FR2811176A1 - METHOD FOR CONNECTING TO A BROADBAND TELECOMMUNICATION NETWORK - Google Patents

Abstract

The invention concerns a device and a method for connection to a network (2) of a high speed telecommunication service provider. The inventive device comprises a non-intrusive interface (20) adapted to measure quality of service at an access point (15) to the network (2) of said service provider.

Description

METHOD OF CONNECTING TO A NETWORK OF

  The present invention relates to a device and a method for connection to a network of a broadband telecommunications service provider and more particularly relates to a device for connection to a digital network in which the so-called communication techniques are used. SDH "(Synchronous Digital Hierarchy in English) or" ATM "

  (Asynchronous Transfer Mode in English).

  A client's access point to such a network is often an optical or electrical distributor which is generally located up to several tens of kilometers from the interconnection equipment installed at the edge of the telecommunications service provider's network. . The area between this access point and the service provider's site contains potential sources of faults not supervised by the interconnection equipment. These sources can be located either on the service provider side or on the client side. In the first case, transmission anomalies are the responsibility of the service provider while in the second case they are the responsibility of the service provider.

customer responsibility.

  FIG. 1 schematically illustrates three distinct zones of a link to a high speed communication network 2, a first Zl in which is the network 2 and the equipment 4 for interconnection to the network of the service provider, a second zone Z2 in which the customer's infrastructure is located and a third zone Z3, not supervised by the interconnection equipment, located between zones Z1 and Z2. Zone Z3 generally comprises an electronic output interface 6, a line amplifier 8, possibly a converter 10 of electrical signals into optical signals and a jumper 12 for optical or electrical connection connecting the equipment 4 to one at

  distributor 14 located at access point 15 to network 2.

  Anomalies from zone 1 are the responsibility of the service provider, while anomalies from zone 2 are the responsibility of the customer. Since zone Z3 is not supervised by the interconnection equipment of the service provider, the responsibility for a transmission anomaly which

  occurs in this area is not clearly defined.

  Indeed, the known interconnection equipment is either intended exclusively for the connection function and generally includes internal supervision modules which are not capable of detecting and locating communication anomalies in the zone Z3, or intended exclusively for the function supervision of the services provided and do not allow information to be transmitted

  supervision in the transmission band.

  The object of the invention is to overcome the drawbacks of the prior art by means of a device ensuring at the same time the connection to the network of the service provider and the supervision of the services provided so as to allow telecommunications service providers optimize their personnel and measuring device resources by avoiding untimely trips by their maintenance technicians to

  identify faults for which they are not responsible.

  Another object of the invention consists in isolating and locating an unambiguous transmission anomaly and in informing the customer of the presence of an anomaly before the latter realizes it so as to

  guarantee a certain level of Quality of Service.

  The system thus makes it possible to prevent telecommunications service providers from paying penalties on anomalies which are not their responsibility. Another advantage of the invention comes from the fact that the service provider can solve any transmission problem within the succession time agreed with their customers as part of an SLA (Service level Agreement in English) thanks to professional supervision. -active offered by the device. These aims are achieved by means of a device for connecting to the network of a broadband telecommunications service provider comprising a non-intrusive interface capable of measuring the quality of

  service at the access point to said network.

  The invention thus makes it possible to integrate in a single piece of equipment the function of connection to the network of the broadband service provider and the function of supervision of the services provided to the access point to the network. The invention also makes it possible to centralize the commissioning and maintenance functions so as to avoid the travel of technicians from telecommunication service providers to customer sites and to dispense with

  investments in measuring devices.

  Another advantage of the device according to the invention comes from the fact that it provides a remote view of the quality of service thanks to the transmission in the band, thanks to the POH overhead speed (path over-head in English language) in SDH or to the maintenance cells

  in ATM, measured Quality parameters.

