CN109039760A - A kind of artificial service single-deck Design Internet Applications method and system of layering - Google Patents
A kind of artificial service single-deck Design Internet Applications method and system of layering Download PDFInfo
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- CN109039760A CN109039760A CN201810970830.5A CN201810970830A CN109039760A CN 109039760 A CN109039760 A CN 109039760A CN 201810970830 A CN201810970830 A CN 201810970830A CN 109039760 A CN109039760 A CN 109039760A
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L41/00—Arrangements for maintenance, administration or management of data switching networks, e.g. of packet switching networks
- H04L41/14—Network analysis or design
- H04L41/145—Network analysis or design involving simulating, designing, planning or modelling of a network
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04J—MULTIPLEX COMMUNICATION
- H04J3/00—Time-division multiplex systems
- H04J3/16—Time-division multiplex systems in which the time allocation to individual channels within a transmission cycle is variable, e.g. to accommodate varying complexity of signals, to vary number of channels transmitted
- H04J3/1605—Fixed allocated frame structures
- H04J3/1652—Optical Transport Network [OTN]
- H04J3/167—Optical Transport Network [OTN] interaction with SDH/SONET, e.g. carrying SDH/SONET frames, interfacing with SDH/SONET
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L12/00—Data switching networks
- H04L12/28—Data switching networks characterised by path configuration, e.g. LAN [Local Area Networks] or WAN [Wide Area Networks]
- H04L12/46—Interconnection of networks
- H04L12/4633—Interconnection of networks using encapsulation techniques, e.g. tunneling
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L45/00—Routing or path finding of packets in data switching networks
- H04L45/68—Pseudowire emulation, e.g. IETF WG PWE3
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04J—MULTIPLEX COMMUNICATION
- H04J3/00—Time-division multiplex systems
- H04J3/16—Time-division multiplex systems in which the time allocation to individual channels within a transmission cycle is variable, e.g. to accommodate varying complexity of signals, to vary number of channels transmitted
- H04J3/1605—Fixed allocated frame structures
- H04J3/1611—Synchronous digital hierarchy [SDH] or SONET
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04J—MULTIPLEX COMMUNICATION
- H04J3/00—Time-division multiplex systems
- H04J3/16—Time-division multiplex systems in which the time allocation to individual channels within a transmission cycle is variable, e.g. to accommodate varying complexity of signals, to vary number of channels transmitted
- H04J3/1605—Fixed allocated frame structures
- H04J3/1623—Plesiochronous digital hierarchy [PDH]
Abstract
The invention discloses a kind of artificial service single-deck Design Internet Applications method and system of layering, are related to artificial service technical field;Artificial service single-deck application software is divided into LIU layers of power port, optical port optical module layer, SDH sections of layers, SDH high-level, SDH low order layer, E1 layers of PDH, PW layers of link and ETH layers of ether according to operation level by the present invention, and each layer identification code of independent compilation is to realize the function of each artificial service layer;Further according to the business demand of all types of artificial service single-decks, corresponding artificial service layer combination compiling is selected, the corresponding application software of all types of artificial service single-decks is generated;The exploitation of application software suitable for all artificial service single-decks can be realized artificial service single-deck application software using the unified platform, and Unicode is unified to safeguard;Each artificial service layer is mutually indepedent, and coupling is small, can individually be made into small CBB, be easily modified, safeguards and use.
Description
Technical field
The present invention relates to artificial service technical fields, and in particular to a kind of artificial service single-deck Design Internet Applications of layering
Method and system.
Background technique
CES (Circuit Emulation Service, circuit emulation service) uses PWE3 (Pseudo-Wire
Emulation Edge to Edge, the pseudo wire emulation of edge-to-edge) emulation technology, TDM is carried in PWE3 heading
The frame format information of (Time Division Multiplex, time division multiplexing) Business Stream, warning information, signaling information with
And synchronous timing information.PW (Pseudo Wire, pseudo-wire) message after encapsulation passes through MPLS (Multi- after protocol encapsulation
Protocol Label Switch, multiprotocol label switching) tunnel is in PSN network transmission, and arrival PW is decapsulated behind outlet, most
TDM circuit is rebuild afterwards exchanges Business Stream.(Circuit Emulation overPacket, the circuit in packet network are imitative by CEP
It very) provides (same with 2Mbit/s standard based on VC4 (virtual container corresponding with 140Mbit/s quasi-synchronous digital series signal), VC12
Walk the corresponding virtual container of digital hierarchy signal) isostructural SDH (Synchronous Digital Hierarchy, synchronous digital
System) signal service circuit simulation.
