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1、本科生毕业设计(论文)AbstractIn recent years, with the development of the information society, the global Internet business showed an explosive growth trend. The implementation of the fiber optical network of SDH is on the basis of the transmission platform of ZTE MP320, it can provide a simulation environmen

2、t for the entire optic transmission network. This paper studies the technique of SDH network, describes the basic principle of SDH mapping multiplexing, structure of frame, categories of topology, and researches the methods of protection of the optic network. According to the instruction requirement

3、, an optic transmission network with 9 nodes is set up, the services between two nodes are configured through the network with the costs or minimum resources of the network. The system time clock is configured and choose node D as primary clock. Office wire is completed and choose node D as controll

4、er of the network. Multiplexing section protection and path protection is finished. After careful design, realized simulations, performance tests show that the synchronous digital hierarchy network is reasonable, it can be used for practical engineering. Key words: SDH; networks; optical transmissio

5、n; STM-N; networking; multiplexing; optical interfaceTable of ContentsChapter 1 Introduction11.1 Background11.2 Characteristics of SDH network11.3 Research objectives and significance2Chapter 2 SDH Principles42.1 SDH signal frame structure and multiplexing steps42.1.1 SDH signal frame structure42.1.

6、2 SDH multiplexing step62.2 SDH equipment logic function blocks52.3 The basic network topology62.4 Self-healing network8Chapter 3 SDH Network Architectures103.1 A point-to-point SDH link103.2 A SDH Ring Network113.3 Multi-Ring SDH Topology123.4SDH Ring Protection Mechanisms133.5The Ring Protection A

7、rchitectures13Chapter 4 Realization of Optic Transmission Network184.1 Network topology184.2 Networking realization184.2.1 Set up the network nodes194.2.2 Installation of the boards in nodes204.3 System Clock configurations234.4 Office wire configurations264.6 Service configuration274.6.1 A to I 2mb

8、/s*10 service configuration274.6.2 The results of services of network304.7 Service protection configuration324.7.1 Service protection from A to B324.7.1 Service protection results354.8 Multiplexing section protection35References39Acknowledgements40Appendix I41IIIChapter 1 Introduction1.1 BackgroundT

9、he SDH is an international standard that is highly popular and used for its high speed data transfer of the telecommunication and digital signals. This synchronous system has been specially designed in order to provide a simple and flexible network infrastructure. This system has brought a considera

10、ble amount of change in the telecommunication networks that were based on the optical fibers as far as performance and cost were concerned.1.2 Characteristics of SDH network SDH has been able to rapidly develop and this is its own characteristics are inseparable, and its specific features are as fol

11、lows: (1) SDH transmission systems in the world to have a unified frame structure, digital transmission standard rate and standard optical interface is network interworking system, and therefore has good lateral compatibility, it is fully compatible with the existing PDH, and accommodates a variety

12、of new traffic signals, the formation of a global unified standard digital transmission system and improve the reliability of the network; (different levels of the code arrangement) (2) SDH access system flow structure of the payload area of the frame is very regular, and the payload is synchronized

13、 with the network , which uses software, a direct high-speed signal can drop out of the low-speed tributary signals to achieve the characteristics of a multiplex overcome PDH plesiochronous multiplexed manner for all the high-speed signal multiplexing gradual decomposition and regeneration process i

14、s greatly simplified because the DXC, reducing the back- interface multiplex equipment , improved the service delivery network transparency ;(3) As a result of the more advanced add-drop multiplexer (ADM), digital cross-connect (DXC), self-healing capabilities and reassembly branch network becomes s

15、tronger, with a strong survival. Because SDH frame structure arranged a 5 percent overhead bit signal, it is particularly powerful network management functions , and can be unified into a network management system for automation networks , intelligent, channel utilization and reduce network costs an

16、d vascular viability played a positive role;(4) Due to a variety of SDH network topology, the network that it consists of very flexible, it can enhance network monitoring, operation management and auto-configuration capabilities, optimize network performance, but also to network operation and flexib

17、le, safe and reliable, so the network is very complete and diverse; (5) SDH transmission and switching performance has free combination of function blocks composed through its family of devices, to achieve a variety of different levels and network topology is very flexible; (6) SDH does not belong t

18、o a transmission medium which can be used for twisted pair, coaxial cable, but for the transmission of SDH.You need to use high data rate optical fiber. This feature indicates, SDH trunk channels suitable for both, but also for regional channels. For example, Chinas national and provincial trunk cab

