the network device is configured, maintained, and monitored; the aggregation and forwarding device 1303 is configured to complete the access of the metropolitan area network.
- CM is a user-side device that communicates with the radio interface module through a coaxial cable to implement access of the client device.
- CM is a CM module compatible with ITU-T J.122 and J.222 standards.
- the CDT (C-DOCSIS Data Tag) tag defines an identification format of a data plane between the classification forwarding module and the radio interface module, and the CDT label uses an 802.1P/Q VLAN tag format.
- the CDT tag includes a CoS field, which is a service flow reference identifier, and a VID field, which is a terminal identifier, and the CoS field and the CoS field are combined to specify a specific service flow of a specific system terminal.
- CDMM C-DOCSIS Management Message defines a control message and message format between the system control module and the radio interface module, and the CDMM message is used for the system control module.
- Exchange configuration, status, and management information with the RF interface module including channel and parameter configuration, transmit and receive status and statistics, load balancing, cable termination status, cable terminal registration information, dynamic traffic flow operations, multicast, and security Information, etc.
- the CDMM when the length of the CDMM is greater than the maximum transmission length of the transport layer, the CDMM is frame-sliced, and each fragment is a protocol data unit (PDU) of the CDMM, and the CDMM includes The first PDU and the subsequent PDU, and encapsulate the framed CDMM.
- PDU protocol data unit
- the configuration system provides the service and device configuration service of the entire coaxial cable access system, generates and delivers the configuration file, and performs software upgrade on the terminal device.
- the configuration system can include a DHCP server, a profile server, a software download server, a clock protocol server, and a policy server.
- the DHCP server is configured to provide initial configuration information for the cable terminal and the user equipment, including an IP address
- the configuration file server is configured to provide configuration file downloading when the cable terminal is started, and the configuration file may include configuration parameters of the cable terminal.
- the software download server is used to provide software download for the cable terminal upgrade;
- the clock protocol server is the clock protocol client to provide the correct time for the cable terminal.
- the network management system mainly includes an SNMP management system and a Syslog server.
- the SNMP management system can configure and monitor the system headend and cable terminal through the SNMP protocol.
- the Syslog server collects messages related to device operations.
- the system terminal 11 communicates with the system access terminal 12 via a radio frequency interface (RFI) 31.
- the radio frequency interface module 1311 defines a MAC layer and a PHY layer interface specification between the system access terminal 12 and the system terminal 11; the radio frequency interface module 1311 may also define only the system access terminal 12 and the system terminal.
- the PHY layer interface specification between 11; the class forwarding module 1312 of the system head end 13 defines a MAC layer interface specification between the system access terminal 12 and the system terminal 13.
- the system head end 13 communicates with the aggregation network through a network side interface (NSI) 34, and the network side interface 34 defines a physical interface and a service flow between the system head end 13 and the aggregation network.
- the physical interface may be a physical interface of a Gigabit Ethernet, a 10 Gigabit Ethernet, an EPON, a GPON, or a 10G PON
- the service flow mapping logic may define a mapping relationship between a service flow of the coaxial cable and a VLAN of the aggregation network.
- the data packet can carry the VLAN field or no VLAN field.
- the system head end can support the mapping of the uplink service flow of the coaxial cable to the corresponding NSI.
- the VLAN ID and the priority of its traffic flow is mapped to the priority of the VLAN.
- the system access terminal can also modify the uplink and downlink IP precedence (TOS/DSCP).
- the aggregation and forwarding device can perform priority scheduling based on the priority of the VLAN or the IP precedence (TOS/DSCP).
- the system head end 13 communicates with the network management system 1302 and the configuration system 1301 through an operation and maintenance management interface (OMI) 35.
- OMI operation and maintenance management interface
- the network management system configures, maintains, and monitors network devices through OMI, using SNMP protocols and command line interfaces.
- the configuration system provides configuration services for service provisioning through the OMI interface.
- the CM obtains dynamic addresses through DHCP.
- the configuration file is obtained through TFTP.
- the policy server uses the OMI interface to use the common open policy service (COPS).
- COPS common open policy service
- the protocol communicates with the system access terminal, and the system access terminal creates a C-DOCSIS dynamic service flow to implement dynamic QoS guarantee of the service.
- the system control module 1312 communicates with the classification and forwarding module 1311 through a control and classification and forwarding module (CCI) 33 interface.
- CCI control and classification and forwarding module
- the system control module reports the information through the CCI according to the radio frequency interface module.
- the C-DOCSIS service flow information is configured with a classification forwarding module accordingly.
- the classification forwarding module extracts the specific protocol packets required by the system control function to the system control module, such as the DHCP message and the CPD message.
- the distributed deployment and centralized control of the cable television network broadband access system is a three-level distributed deployment and centralized control system architecture composed of a system terminal, a system access terminal and a system head end.
- a system terminal Compared with the current cable television network broadband access technology, only the system terminal and the system head end two-stage architecture are generally adopted, and the system of the present invention can not only realize the end-to-end control management and QoS priority guarantee of the broadband data service, Moreover, the network is simple, the overall cost is low, and the management efficiency is high.
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Abstract
Description
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EP13761891.4A EP2827531A4 (en) | 2012-03-12 | 2013-03-12 | BROADBAND ACCESS SYSTEM FOR CABLE NETWORK WITH DISTRIBUTED INSERT AND CENTRALIZED CONTROL |
US14/384,496 US9832499B2 (en) | 2012-03-12 | 2013-03-12 | Cable TV network broadband access system with distributed deployment and centralized control |
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CN104980221A (zh) * | 2014-04-10 | 2015-10-14 | 上海未来宽带技术股份有限公司 | Hfc网络的光工作站设备与c-docsis野外设备的对接系统及方法 |
CN104980221B (zh) * | 2014-04-10 | 2017-08-25 | 上海未来宽带技术股份有限公司 | Hfc网络的光工作站设备与c‑docsis野外设备的对接系统及方法 |
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EP2827531A1 (en) | 2015-01-21 |
US9832499B2 (en) | 2017-11-28 |
CN102624560A (zh) | 2012-08-01 |
US20150046966A1 (en) | 2015-02-12 |
CN102624560B (zh) | 2016-06-29 |
KR20150002656A (ko) | 2015-01-07 |
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