In terms of alerting with performance processing, when being emulated using CES, there are this alarms and performance in MSTP (Multi-
Service Transfer Platform, the multi-service transport platform based on SDH) and PTN (Packet
TransportNetwork, Packet Transport Network) boundary conversion work, general AC (Access Circuit, access circuit)
Side alarm and performance can be terminated in boundary, will not be transmitted to opposite end;And CEP emulation is based on VC (Virtual
Container, virtual container) rank, complete alarm and performance conversion may be implemented, opposite end may be implemented after solving VC signal
Complete SDH service feature and alarm monitoring.
According to corresponding artificial service, artificial service single-deck has two major classes: CES artificial service single-deck and CEP artificial service
Single-deck.CES artificial service single-deck is divided into E1 artificial service single-deck (panel interface is E1 electrical interface) and STM-N according to panel interface
Artificial service single-deck (panel interface is STM-N optical interface);CEP artificial service single-deck is divided into VC4CEP according to emulation granular size
Artificial service single-deck and VC12CEP artificial service single-deck.
It, need to be corresponding using corresponding artificial service single-deck and artificial service single-deck when realizing different types of artificial service
Application software.If necessary to switch artificial service, then need in different artificial service single-decks and its corresponding application software
Between switch, complicated for operation, code development and maintenance cost are high.Therefore, it needs a kind of suitable for all artificial service single-decks
The development plan of application software.
Summary of the invention
In view of the deficiencies in the prior art, the purpose of the present invention is to provide a kind of artificial service single-decks of layering to answer
With software design approach and system, the exploitation of the application software suitable for all artificial service single-decks.
To achieve the above objectives, the technical solution adopted by the present invention is that: a kind of artificial service single-deck application software of layering
Design method, comprising:
By artificial service single-deck application software according to operation level be divided into LIU layers of power port, optical port optical module layer, SDH sections of layers,
SDH high-level, SDH low order layer, E1 layers of PDH, PW layers of link and ETH layers of ether, each layer identification code of independent compilation is to realize each emulation
The function of operation layer;
According to the business demand of all types of artificial service single-decks, corresponding artificial service layer is selected to be combined compiling,
Generate the corresponding application software of all types of artificial service single-decks.
Based on the above technical solution, it is used for for described power port LIU layers: E1 electrical interface signals is completed by LIU chip
Pattern conversion, and monitor related alarm and the error code of power port;
Optical port optical module layer is used for: being executed the photoelectric conversion of service signal, is controlled the switch of optical module, and monitors optical module
Alarm, performance and state;
SDH sections of layers are used for: configuration SDH regenerator section and multiplex section expense, and to SDH section layers it is relevant alert, performance and
State is acquired, handles and reports;
SDH high-level is used for: the expense of configuration SDH administrative unit and higher order path, and to the relevant announcement of SDH high-level
Alert, performance and state are acquired, handle and report;
SDH low order layer is used for: the expense of configuration SDH tributary unit and low order channel, and to the relevant announcement of SDH low order layer
Alert, performance and state are acquired, handle and report;
E1 layers of PDH are used for: E1 layers of PDH relevant alarm, performance and state are acquired, handle and are reported;
PW layers of link are used for: the expense of collocation link layer, and carry out to alarm relevant to PW layers of link, performance and state
It acquires, handle and reports;
ETH layers of ether are used for: ETH layers of ether relevant alarm, performance and state are acquired, handle and are reported.
Based on the above technical solution, all types of artificial service single-deck includes the CES emulation industry of E1 interface
Business single-deck, the CES artificial service single-deck of STM-N interface, the VC4 particle CEP artificial service single-deck of STM-N interface and STM-N connect
The VC12 particle CEP artificial service single-deck of mouth.