19、le network is using SDH, and it is also easy to mix compatible with fiber-optic cable network (HFC). (7) SDH is strictly synchronized to ensure that the entire network is stable and reliable, less error, and easy adjustment and multiplexing.1.3 Research objectives and significance Over the years, in

20、telligent optical transmission technology has been of concern for the industry, it hopes to build intelligent optical transmission network to solve the problem several aspects of the existing transmission network exist: first, the traditional fast-growing online network is difficult to adapt the dat

21、a service with unpredictability, dynamic allocation of network bandwidth. Second, the traditional optical transmission network mainly rely on manual configuration of network connections, time-consuming and difficult to adapt to the modern network expansion needs new business. Third, in order to impr

22、ove the reliability of bearer services, the traditional optical transport networks need to set aside a large amount of spare capacity, reducing the efficiency of the transport network bandwidth usage. In addition, the traditional way to protect business networks is relatively simple, the lack of adv

23、anced protection, restoration and routing functions. Synchronous Digital Hierarchy (SDH) is widely used worldwide metro backbone network, telecommunication network and WAN.SDH transmission system is a combination of high-speed large-capacity optical transmission technology and intelligent network te

24、chnology. It provides convenient and effective data multiplexing and de multiplexing functions, and can reliably transmit data.Chapter 2 SDH Principles2.1 SDH signal frame structure and multiplexing steps2.1.1 SDH signal frame structureThe STM-N (Synchronous Transport Module level-1) is the fiber op

25、tic network transmission standard. It has a bit rate of 155.52 Mbit/s .Higher levels go up by a factor of 4 at a time: the other currently supported levels are STM-4, STM-16, STM-64 and STM-256. Beyond this we have wavelength-division multiplexing (WDM) commonly used in submarine cabling.Frame struc

26、tureThe STM-1 frame is the basic transmission format for SDH (Synchronous Digital Hierarchy). A STM-1 frame has a byte-oriented structure with 9 rows and 270 columns of bytes, for a total of 2,430 bytes (9 rows * 270 columns = 2430 bytes). Each byte corresponds to a 64kbit/s channel.TOH: Transport O

27、verhead (RSOH + AU4P + MSOH)MSOH: Multiplex Section OverheadRSOH: Regeneration Section OverheadAU4P: AU-4 PointersVC4: Virtual Container-4 payload (POH + VC-4 Data)POH: Path OverheadFrame characteristicsThe STM-1 base frame is structured with the following characteristics:Length: 270 column 9 row =

28、2430 bytesByte: 1-byte = 64kbit/s speech channelDuration (Frame repetition time): 125 s i.e. 8000 frame/sRate (Frame capacity): 2430 8 8000 = 155.520 Mbit/sPayload = 2349bytes 8bits 8000frames/sec = 150.336 Mbit/sFig. 2.1 Structure of SDH frameSDH frame structure used to carry a block of information

29、 , each frame is composed of longitudinal and transverse rows 9 columns 270 N bytes , each byte containing 8bit, the frame structure is divided into a section overhead (Section Overhead, SOH) area , STM- N payload area and snap- pointer (AU PTR) three regional district.The above method can be obtain

30、ed when N is an arbitrary value when the rate 14, 16, 64, 256. As can be seen from Figure 1, the entire frame structure is divided into three regions: the section overhead (SOH) to the information payload area and snap pointer. Section overhead (SOH) is the SDH frame structure in order to ensure the

31、 normal transmission of information and additional bytes for network operation, management and maintenance of use, its location in the STM-N frame structure is the first 1 9 N columns the first.The figure describes basic SDH frame consisting of 9 rows and 90 columns. SDH frame is composed of 810 oct

32、ets (bytes). Transmission is carried out row wise from left to right and from top to bottom. Bits are transmitted serially.The STS-1 frame of SDH is composed of section overhead, transport overhead, payload overhead and data part. The frame starts with fixed A1/A2 bit pattern of 0xf628 used for bit/

33、octet synchronization. SDH is referred as octet synchronous. The first three columns of SDH frame is referred as transport overhead. The next 87 columns of the frame are referred as Synchronous payload envelope (SPE). Payload overhead is part of SPE.46Fig. 2.2 Section overheadSTS-1 data rate is abou

