DE10055474C2 - Arrangement and method for automatic bandwidth-dependent billing in the telecommunications - Google Patents

Description

The invention relates to an arrangement and a Method for automatic bandwidth-dependent charges version in telecommunications.

When it comes to marketing telecommunications services, it is common practice, the price of both of its useful life, the Time of use as well as the bandwidth used from pending. Automatic detection of both the groove useful life as well as the usage date has been for technically solved for a long time. In contrast, the automatic capture The bandwidth has only recently become important won tung. Especially in a wavelength division multiplex based telecommunications network is such an acquisition but of great benefit. Leased lines by Wellenlän genmultiplexkanäle be realized, are by nature analog channels with a very large bandwidth. A simple, used contractual definition of by the employee A fraction of the bandwidth can be easily bypassed by this be without the services noticing. thats why requires that actually used by employees capture bandwidth. Only then can the service provider do one issue correct invoice.

So far it is known, unnoticed by the service provider Ver breach of contract by the service user at Mietlei processing services to prevent, by the bandwidth of the Channel made available to employees artificially is limited. In the area of wavelength division multiplexing Leased lines are used for this, transponders that only work at a fixed data rate. The disadvantage of this is that due to a rise bandwidth requirement on the part of Dienstneh he signed a new contract with his service provider  must close, and the service then the band to limiting the width of the transponder used with a new one, with a higher bandwidth, must exchange. This is ever but very time-consuming and therefore costly.

From WO 99/30457 A2 and in particular FIG. 3 is a procedural are ren and discloses an arrangement for recovering a variable clock of a data signal in which a minimal time interval between pulses of the data signal is determined. Furthermore, the pulse duration is set on the basis of the determined minimal time interval. The set pulses are finally in a band pass filter whose pass frequency with the determined minimum time interval coincide true. At the output of the bandpass filter, the clock of the set pulses is delivered.

In WO 97/16034 A2 is an arrangement for the automatic belt- width-dependent charging of a transmitted data signals described in the periodic measurements of ver bandwidth used during the life of a transfer be carried out. So the size of the use th bandwidth per time interval determined that for ge entire communication is added up. Finally, this is sum thus obtained with a predetermined data rate fee multiplied.

Therefore, it is the object of the invention to provide an arrangement and to provide a method available with the simple and Value a bandwidth-dependent billing in the can be made telecommunications.

The task is achieved by an arrangement with the Merk paint of claim 1 and by a method with the shopping dissolved paint of claim. 4 Advantageous further training the invention are the subject of the dependent claims. In a The arrangement according to the invention is the clock frequency of a copy of the transmitted data signal in a first Frequenzdetek  tor roughly determined. This is for ver with a time base connected, which sets a fixed time interval in which at for example, flanks that occur are counted. Besides, will a copy of the data signal to a second frequency detector to guided. This is part of a control loop in which a cycle frequency signal estimated iteratively in its frequency of Taktfre is approximated frequency of the copy of the data signal. After one Transient correct the frequency estimation signal is in ner frequency with the clock frequency of the copy of the data signal match. The clock frequency estimation signal is then sent to a Tough ler passed, the number of periods within ei ner specified reference time counts. As a starting point for the frequency estimating signal is the first through the Fre quenzdetektor estimate obtained via the control circuit an evaluation unit from the first frequency detector supplied becomes. It then matches up to a deviation of about 25% the actual clock frequency match. By the counter determined number of periods in the steady state is the control and evaluation unit to a Ausgabeein standardized passed. This signal is then for accurate calculation  planning position used because in it the bandwidth of übertra antigenic signal is documented.

Preferably, in the control circuit of the second frequency detector with connected to a regulator, this with a voltage-controlled Oscillator, this with a frequency divider and this with the second frequency detector. This makes it possible to get one fast and reliable attack of geschlosse to achieve a control loop.

It is also advantageous if the control loop with the Control and evaluation unit between the second frequency de Tektor and the regulator, the voltage-controlled oscillator is off and connected back to the frequency divider and further the control circuit with the counter between the frequency divider and is connected to the second frequency detector. By that not from the second frequency detector output signal produced only the controller, but also the control and evaluation is supplied, it can detect when the steady State is reached. The connection between span nungsgesteuertem oscillator and the control and Auswerteein standardized ensures that even in the worst case, if the Control and evaluation unit the frequency divider to a fal sets the value, a correction is made, so that a steady state is reached.

In a method according to the invention, in addition to Life and usage time during the useful life used bandwidth measured. It can be used by an employee a service designed with variable bandwidth of a Service provider for the transmission of a data signal be made available. The service recipient can do so by himself Select bandwidth used freely without having advance the Service providers have to announce this or new with this one s contract includes this and then, as previously the case, egg NEN other transponder provides. This will such a process much cheaper price and time.  

Measurement of the bandwidth used is preferred by means of the clock frequency of synchronously transmitted data signal before taken by the clock from a copy of the data signal frequency is recovered. By using a knockout pie of the data signal is the transmitted data signal at the Determining the clock frequency is not disturbed, so continue a perfect transmission is possible.

It is also advantageous if the measurement of the clock frequency is cyclically repeated sequence of the copy of the data signal. Due to the cyclical repetition an exact settlement can be made of the fees shall, even if the USER from employees te bandwidth fluctuates frequently during a transmission. ever the smaller the measuring cycles, the more accurate the billing possible.