  According to a preferred embodiment of the invention, the non-intrusive connection interface comprises at least one sensor arranged so as to derive part of the energy from a signal transmitted or from a signal received at the point of access and transmit the energy thus derived to an analysis module programmed to detect and locate anomalies likely to occur upstream and downstream of the access point, said sensor being connected to a module

anomaly analysis electronics.

  Other features and benefits of

  the invention will emerge from the description which goes

  follow, taken by way of nonlimiting example, with reference to the appended figures in which: - Figure 1 schematically illustrates a connection to a communication network according to the prior art; - Figure 2 schematically shows a link to a communication network comprising a device according to the invention; As can be seen in FIG. 1, a link to a high speed telecommunications network 2 via connection equipment 4, has three distinct zones Z1, Z2 and Z3. Communication anomalies can come either from the network 2 and the equipment 4 of the service provider located in the zone Z1, or from the customer's infrastructure located in the zone Z2, or from the elements which are located in the zone Z3. These elements generally consist of an electronic output interface 6, a line amplifier 8, a converter 10 from electrical signals to signal

  optic or a jumper 12 for connection.

  As can be seen in FIG. 2, the connection device 4 according to the invention comprises a non-intrusive connection interface 20 comprising means capable of measuring the quality of service at the access point 15 to the network 2. These means are constituted by a sensor 22 arranged so as to derive a part of the energy from a signal transmitted or from a signal received at the access point 15 and a. anomaly analysis module 23 which receives the energy thus derived and performs a service test of the exchanges between the telecommunications service provider and its customer. Said anomaly analysis module 23 comprises at least one analog receiver, a clock recovery module, a transcoding module, an SDH frame alignment and locking module, a management byte analysis module inserted in the overhead of the SDH frame and possibly a module

  analysis of ATM maintenance cells.

  According to a first alternative embodiment of the invention, the sensor is of the optical coupler type

  and the analog receiver is a laser diode.

  In a second variant embodiment, the sensor is of the electrical type such as for example a protected control point defined by the ITU-T according to recommendation G.772 or a high impedance connection, the analog receiver is an equalizer / amplifier . The device 4 further comprises two transport interfaces 32 and 34 arranged on the side of the service provider, and a third transport interface 36 arranged on the side of the client. The interfaces 32 and 34 are connected to a switching element 37 intended to automatically switch the service from the link connected to the interface 32 (respectively to the interface 34) to the link connected to the interface 34 (respectively on the interface 32) in the event of detection of a serious transmission anomaly on the interface 32 (respectively on the interface 34). The operation of the transport interfaces 32, 34 and 36 is controlled by a central management unit 38 supervising test modules 40 which integrate a service test generator, a service test receiver and an element intended to perform a

  bidirectional remote loopback function.

  Preferably, each of the interfaces 32, 34, 36 includes a configurable test module 40

  individually by the central management unit 38.

  When the device 4 is in normal operation, that is to say, when it ensures the connection of the service, all the interfaces 32, 34 and 36 are supervised so as to detect any transmission anomaly. In addition, the non-intrusive interface 20 provides in-service control of the information exchanged at the access point (15) to the network of the service provider. The central management unit 38 consolidates, correlates and filters all the anomalies detected upstream and downstream of the access point 15. so as to unambiguously locate the faults and to

calculate the quality of service.

  The test carried out by the device 4 on commissioning or in the event of an anomaly on the service consists of: - measuring the propagation time of the SDH or ATM service between a point on the link and a remote point on which a loopback is positioned. This operation consists in measuring the time taken by a given pattern of a signal to traverse a part of the communication network to the loopback point and to return; measure the transmission error rate of the SDH or ATM service between a point on the link and a

  distant point on which a loopback is positioned.

  This operation consists in checking whether the binary content, pseudo-random sequence for example, of the signal on the interface is identical to the content of the binary signal received on this same interface; - and possibly measure the frequency differences between the two directions of transmission so as to check the good synchronization of all the connected equipment which makes it possible to provide the service. The remote looping performed by the device according to the invention consists in making it possible to return the signal received independently on each of the interfaces 32, 34,

  36 on both sides of each interface.

