TR201619169A2 - DWDM Platform - Google Patents

Abstract

The invention is used in the field of telecommunications, in particular, components of DWDM devices; It is related to the DWDM platform, which enables it to be monitored independently of the supplier and to send the detected problems as a warning to the relevant units. The web interface (2) enables authorities (1) to access the DWDM NE inventory, fiber attenuation values, connection topology, the connection and system maps of the suppliers and the real coordinates of the DWDM systems. It ensures that the problematic parts are detected and communicated to the relevant teams. The database (4) records the data automatically received by the transaction server (3), processes and stores the commands it runs.

Description

DESCRIPTION DWDM Platform Technical Area The invention is particularly DWDM in the field of transmission for use in the telecommunications field. components of their devices; monitored and detected independently of the supplier. with the DWDM platform, which ensures that the problems are reported to the relevant units as a warning. State of the Art One of the features available in the DWDM platform from different suppliers in the current art. Types of software and algorithms that are specific to a single supplier and include are available. In addition, DWDM links from different suppliers in existing techniques Kilometer-based loss values of optical cable weakenings are not measured, archive feature and fiber attenuation trend are not visible. Do not write in the mentioned feature even if there are some suppliers that have It is not possible to conduct any review for companies. Each supplier with different methods to examine from different points and different features of each application. (capabilities) with a high number of systems and with different suppliers This makes it difficult to perform single-center processing (observation and analysis) in working networks.

In some applications related to performance management, only DWDM (Dense) Wavelength Division Multiplex i' Dense Wavelength Division Multiplexing) systems Lists and reports to improve the performance of services running on DWDM NE (Network Element) and link (two DWDM systems) line between) inventory, map view and web interface applications does not exist. The fiber routes of the DWDM links are shown in detail. In applications, there is no DWDM NE inventory and attenuation values.

In addition, direct CLI (Command Line) with command lines in Nokia® DWDM systems The automatic detection feature is not available in other applications.

As a result, due to the above-mentioned negativities and existing solutions It is necessary to make an improvement in the relevant technical field due to the inadequacy of the is locked.

Purpose of the Invention The invention was created by being inspired by the current situations, and the above-mentioned negativities aims to solve.

The main purpose of the invention is to improve the features of DWDM devices in the field of communication. is observed independently of the supplier.

Other objects of the invention are as follows: From system A to B of fiber attenuation of DWDM Inks from different suppliers separately for two directions, from system B to system A, and from system B to system A. the individual total attenuation values, the difference between these two values, the existing fiber the attenuation value that should be according to its length, the total attenuation available The difference between the attenuation and the required attenuation, the kilometric of the fiber optic cable. loss values, and whether the link is good or bad according to these values It is to collect the leveling features that show you on a single platform.

Users can access via internet browser as user/web interface. is to present a user-friendly application that provides

Authorized technician working in transmission and fiber units in the telecommunication sector personnel; 6 › connect independent networks to management systems of different companies without the need to be connected separately, 0:' automatically without manual measurement and calculation You can also graphically display the retrospective (with archive feature) attenuation information. to make it possible to see.

True GPS (Global Positioning System) of DWDM systems Positioning System) coordinates to appear on the map and thus It is to provide an easy and healthy understanding of topologies.

Displaying DWDM Inks as directions on the map and meeting attenuation criteria A visual about the status of the fiber Inks of the system with the color of the analysis capability.

. The new DWDM system to be included in the network is automatically included in the application. is to make it happen. (auto discovery feature) - Complete backup of the system and an easy and healthy operation in case of emergency. In this way, it is to ensure that the system is recovered. (backup feature) o Fiber attenuation values determined when DWDM systems were first installed, and The healthiest (highest performance) of traffic running in DWDM systems There are optical power values that need to be adjusted to work properly. It allows comparison with system values. Healthy optical power values reference the planning practices recommended by the suppliers taking determines. (planning applications integration) o By communicating the points identified as problems to the relevant teams working in different units Automation is provided at the stage of problem detection and resolution.

. In Nokia® DWDM systems, the patch cords on the system and each other (short fiber optic cable), the attenuation values between the cards connected, all is to detect collectively by connecting to the systems. Analysis of whether there is a problem it does. (internal link cable attenuation detection) The structural and characteristic features and all advantages of the invention are given in the following figures and It is clearer thanks to the detailed explanation written by making references to these figures. will be understood as such, and therefore the assessment will also include these figures and should be taken into account.