Based on the above technical solution, the life of the corresponding application software of CES artificial service single-deck of the E1 interface
At process are as follows: power port LIU layers of combination, E1 layers of PDH, PW layers of link, ether ETH four layers of artificial service layer of layer are compiled, and are generated
The corresponding application software of CES artificial service single-deck of E1 interface.
Based on the above technical solution, the corresponding application software of CES artificial service single-deck of the STM-N interface
Generating process are as follows: combination optical port optical module layer, SDH sections of layers, SDH high-level, SDH low order layer, E1 layers of PDH, PW layers of link and with
Seven layers of artificial service layer of too ETH layer are compiled, and generate the corresponding application software of CES artificial service single-deck of STM-N interface.
Based on the above technical solution, the VC4 particle CEP artificial service single-deck of the STM-N interface is corresponding answers
With the generating process of software are as follows: combination optical port optical module layer, SDH sections of layers, SDH high-level, PW layers of link and five layers of layer of ether ETH
Artificial service layer is compiled, and generates the corresponding application software of VC4 particle CEP artificial service single-deck of STM-N interface.
Based on the above technical solution, the VC12 particle CEP artificial service single-deck of the STM-N interface is corresponding answers
With the generating process of software are as follows: combination optical port optical module layer, SDH sections of layers, SDH high-level, SDH low order layer, PW layers of link and with
Six layers of artificial service layer of too ETH layer are compiled, and generate the corresponding application of VC4 particle CEP artificial service single-deck of STM-N interface
Software.
The invention also discloses a kind of artificial service single-deck Design Internet Applications systems of layering, comprising:
Hierarchical design module is used to artificial service single-deck application software being divided into LIU layers of power port, light according to operation level
Mouth optical module layer, SDH sections of layers, SDH high-level, SDH low order layer, E1 layers of PDH, PW layers of link and ETH layers of ether, independent compilation
Each layer identification code is to realize the function of each artificial service layer;
Collector is combined, is used to select corresponding emulation according to the business demand of all types of artificial service single-decks
Business layer identification code is combined compiling, generates the corresponding application software of all types of artificial service single-decks.
Based on the above technical solution, it is used for for described power port LIU layers: E1 electrical interface signals is completed by LIU chip
Pattern conversion, and monitor related alarm and the error code of power port;
Optical port optical module layer is used for: being executed the photoelectric conversion of service signal, is controlled the switch of optical module, and monitors optical module
Alarm, performance and state;
SDH sections of layers are used for: configuration SDH regenerator section and multiplex section expense, and to SDH section layers it is relevant alert, performance and
State is acquired, handles and reports;
SDH high-level is used for: the expense of configuration SDH administrative unit and higher order path, and to the relevant announcement of SDH high-level
Alert, performance and state are acquired, handle and report;
SDH low order layer is used for: the expense of configuration SDH tributary unit and low order channel, and to the relevant announcement of SDH low order layer
Alert, performance and state are acquired, handle and report;
E1 layers of PDH are used for: E1 layers of PDH relevant alarm, performance and state are acquired, handle and are reported;
PW layers of link are used for: the expense of collocation link layer, and carry out to alarm relevant to PW layers of link, performance and state
It acquires, handle and reports;
ETH layers of ether are used for: ETH layers of ether relevant alarm, performance and state are acquired, handle and are reported.
Based on the above technical solution, all types of artificial service single-deck includes the CES emulation industry of E1 interface
Business single-deck, the CES artificial service single-deck of STM-N interface, the VC4 particle CEP artificial service single-deck of STM-N interface and STM-N connect
The VC12 particle CEP artificial service single-deck of mouth.
Based on the above technical solution, the life of the corresponding application software of CES artificial service single-deck of the E1 interface
At process are as follows: power port LIU layers of combination, E1 layers of PDH, PW layers of link, ether ETH four layers of artificial service layer of layer are compiled, and are generated
The corresponding application software of CES artificial service single-deck of E1 interface.
Based on the above technical solution, the corresponding application software of CES artificial service single-deck of the STM-N interface
Generating process are as follows: combination optical port optical module layer, SDH sections of layers, SDH high-level, SDH low order layer, E1 layers of PDH, PW layers of link and with
Seven layers of artificial service layer of too ETH layer are compiled, and generate the corresponding application software of CES artificial service single-deck of STM-N interface.