  The detection, qualification and localization of anomalies consist in: - dating and synchronizing anomaly and fault information, sorting and isolating incoming information,

  outgoing information and end information

  at the end, then record this information in a buffer memory, b check if an incoming information generates an end-to-end information and / or an outgoing information; c- reposition in time the incoming information in one direction and their consequent action on the end-to-end information circulating in the opposite direction then calculate at least one parameter representative of the quality and / or performance of the network or of a part of the latter; d- validate the relevance of the information to

each of the previous steps.

  According to an alternative embodiment of the invention, the device comprises a bidirectional non-intrusive sensor 22 disposed at the access point 15 making it possible to measure the quality of each direction of transmission to this access point, and the end quality - at the end of the two directions of transmission. The Quality of Service is calculated from the information contained in the overhead bytes on each of the SDH layers. In the case of ATM, this information is contained in the maintenance cells.

Claims (11)

  1. Device for connection to a high speed telecommunications network, characterized in that it comprises a non-intrusive interface (20) capable of measuring the quality of service at the access point (15) at   network (2) of said service provider.   2. Device according to claim 1, characterized in that said non-intrusive connection interface (20) comprises at least one sensor (22) arranged so as to derive part of the energy of a transmitted signal or of a signal received at the access point (15) and to transmit the energy thus derived to an anomaly analysis module (23) programmed to detect and locate anomalies likely to   occur upstream and downstream of the access point (14).   3. Device according to claim 2, characterized in that said anomaly analysis module (23) comprises at least one analog receiver, a clock recovery module, a transcoding module.   4. Device according to claim 3, characterized in that for an SDH transmission, said anomaly analysis module (23) comprises an SDH frame alignment and locking module, and a byte analysis module of management inserted in the SDH frame overflow.   5. Device according to claim 3, characterized in that for an ATM transmission, said anomaly analysis module (23) comprises an alignment module and locking of ATM cells, and a   ATM maintenance cell analysis module.   6. Device according to one of claims 2 to   , characterized in that said sensor is of the optical type and in that the analog receiver is a laser diode.   7. Device according to one of claims 2 to   , characterized in that the sensor of the electrical type and in that the analog receiver is an equalizer / amplifier.   8. Device according to one of claims 1 to   7, characterized in that it comprises at least two transport interfaces (32) and (34) arranged on the side of the service provider and a third transport interface (36) arranged on the client side, each of said transport interfaces ( 32, 34) and (36) being controlled by a central management unit (38)   supervising a plurality of test modules (40).   9. A method of connecting to a network of a broadband telecommunications service provider, characterized in that it comprises the following steps: - in service monitoring the information exchanged at the access point (15) to the provider's network Services; - detecting and locating anomalies upstream and downstream of the access point (15); - remote looping and testing the services provided during commissioning; measure Quality of Service (QoS); 10. Method according to claim 9, characterized in that during the commissioning or in the event of an anomaly on the service, the test carried out by the device (4) consists in: - measuring the propagation time of the SDH service or ATM between a point of the link and a distant point on which a loopback is positioned; measure the transmission error rate of the SDH or ATM service between a point on the link and a distant point on which a loopback is positioned; - and possibly measure the frequency differences between the two directions of transmission so as to check the good synchronization of all the connected equipment which makes it possible to provide the service. 11. Method according to claim 9, characterized in that the detection, the qualification and the localization of the anomalies consist in: - dating and synchronizing information of anomaly and fault, sorting and isolating the incoming information, the outgoing information and the end-to-end information, then save this information to a buffer; - check whether incoming information generates end-to-end information and / or outgoing information; - reposition in time the incoming information in one direction and their consequent action on the end-to-end information circulating in the opposite direction then calculate at least one parameter representative of the quality and / or performance of the network or part of the last; - validate the relevance of the information to each previous steps.