Figures to Help Understand the Invention Figure 1 shows the interconnection of the elements of the system, which is the subject of the invention. is the figure showing. The double-sided arrows used between some elements in the figure, these elements It shows two-way communication between

Figure 2 is the actual map of sample DWDM topologies presented in the web interface. Drawings do not necessarily need to be scaled and to understand the present invention Unnecessary details may be omitted. Other than that, at least elements that are substantially identical, or at least with substantially identical functions, indicated by the same number.

Description of Part References Official web interface process server Database First supplier DWDM systems Second supplier DWDM management systems Third-party DWDM management systems fiber map server FOPONQWPWN? Notification server . Password verification server Detailed Description of the Invention In this detailed description, preferred embodiments of the invention are merely better suited to the subject. for understanding and without any limiting effect is explained.

The invention is a DWDM detailed below for use in the telecommunications field. A system that enables the monitoring of system components independent of the supplier. it's the system. DWDM (Dense Wavelength Division Multiplexing i' Dense Wavelength Split Multiplexing) systems are used in the telecommunications industry for high fiber optic data (such as voice, video, internet traffic, private communication traffic) It is the name given to the systems carried over cables. DWDM systems international They are systems whose general standards have been determined by organizations and different suppliers. They enable companies to achieve the same purpose with devices of different structures.

Telecommunication carried over DWDM systems within the framework of general standards where the data needs to reach without any error or corruption. Some parameters of the systems need to be controlled in order to be able to be transported.

The following are the parameters that need to be controlled by this invention. Systems belonging to different suppliers are checked. In this context, the feature of the invention is; First supplier DWDM system (5), second supplier DWDM system and third supplier DWDM system being a DWDM system; 0 First supplier DWDM system (5), accessible with direct commands Data with different algorithms that have different working structures independent from each other. second supplier from which it is received and processed, second supplier that manages the DWDM system DWDM management systems (6) and third-party DWDM system third-party DWDM management systems (7) Authorities who have access (1); geographic coordinate, containing the data of which supplier the information belongs to DWDM system inventory, Fiber optic cable attenuation values of links of DWDM systems, Topology showing which DWDM systems are connected to each other to their lists, u* DWDM link connections and system maps from different vendors to your real coordinates, Individual DWDM that allows it to be accessed/viewed from a single page the time taken to collect the mentioned data by connecting to the systems that shortens the data obtained manually with different methods automatically. web interface (2), The first vendor is the DWDM system (5), the second vendor is the DWDM management system (6), and automatically receives third-party DWDM management system (7) data, and the process server (3) running the commands, To the teams responsible for DWDM systems and fiber cables, the process server (3) The kilometric fiber loss it detects, the span difference between the two fiber clays, the current than the expected fiber attenuation value (expected fiber attenuation) value = fiber length (km) x 0.25 (dB/km)) deviation automatically forwarding notification server (9), C* Automatically determined on DWDM systems at certain periods running commands that can be modified and in response to commands It stores the answers given by DWDM systems, that converts to meaningful format database (4), Users enter via internet browsers over the web interface (2). the user name and password, both in itself and in the database (4). (1) password verification server checking from user list (10) implemented via the DWDM platform that includes; Authorities (1) by accessing the web interface (2) via a web browser, entering username and password, Internet access of the password authentication server (10) via the web interface of the persons (2). the username and password he entered through his browsers, both in himself and in check it from the registered/defined user list in the database (4), If the user is registered, by being directed to the login screen of the system, on the interface (2), providing information access tokens within the defined authorizations, The process server (3) collects the data of DWDM systems from the first supplier DWDM. system (5) directly, and data belonging to other DWDM systems to the second supplier. DWDM management system (6) and third-party DWDM management system (7) by accessing it, executing commands in desired periods, and receiving and data save it to the database (4), Which data from different suppliers and where from the process server (3)? automatically, thanks to the command processing software running on it. reading from the database (4) at certain intervals, accessing it directly, via commands it runs on systems obtaining the necessary information from the DWDM system itself, The °t° process server (3) displays the second supplier's information on the second supplier. By connecting to DWDM management systems (6), related management systems take over, By connecting to DWDM management systems (7), related management systems take over, The outputs of the commands executed on the Process Server (3) are stored in the database (4). recording, with the database (4) of the web interface (2) in case the entry is confirmed by communicating with the authorities (1), all the information they will access from the process server (3) receiving and recording from the database (4), The fiber optic cable lengths of DWDM Inks are determined by the authorities (1). manually from the web interface (2) to the process server (3) and/or fiber map where fiber optic cable lengths are recorded according to geographical information to be received via the server (8), The process server (3) is registered on the planning software of the supplier company. DWDM fiber link when DWDM systems are first installed by taking the attenuation values, the current attenuation and comparison of attenuation values, process server (3), services running over DWDM systems. Planning the required power values to avoid performance errors comparison with the values in the software, of the process server (3), kilometric fiber loss, span difference between two fiber hairs, the deviation of the current attenuation from the expected fiber attenuation to the authorities responsible for DWDM and fiber optic cable operating maintenance (1) automatically alert and inform via notification servers (9) to do, first supplier DWDM systems (5), second supplier DWDM management systems (6) and third-party DWDM management systems (7). outputs of commands run by the process server (3) in periods are recorded in the database (4) and the resulting tables are processed and made meaningful, complex data in data tables transferred and recorded to the database (4), by separating them from each other thanks to the software running in the database (4). making it into tables that the authorities (1) can understand, information that has been made meaningful, that is, put into an understandable format. interface (2) and presenting it to the authorities (1) contains the steps.