Based on the above technical solution, the VC4 particle CEP artificial service single-deck of the STM-N interface is corresponding answers
With the generating process of software are as follows: combination optical port optical module layer, SDH sections of layers, SDH high-level, PW layers of link and five layers of layer of ether ETH
Artificial service layer is compiled, and generates the corresponding application software of VC4 particle CEP artificial service single-deck of STM-N interface.
Based on the above technical solution, the VC12 particle CEP artificial service single-deck of the STM-N interface is corresponding answers
With the generating process of software are as follows: combination optical port optical module layer, SDH sections of layers, SDH high-level, SDH low order layer, PW layers of link and with
Six layers of artificial service layer of too ETH layer are compiled, and generate the corresponding application of VC4 particle CEP artificial service single-deck of STM-N interface
Software.
Compared with the prior art, the advantages of the present invention are as follows:
The present invention by by application software according to operation level be divided into LIU layers of power port, optical port optical module layer, SDH sections of layers,
SDH high-level, SDH low order layer, E1 layers of PDH, PW layers of link and ETH layers of ether, each layer identification code of independent compilation is to realize each emulation
The function of operation layer;Further according to the business demand of all types of artificial service single-decks, corresponding artificial service layer group is selected to compile in collaboration with
It translates, generates the corresponding application software of all types of artificial service single-decks, the application software suitable for all artificial service single-decks is opened
Hair, can be realized the artificial service single-deck application software unified platform, and unified a set of code is unified to safeguard;Each artificial service layer phase
Mutually independent, coupling is small between each layer, facilitates modification;Each operation layer can individually be made into small CBB (Common Building
Blocks, common Building Block), it is easy to use;Artificial service single-deck suitable for PTN/IPRAN/OTN product line.
Detailed description of the invention
Fig. 1 is that artificial service layer is layered block diagram in the embodiment of the present invention;
Fig. 2 is various types of artificial service single-deck layered combination schematic diagrames in the embodiment of the present invention;
Fig. 3 is that the CES artificial service single-deck function of E1 interface in the embodiment of the present invention realizes process schematic;
Fig. 4 is that the CES artificial service single-deck function of STM-N interface in the embodiment of the present invention realizes process schematic;
Fig. 5 is that the VC4 particle CEP artificial service single-deck function of STM-N interface in the embodiment of the present invention realizes process signal
Figure;
Fig. 6 is that the VC12 particle CEP artificial service single-deck function of STM-N interface in the embodiment of the present invention realizes process signal
Figure.
Specific embodiment
Invention is further described in detail with reference to the accompanying drawings and embodiments.
Embodiment 1:
Shown in Figure 1, the embodiment of the present invention provides a kind of artificial service single-deck Design Internet Applications method of layering, packet
It includes:
By application software according to operation level be divided into LIU layers of power port, optical port optical module layer, SDH sections of layers, SDH high-level,
SDH low order layer, E1 layers of PDH, PW layers of link and ETH layers of ether, each layer identification code of independent compilation is to realize the function of each artificial service layer
Energy;
According to the business demand of all types of artificial service single-decks, corresponding artificial service layer is selected to be combined compiling,
Generate the corresponding application software of all types of artificial service single-decks.
Each layer of table 1 needs processing function module table
Ginseng is shown in Table 1, and LIU layers of the power port pattern for completing E1 electrical interface signals by LIU chip is converted, and is monitored
The related alarm of power port and error code;
Optical port optical module layer is used to execute the photoelectric conversion of service signal, controls the switch of optical module, and monitor optical module
Alarm, performance and state.
SDH sections of layers are used to configure the expense of SDH regenerator section and multiplex section, and to the relevant alarm of SDH sections of layers, performance and shape
State is acquired, handles and reports;
SDH high-level is used to configure the expense of SDH administrative unit and higher order path, and to the relevant alarm of SDH high-level,
Performance and state are acquired, handle and report.
SDH low order layer is used to configure the expense of SDH tributary unit and low order channel, and to the relevant alarm of SDH low order layer,
Performance and state are acquired, handle and report.