34、t 51.84 Mbps. Let us examine how this has been achieved. Every SDH frame repeats once every 125 micro-sec. 90 columns in 9 rows and 8000 times per second and 8 bits per octet give us data rate of 51.84 Mbps. STS is the abbreviation of Synchronous Transport Signal. STS-1 is referred as OC-1(Optical C

35、arrier) after scrambling is done on STS-1.2.1.2 SDH multiplexing stepThe multiplexing principles of SDH follow:Mapping - A process used when tributaries are adapted into Virtual Containers (VCs) by adding justification bits and Path Overhead (POH) information.Aligning - This process takes place when

36、 a pointer is included in a Tributary Unit (TU) or an Administrative Unit (AU), to allow the first byte of the Virtual Container to be located.Multiplexing - This process is used when multiple lower-order path layer signals are adapted into a higher-order path signal, or when the higher-order path s

37、ignals are adapted into a Multiplex Section.Stuffing - SDH has the ability to handle various input tributary rates from PDH. As the tributary signals are multiplexed and aligned, some spare capacity has been designed into the SDH frame to provide enough space for all these various tributary rates. T

38、herefore, at certain points in the multiplexing hierarchy, this space capacity is filled with fixed stuffing bits that carry no information, but are required to fill up the particular frame. Functions to achieve include; reuse the is a low-cost channel layer multiple signals through the code to make

39、 it into the high-speed adjustment channel or multiple high-speed channel layer code signals through the process of adjustment to make it into the multiplex layer. Among them, reuse is reuse roadmap, roadmap ITU-T has a variety of provisions, but a national and regional use only one. Chinas use of S

40、DH signals are multiplexed with the line 10 shown in Figure 2.3.Fig. 2.3. SDH mapping multiplexing principleThe figure on the previous page illustrates the ITU-T SDH multiplexing structure. The notations in the boxes, such as C-1, VC-3, and AU-4, are explained in the table after the figure.At the lo

41、west level, containers (C) are input to virtual containers (VC). The purpose of this function is to create a uniform VC payload by using bit-stuffing to bring all inputs to a common bit-rate ready for synchronous multiplexing. Various containers (ranging from VC-11 at 1.728 Mbit/s to VC-4 at 139.264

42、 Mbit/s) are covered by the SDH hierarchy. Next, VCs are aligned into tributary units (TUs), where pointer processing operations are implemented.These initial functions allow the payload to be multiplexed into TU groups (TUGs). As the figure illustrates, the xN label indicates the multiplexing integ

43、er used to multiplex the TUs to the TUGs. The next step is the multiplexing of the TUGs to higher level VCs, and TUG-2 and TUG-3 are multiplexed into VC-3 (ANSI mappings) and VC-4. These VCs are multiplexed with fixed byte-stuffing to form administration units (AUs) which are finally multiplexed int

44、o the AU group (AUG). This payload then is multiplexed into the Synchronous Transport Module (STM).The information structure level SDH multiplexing step is called Synchronous Transport Module using STM-N (Synchronous Transport, N = 14, 16, 64), in fourfold module, the basic module STM-1. Four STM-1

45、synchronous multiplexing constitute STM-4, 16 个 four STM-1 or STM-4 synchronous multiplexing constitute STM-16, the structure shown in Figure 2.4.Fig. 2.4 Structure of SDH synchronous multiplexingSDH transmission network is composed of different types of network elements connected via fiber-optic ca

46、bles composed of different network element SDH network to complete the transfer function: up / down operations, cross-connect services, such as self-healing network failure.TM - Terminal Multiplexer Terminal: terminal multiplexer used on the site of the network, such as the two endpoints of a chain

47、which is a dual-port device, shown in Fig. 2.5.Fig. 2.5 Terminal MultiplexerADM - Add / Drop Multiplexer: add / drop multiplexer for SDH transmission network adapter at the site, such as the chain of intermediate nodes, or SDH node on the ring is the most used online, the most important one network

48、element, which is a three-port device, as shown in Figure 2.6.Fig.2.6 Add/drop multiplexerREG - regenerative repeater: optical transmission network, there are two regenerative repeater, and a purely optical regenerative repeater, the main power amplifier to extend the optical distance of the optical transmission; other is for pulse regeneration shaping the electric regenerative repeater, mainly through the optical / electrical conversion, sampling the electrical signal, reproduction judgment plastic, electrical / optical conversion, line noise does not ac

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