Authorities (1) authorized to access the DWDM Platform via the web interface (2): to DWDM NE inventory, Fiber attenuation values of DWDM links (as a list), To the connection topology, Maps of supplier DWDM systems and links, DWDM systems, that is, installed on the field of all suppliers and domains to the actual coordinates of the DWDM devices, Fiber optic cable attenuation during initial installation of DWDM Inks System backup files of first supplier DWDM systems (5), . First supplier DWDM system (5) alarms, - First supplier DWDM system (5) card inventory, 0 Attenuation of patch cord fibers in the first supplier DWDM system (5) to their value can reach, Accessibility of the DWDM platform via the web interface (2) is required manually on the database (4). CLI (Comand Line) such as Telnet or SSH over DWDM systems data other than the information can be entered by the authorities (1) and changes This provides a great convenience for the authorities (1). process server (3), DWDM systems (first supplier DWDM system (5), second supplier DWDM system, third-party DWDM system) and DWDM management systems (second supplier DWDM management system (6) and third supplier DWDM management system (7)), in the NMS (Network Management System / Network Management System) where it is managed optionally via retrieval of found lists by the DWDM platform It connects at changeable intervals, runs commands and automatically retrieves information.

Database (4) preferably SQL (Structured Query Language i' Structured Query Language) based, processes and archives the data automatically received by the process server (3).

Process server (3), software will be sent to many systems at the same time It allows commands to be controlled through a single environment.

Preferably Telnet (remote server connection) to primary vendor DWDM systems (5) protocol) and SSH (Secure Shell f A secure network protocol) by accessing the command lines: NE information, link topology, fiber attenuation values, system backups, card inventory information (serial number of the cards, card code, temperature, which system it is on) etc.) are taken directly. With direct commands to the first supplier DWDM system (5) with the automatic detection feature of DWDM systems. discovery is made. From the second supplier DWDM management systems (6) and the third from supplier DWDM management systems (7); WHAT information, link topologies ie which Which DWDM system the DWDM system is looking at depends on the attenuation value of the line fibers. To calculate the optical exchange power values of the cards facing the line direction are taken. This Data belonging to DWDM systems are taken from management systems. Management systems data to be used as input to the DWDM platform on the the list shows which ports the DWDM links are connected to each other list, DWDM such as the power values of all readable ports on the system) text or mi format, and the DWDM platform takes this data and obtains the outputs. In this way, data that has no meaning on its own is used by users. is made meaningful.

Second supplier DWDM management systems (6) and third supplier DWDM management systems systems (7) are independent of each other, with different working structures, with different algorithms. These are the systems where data is imported and processed on the DWDM platform. In addition, each supplier Although there is more than one management system for different suppliers, different analysis and detection methods are used.

Fiber kilometric attenuation values: It is possible to ensure that the traffic running in DWDM systems is error-free and Fiber attenuation values are very important for high performance operation. Fiber attenuation values in the form of kilometric loss; From the reciprocal ports of the DWDM link total link attenuation determined by taking the difference of the measured reception and data optical powers in db/km divided by the fiber length of the DWDM link being measured. Thanks to the retrospective archiving of these calculations, the fiber weakening trend. By automatically connecting to the mentioned DWDM systems, Instant attenuation values of DWDM systems can also be taken. Some DWDM The optical power values of the systems are taken by going directly to the system, and some Information about DWDM systems is in the NMS (Network) of DWDM systems. Management System I Ag Management Systems) are drawn from the tables. This measurement collecting the data of different supplier companies on a single platform and it has not been used anywhere before in terms of making measurements, It is a very important parameter for the quality of fiber lines.