E1 layers of PDH for being acquired, handling and reporting to E1 layers of PDH relevant alarm, performance and state;
PW layers of link are used for the expense of collocation link layer, and carry out to alarm relevant to PW layers of link, performance and state
It acquires, handle and reports.
ETH layers of ether for being acquired, handling and reporting to ETH layers of ether relevant alarm, performance and state.
Embodiment 2:
On the basis of embodiment 1, shown in Figure 2, all types of artificial service single-decks includes the CES emulation of E1 interface
Business single-deck, the CES artificial service single-deck of STM-N interface, STM-N interface VC4 particle CEP artificial service single-deck and STM-N
The VC12 particle CEP artificial service single-deck of interface.
The generating process of the corresponding application software of CES artificial service single-deck of E1 interface are as follows: combination power port LIU layers, PDH
E1 layers, PW layers of link, ether ETH four layers of artificial service layer of layer be compiled, the CES artificial service single-deck for generating E1 interface is corresponding
Application software.
The generating process of the corresponding application software of CES artificial service single-deck of STM-N interface are as follows: combination optical port optical module
Layer, SDH sections of layers, SDH high-level, SDH low order layer, E1 layers of PDH, PW layers of link and seven layers of artificial service layer of ether ETH layer carry out
Compiling generates the corresponding application software of CES artificial service single-deck of STM-N interface.
The generating process of the corresponding application software of VC4 particle CEP artificial service single-deck of STM-N interface are as follows: combination optical port
Optical module layer, SDH section layer, SDH high-level, PW layers of link and ether ETH five layers of artificial service layer of layer are compiled, and generate STM-
The corresponding application software of VC4 particle CEP artificial service single-deck of N interface.
The generating process of the corresponding application software of VC12 particle CEP artificial service single-deck of STM-N interface are as follows: combination optical port
Optical module layer, SDH section layer, SDH high-level, SDH low order layer, PW layers of link and ether ETH six layers of artificial service layer of layer are compiled
It translates, generates the corresponding application software of VC4 particle CEP artificial service single-deck of STM-N interface.
Embodiment 3:
On the basis of embodiment 1, shown in Figure 3, the CES artificial service single-deck function of E1 interface realizes process are as follows:
Panel interface is E1 electrical interface, generates E1 signal frame format after LIU chip completes encoding and decoding, emulates and encapsulate using CES
It is gone out at PW message by PSN network transmission.
Shown in Figure 4, the CES artificial service single-deck function of STM-N interface realizes process are as follows: panel interface STM-N
Optical interface successively passes through the demultiplexing (STM-N- > VC4- > VC12- > E1) of SDH, and it is logical to be packaged into PW message using CES emulation
PSN network transmission is crossed to go out.
Shown in Figure 5, the VC4 particle CEP artificial service single-deck function of STM-N interface realizes process are as follows: panel interface
For STM-N optical interface, successively pass through the demultiplexing (STM-N- > VC4) of SDH, is packaged into PW message using CEP emulation and passes through
PSN network transmission is gone out.
Shown in Figure 6, the VC12 particle CEP artificial service single-deck function of STM-N interface realizes process are as follows: panel interface
For STM-N optical interface, successively pass through the demultiplexing (STM-N- > VC4- > VC12) of SDH, is packaged into PW message using CEP emulation
It is gone out by PSN network transmission.
Embodiment 4:
Present embodiment discloses a kind of artificial service single-deck Design Internet Applications systems of layering, comprising:
Hierarchical design module, be used for by application software according to operation level be divided into LIU layers of power port, optical port optical module layer,
SDH sections of layers, SDH high-level, SDH low order layer, E1 layers of PDH, PW layers of link and ETH layers of ether, each layer identification code of independent compilation is with reality
The now function of each artificial service layer;
Collector is combined, is used to select corresponding emulation according to the business demand of all types of artificial service single-decks
Operation layer is combined compiling, generates the corresponding application software of all types of artificial service single-decks.
LIU layers of the power port pattern for completing E1 electrical interface signals by LIU chip is converted, and is monitored the related of power port and accused
Alert and error code;
Optical port optical module layer is used to execute the photoelectric conversion of service signal, controls the switch of optical module, and monitor optical module
Alarm, performance and state.
SDH sections of layers are used to configure the expense of SDH regenerator section and multiplex section, and to the relevant alarm of SDH sections of layers, performance and shape
State is acquired, handles and reports;
SDH high-level is used to configure the expense of SDH administrative unit and higher order path, and to the relevant alarm of SDH high-level,
Performance and state are acquired, handle and report.
SDH low order layer is used to configure the expense of SDH tributary unit and low order channel, and to the relevant alarm of SDH low order layer,
Performance and state are acquired, handle and report.
E1 layers of PDH for being acquired, handling and reporting to E1 layers of PDH relevant alarm, performance and state;
PW layers of link are used for the expense of collocation link layer, and carry out to alarm relevant to PW layers of link, performance and state
It acquires, handle and reports.
ETH layers of ether for being acquired, handling and reporting to ETH layers of ether relevant alarm, performance and state.
Embodiment 5:
On the basis of embodiment 4, all types of artificial service single-decks include E1 interface CES artificial service single-deck,
The VC12 of the CES artificial service single-deck of STM-N interface, VC4 particle the CEP artificial service single-deck and STM-N interface of STM-N interface
Particle CEP artificial service single-deck.
The generating process of the corresponding application software of CES artificial service single-deck of E1 interface are as follows: combination power port LIU layers, PDH
E1 layers, PW layers of link, ether ETH four layers of artificial service layer of layer be compiled, the CES artificial service single-deck for generating E1 interface is corresponding
Application software.
The generating process of the corresponding application software of CES artificial service single-deck of STM-N interface are as follows: combination optical port optical module
Layer, SDH sections of layers, SDH high-level, SDH low order layer, E1 layers of PDH, PW layers of link and seven layers of artificial service layer of ether ETH layer carry out
Compiling generates the corresponding application software of CES artificial service single-deck of STM-N interface.
The generating process of the corresponding application software of VC4 particle CEP artificial service single-deck of STM-N interface are as follows: combination optical port
Optical module layer, SDH section layer, SDH high-level, PW layers of link and ether ETH five layers of artificial service layer of layer are compiled, and generate STM-
The corresponding application software of VC4 particle CEP artificial service single-deck of N interface.
The generating process of the corresponding application software of VC12 particle CEP artificial service single-deck of STM-N interface are as follows: combination optical port
Optical module layer, SDH section layer, SDH high-level, SDH low order layer, PW layers of link and ether ETH six layers of artificial service layer of layer are compiled
It translates, generates the corresponding application software of VC4 particle CEP artificial service single-deck of STM-N interface.
Embodiment 6:
Shown in Figure 3 on the basis of embodiment 4, the CES artificial service single-deck function of E1 interface realizes process are as follows:
Panel interface is E1 electrical interface, generates E1 signal frame format after LIU chip completes encoding and decoding, emulates and encapsulate using CES
It is gone out at PW message by PSN network transmission.
Shown in Figure 4, the CES artificial service single-deck function of STM-N interface realizes process are as follows: panel interface STM-N
Optical interface successively passes through the demultiplexing (STM-N- > VC4- > VC12- > E1) of SDH, and it is logical to be packaged into PW message using CES emulation
PSN network transmission is crossed to go out.
Shown in Figure 5, the VC4 particle CEP artificial service single-deck function of STM-N interface realizes process are as follows: panel interface
For STM-N optical interface, PW message successively is packaged into using CEP emulation by the demultiplexing (STM-N- > VC4) of SDH and is passed through
PSN network transmission is gone out.
Shown in Figure 6, the VC12 particle CEP artificial service single-deck function of STM-N interface realizes process are as follows: panel interface
For STM-N optical interface, successively pass through the demultiplexing (STM-N- > VC4- > VC12) of SDH, is packaged into PW message using CEP emulation
It is gone out by PSN network transmission.
The present invention is not limited to the above-described embodiments, for those skilled in the art, is not departing from
Under the premise of the principle of the invention, several improvements and modifications can also be made, these improvements and modifications are also considered as protection of the invention
Within the scope of.The content being not described in detail in this specification belongs to the prior art well known to professional and technical personnel in the field.