With the method of reading data from the ports on the DWDM systems in the measurement technique Since the values perceived by the systems are determined, the most accurate place to look (every different cards and ports are determined for a supplier). fiber attenuation water factors to determine the priority status of the problem area according to their values effective: o Attenuation differences between fiber hairs of DWDM connections (mutual 2 fiber pairs are used in the connections of running DWDM systems and this fiber the weakening of the hairs should be close to each other, therefore the hairs It is of great importance to measure the attenuation difference between . The expected kilometric attenuation value in the fiber is 0.25 dbkmi. deviation (Kilometric attenuation value expected from fiber = Fiber total attenuation (dB) i' Fiber length (km)), - Deviation from the total attenuation value that DWDM systems should detect.

(Total attenuation value that should be in fiber = Fiber length (km) x 0.25 dB. Also available in DWDM Inks; in supplier planning software attenuation equal to or close to the total link attenuation value Vendor planning software (initial setup values), initial setup of DWDM devices It was determined that the necessary values for the systems to work in the most correct way during the is software. DWDM link topologies: real GPS coordinates of all NEs to the system and the links between the systems are shown as linear lines.

Since detailed fiber routes are available in the fiber map server (8) application, here the links are shown linearly. Thus it belongs to a DWDM system: how many direction information, link numbers of links, fiber optic cable kilometric lengths, total attenuation values, starting end and ending end, in fiber required attenuation value and fault levels of the line in critical, major and minor shapes can be seen on the map. DWDM topologies on 'real maps and lists' is removed. (Figure 2) For example, the topologies of DWDM connections from different vendors can be displayed on the 'map'. Zoom in and out features on the map Thanks to this, the topology in each region can be examined in detail. Authorized (1), specified can switch between options and Features in the web interface (2).

DWDM system lists: Large enough to keep inventory of DWDM systems information is obtained manually, and each system in the application basis is stored. Real GPS of DWDM systems from different suppliers coordinates are shown on 'maps' in the web interface (2). DWDM specifying the connections between the systems as bird flight distance and direction, DWDM is a distinctive feature of the platform.

Claims (5)