Claims (14)
1. a kind of artificial service single-deck Design Internet Applications method of layering characterized by comprising
Artificial service single-deck application software is divided into LIU layers of power port, optical port optical module layer, SDH sections of layers, SDH according to operation level
High-level, SDH low order layer, E1 layers of PDH, PW layers of link and ETH layers of ether, each layer identification code of independent compilation is to realize each emulation industry
The function of business layer;
According to the business demand of all types of artificial service single-decks, corresponding artificial service layer is selected to be combined compiling, generated
The corresponding application software of all types of artificial service single-decks.
2. a kind of artificial service single-deck Design Internet Applications method of layering as described in claim 1, it is characterised in that:
Described power port LIU layers are used for: being converted by the pattern that LIU chip completes E1 electrical interface signals, and monitor the correlation of power port
Alarm and error code;
Optical port optical module layer is used for: being executed the photoelectric conversion of service signal, is controlled the switch of optical module, and monitors the announcement of optical module
Alert, performance and state;
SDH sections of layers are used for: the expense of configuration SDH regenerator section and multiplex section, and to the relevant alarm of SDH sections of layers, performance and state
It is acquired, handles and reports;
SDH high-level is used for: the expense of configuration SDH administrative unit and higher order path, and to the relevant alarm of SDH high-level, property
It can be acquired, handle and report with state;
SDH low order layer is used for: the expense of configuration SDH tributary unit and low order channel, and to the relevant alarm of SDH low order layer, property
It can be acquired, handle and report with state;
E1 layers of PDH are used for: E1 layers of PDH relevant alarm, performance and state are acquired, handle and are reported;
PW layers of link are used for: the expense of collocation link layer, and adopt to alarm relevant to PW layers of link, performance and state
Collect, handle and reports;
ETH layers of ether are used for: ETH layers of ether relevant alarm, performance and state are acquired, handle and are reported.
3. a kind of artificial service single-deck Design Internet Applications method of layering as described in claim 1, it is characterised in that: described
All types of artificial service single-decks include the CES artificial service single-deck of E1 interface, STM-N interface CES artificial service single-deck,
The VC4 particle CEP artificial service single-deck of STM-N interface and the VC12 particle CEP artificial service single-deck of STM-N interface.
4. a kind of artificial service single-deck Design Internet Applications method of layering as claimed in claim 3, it is characterised in that: described
The generating process of the corresponding application software of CES artificial service single-deck of E1 interface are as follows: combination power port LIU layers, E1 layers of PDH, link
PW layers, ether ETH four layers of artificial service layer of layer be compiled, generate E1 interface CES artificial service single-deck it is corresponding application it is soft
Part.
5. a kind of artificial service single-deck Design Internet Applications method of layering as claimed in claim 3, it is characterised in that:
The generating process of the corresponding application software of CES artificial service single-deck of the STM-N interface are as follows: combination optical port optical module
Layer, SDH sections of layers, SDH high-level, SDH low order layer, E1 layers of PDH, PW layers of link and seven layers of artificial service layer of ether ETH layer carry out
Compiling generates the corresponding application software of CES artificial service single-deck of STM-N interface.
6. a kind of artificial service single-deck Design Internet Applications method of layering as claimed in claim 3, it is characterised in that:
The generating process of the corresponding application software of VC4 particle CEP artificial service single-deck of the STM-N interface are as follows: combination optical port
Optical module layer, SDH section layer, SDH high-level, PW layers of link and ether ETH five layers of artificial service layer of layer are compiled, and generate STM-
The corresponding application software of VC4 particle CEP artificial service single-deck of N interface.
7. a kind of artificial service single-deck Design Internet Applications method of layering as claimed in claim 3, it is characterised in that:
The generating process of the corresponding application software of VC12 particle CEP artificial service single-deck of the STM-N interface are as follows: combination optical port
Optical module layer, SDH section layer, SDH high-level, SDH low order layer, PW layers of link and ether ETH six layers of artificial service layer of layer are compiled
It translates, generates the corresponding application software of VC4 particle CEP artificial service single-deck of STM-N interface.
8. a kind of artificial service single-deck Design Internet Applications system of layering characterized by comprising
Hierarchical design module is used to artificial service single-deck application software being divided into LIU layers of power port, optical port light according to operation level
Module layer, SDH section layer, SDH high-level, SDH low order layer, E1 layers of PDH, PW layers of link and ETH layers of ether, each layer of independent compilation
Code is to realize the function of each artificial service layer;
Collector is combined, is used to select corresponding artificial service according to the business demand of all types of artificial service single-decks
Layer identification code is combined compiling, generates the corresponding application software of all types of artificial service single-decks.
9. a kind of artificial service single-deck Design Internet Applications system of layering as claimed in claim 7, it is characterised in that:
Described power port LIU layers are used for: being converted by the pattern that LIU chip completes E1 electrical interface signals, and monitor the correlation of power port
Alarm and error code;
Optical port optical module layer is used for: being executed the photoelectric conversion of service signal, is controlled the switch of optical module, and monitors the announcement of optical module
Alert, performance and state;
SDH sections of layers are used for: the expense of configuration SDH regenerator section and multiplex section, and to the relevant alarm of SDH sections of layers, performance and state
It is acquired, handles and reports;
SDH high-level is used for: the expense of configuration SDH administrative unit and higher order path, and to the relevant alarm of SDH high-level, property
It can be acquired, handle and report with state;
SDH low order layer is used for: the expense of configuration SDH tributary unit and low order channel, and to the relevant alarm of SDH low order layer, property
It can be acquired, handle and report with state;
E1 layers of PDH are used for: E1 layers of PDH relevant alarm, performance and state are acquired, handle and are reported;
PW layers of link are used for: the expense of collocation link layer, and adopt to alarm relevant to PW layers of link, performance and state
Collect, handle and reports;
ETH layers of ether are used for: ETH layers of ether relevant alarm, performance and state are acquired, handle and are reported.
10. a kind of artificial service single-deck Design Internet Applications system of layering as claimed in claim 7, it is characterised in that: institute
State all types of artificial service single-decks include the CES artificial service single-deck of E1 interface, STM-N interface CES artificial service single-deck,
The VC4 particle CEP artificial service single-deck of STM-N interface and the VC12 particle CEP artificial service single-deck of STM-N interface.
11. a kind of artificial service single-deck Design Internet Applications system of layering as claimed in claim 10, it is characterised in that: institute
State the generating process of the corresponding application software of CES artificial service single-deck of E1 interface are as follows: combination power port LIU layers, E1 layers of PDH, chain
Road PW floor, four floor artificial service floor of ether ETH floor are compiled, and generate the corresponding application of CES artificial service single-deck of E1 interface
Software.
12. a kind of artificial service single-deck Design Internet Applications system of layering as claimed in claim 10, it is characterised in that:
The generating process of the corresponding application software of CES artificial service single-deck of the STM-N interface are as follows: combination optical port optical module
Layer, SDH sections of layers, SDH high-level, SDH low order layer, E1 layers of PDH, PW layers of link and seven layers of artificial service layer of ether ETH layer carry out
Compiling generates the corresponding application software of CES artificial service single-deck of STM-N interface.
13. a kind of artificial service single-deck Design Internet Applications system of layering as claimed in claim 10, it is characterised in that:
The generating process of the corresponding application software of VC4 particle CEP artificial service single-deck of the STM-N interface are as follows: combination optical port
Optical module layer, SDH section layer, SDH high-level, PW layers of link and ether ETH five layers of artificial service layer of layer are compiled, and generate STM-
The corresponding application software of VC4 particle CEP artificial service single-deck of N interface.
14. a kind of artificial service single-deck Design Internet Applications system of layering as claimed in claim 10, it is characterised in that:
The generating process of the corresponding application software of VC12 particle CEP artificial service single-deck of the STM-N interface are as follows: combination optical port
Optical module layer, SDH section layer, SDH high-level, SDH low order layer, PW layers of link and ether ETH six layers of artificial service layer of layer are compiled
It translates, generates the corresponding application software of VC4 particle CEP artificial service single-deck of STM-N interface.
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