REQUESTS 1. First supplier DWDM system (5), second supplier DWDM system and third supplier DWDM system as a DWDM system; The first supplier DWDM system (5), which can be accessed by direct commands, the second supplier DWDM management systems (6) that manages the second supplier DWDM system, which has different working structures independent of each other, where data is received and processed with different algorithms, and the third supplier DWDM management system that manages the third supplier DWDM system. It is a DWDM platform that includes systems (7), which enables DWDM system components to be used in the field of telecommunication to be observed independently from the supplier, and its feature is; of the accessing authorities (1); 0:› DWDM system inventory including DWDM system number, DWDM system name, geographic coordinate of DWDM system, which supplier the information belongs to, fiber optic cable attenuation values of links of DWDM systems, 3* topology lists showing which DWDM systems are connected to each other, The web interface (2), which enables DWDM link connections and system maps of different suppliers to be accessed/viewed from a single page, shortens the time taken for the collection of the mentioned data by connecting to separate DWDM systems, and enables the data obtained manually with different methods to be automatically retrieved. The process server (3), which automatically receives the data of the supplier DWDM system (5), the second supplier DWDM management system (6) and the third supplier DWDM management system (7), and executes the commands, to the teams responsible for DWDM systems and fiber cables, to determine the process server (3) kilometric fiber loss , the notification server (9) that automatically transmits according to the criteria of the span difference between the two fiber pairs, the deviation of the current attenuation from the expected fiber attenuation value, automatically runs the commands that can be changed in certain periods on the DWDM systems and stores the answers given by the DWDM systems in response to the commands, (1) database that converts into a meaningful format that people can understand and use (4), the user name and password that people enter via internet browsers via the web interface (2), from the authorized (1) user list both in itself and in the database (4). It contains a password authentication server (10) that controls it. 2. It is a DWDM platform according to claim 1, and its feature is; It contains a fiber map server (8) where the fiber optic cable lengths are recorded according to geographical information, the fiber optic cables installed in the field are drawn on the real map and the map lengths of the fibers are displayed. 3. It is a method that enables DWDM system components to be observed independently from the supplier to be used in the field of telecommunication, and its feature is; First supplier DWDM system (5), second supplier DWDM system and third supplier DWDM system as DWDM system; The first supplier DWDM system (5), which can be accessed directly by commands, the second supplier DWDM management systems (6), which manages the second supplier DWDM system, which has different working structures independent of each other, where data is received and processed with different algorithms, and the third supplier DWDM management system that manages the third supplier DWDM system. systems (7) of the authorities (1); DWDM system number, DWDM system name, geographic coordinate of DWDM system, DWDM system inventory containing data of which supplier the information belongs to, fiber optic cable attenuation values of links of DWDM systems, topology lists showing which DWDM systems are connected to each other, DWDM link of different suppliers The web interface (2), the first supplier DWDM system (5 ), the second supplier DWDM management system (6) and the third supplier DWDM management system (7), the process server (3) that automatically receives the data and executes the commands, the kilometric fiber loss detected by the process server (3) to the teams responsible for DWDM systems and fiber cables, two f The span difference between the Iberian pair is the notification server (9) that automatically transmits according to the criteria of the deviation of the current attenuation from the expected fiber attenuation value, the database (4) that runs the commands that can be changed and stores the answers given by the DWDM systems in response to the commands, converting them into a meaningful format, the web interface of the people. (2) through the DWDM platform, which includes a password verification server (10) that checks the user name and password they enter via internet browsers from the authorized (1) user list both in itself and in the database (4); Authorities (1), access the web interface (2) via internet browser, enter user names and passwords, password verification server (10), user name and password entered by individuals via internet browsers via web interface (2), both in itself and in the database ( 4) to check from the registered/defined user list in the list, if the user is registered, to be directed to the system's login screen, to provide information access tokens in the web interface (2), within the defined authorizations, to provide the data of the process server (3), DWDM systems to the first supplier DWDM system (5) directly, and the data of other DWDM systems via the second supplier DWDM management system (6) and the third supplier DWDM management system (7), running commands at desired intervals and saving the data in the database (4), the process server (3) , what data from different suppliers and where to get it. Automatically reading from the database (4) at certain intervals thanks to the command processing software running on it, obtaining the necessary information from the DWDM system itself through the commands it runs on the systems, by directly accessing it, connecting to the DWDM management systems (6) and getting it over the relevant management systems, .;. In case the process server (3) connects to the third supplier's DWDM management systems (7) and receives the relevant management systems, the outputs of the commands executed on the process server (3) are recorded in the database (4), and the web interface (2) is approved. By communicating with the database (4), the authorities (1) receive all the information they will access through the database (4), which pulls and saves all the information from the process server (3), the fiber optic cable lengths of the DWDM links are manually selected by the authorities (1) from the web interface (2). writing to the process server (3) and obtaining the fiber optic cable lengths from the fiber map server (8) where they are registered according to geographical information, the first supplier DWDM systems (5), the second supplier DWDM management systems (6) and the third supplier DWDM management systems ( 7) on it, the outputs of the commands executed by the process server (3) in adjustable periods are recorded in the database (4) and the resulting tab Making the logs meaningful by processing them, separating the complex data in the data tables transferred and recorded to the database (4) by means of the software running in the database (4) and turning them into tables that the authorities (1) can understand, the information that has been made meaningful, that is, put into an understandable format, is transferred to the web interface ( 2) to be transferred and presented to the authorities (1) includes the steps of the procedure. 4. A method according to claim 3, its feature is; By taking the DWDM fiber link attenuation values when the DWDM systems registered on the planning software of the supplier company were first installed, comparing the current attenuation and attenuation values during the initial installation, the performance error of the services running on the DWDM systems of the process server (3). Comparison of the required power values with the values in the planning software, kilometric fiber loss of the process server (3), the span difference between two fiber pairs, the deviation of the current attenuation from the expected fiber attenuation value according to the criteria of DWDM and fiber optic cable management (1) notification to the authorities responsible for the maintenance of the fiber optic cable. It includes the process steps of automatically warning and informing through the servers (9). 5. It is a method according to claim Si and its feature is; The fiber optic cable lengths of the DWDM Inks are written manually by the authorities (1) from the web interface (2) to the process server (3) and the fiber optic cable lengths are recorded according to the geographical information, the fiber optic cables installed in the field are drawn on the real map and the fibers are Receiving the map lengths from the fiber map server (8) 'includes the processing steps.