In particular, it is advantageous to measure the clock frequency the copy of the data signal be an apparatus having the above- to use the written characteristics.

Further advantages and details of the invention are opposed From the tand illustrated with reference to the accompanying drawings leadership example. Here the only figure shows:

A block diagram of an arrangement according to the invention.

To a measuring arrangement for automatic bandwidth-dependent Fee collection in telecommunications becomes the requirement asked tion, it that in a very large measuring range is settable. In wavelength division multiplex-based leased lines the data rate at 34 Mbits / s, but also at 2.5 Gbit / s lie. Another requirement is that no structure the data signal concerned restrictions are made allowed, except those by transferring technical Randbe conditions always exist. This means that from one sufficiently large edge density - transitions between logical  Zero and logical one or vice versa - are assumed can.

For recovering the clock frequency from the transmitted Since tensignal a copy 100 is supplied to a data signal of this ers th frequency detector 21, which roughly determines the switching frequency of the copy 100 of the data signal. For this purpose, an edge counter is suitable, for example, which counts the edges occurring in a fixed time interval. The time interval is specified by a time base 80 . The resulting count result is fed to a control and evaluation unit 70 . This calculates an estimated value for the clock frequency. however, the estimate can not be used as a basis for the calculation of the fee of the employee who, since he is subject to relatively large uncertainties, which are in the range of 20% to. This is due to the fact that the edge density depends both on the data actually transmitted and on the line code used.

The copy 100 of the data signal is therefore additionally fed to a second frequency detector 22 . This compares the clock frequency of the copy 100 of the data signal with a signal generated by a voltage controlled oscillator 40 Taktfre quenzschätzsignal 500th A programmable frequency divider 50 is connected downstream of the voltage-controlled oscillator 40 . This is used by the control and evaluation unit 70 is inserted so that the frequency estimate signal 500 to unge on ferry 25% identical to the actual clock frequency matches. The information for this comes from the estimate obtained with the first frequency detector 21 . The second Frequenzde Tektor 22 generates an output signal 220 which is proportio nal to the frequency difference between the copy 100 of the data signal and the clock frequency estimating signal 500th For example, a rotation frequency detector is suitable as the second frequency detector 22 . The output signal 220 generated by the second frequency detector 22 is fed to a controller 30 . For example, it is a PI controller. The controller output signal is fed to the control input of the voltage-controlled oscillator 40 . This results in a closed control loop 10 .

Due to the closed loop of the clock frequency is achieved estimation signal 500 with the clock frequency of the copy 100 of the tensignals Since after a transition time is a match of the frequency. In this steady state, the clock frequency estimation signal 500 is fed to a counter 60 . This counts the number of periods within a reference time, for example one second. For this purpose, the counter 60 is reset by the control and evaluation unit 70 at the beginning of a measurement and read out the counter reading after the measurement time. The control and evaluation unit 70 determines the measurement time based on the information from the time base 80 .

The clock frequency may only be measured when the control loop 10 is steady. Therefore, we except the regulator 30 and the control and evaluation unit 70 performs supplied the output signal generated from said second frequency detector 22 220th This recognizes the steady stands to the fact that the amount of the second Frequenzdetek gate 22 output signal generated 220 drops below a certain threshold of achieving.

Since the estimate of the clock frequency is only roughly possible by the first frequency detector 21, it can happen that the control and evaluation unit 70 of the programmable frequency divider 50 is adjusted to the wrong value. Then, the output signal generated by the second frequency detector 22 220 can not disappear and a measurement of the frequency of the Taktfre quenzschätzsignals 500 can not be started. To prevent this, the control and evaluation unit 70 from the voltage controlled oscillator 40, two signals 401 are passed to 402. These indicate whether the voltage-controlled oscillator gate 40 has reached its upper or lower tuning limit. 40 reached its obe ren Abstimmgrenze the voltage controlled oscillator, has the control and evaluation unit 70 the division factor of the programmable divider 50 it low. Is the voltage controlled oscillator 40, however reached its lower Abstimmgrenze, an increase is the partial factor of the programmable divider 50th

The control and evaluation unit 70 finally calculated from the data read from the counter 60 at the end of a measurement Zäh lerstand the clock frequency of the copy 100 of the data signal and forwards this result to an output unit 90 for outputting on.

The measurement of the clock frequency described above becomes cyclical repeated ge of a change by the employee to be able to determine the bandwidth used in real time. the Pe The cycle period can be specified.

Claims (6)

1. Arrangement for automatic bandwidth-dependent fee recording in telecommunications, characterized in that
a first frequency detector (21) for the rough determination of the clock frequency of the data signal comprises a copy (100) which is connected with a time base (80);
it comprises a second frequency detector (22) and is integrated in a control circuit (10) for determining the clock frequency of the copy (100) of the data signal the clock frequency with a frequency estimating signal (500) compensates ver;
the control circuit ( 10 ) is connected to a counter ( 60 );
the first frequency detector (21), the time base (80) Re gelkreis (10) and the counter (60) are each connected to a control and evaluation unit (70) and
the control and evaluation unit ( 70 ) is connected to an output unit ( 90 ). 2. Arrangement according to claim 1, characterized in that connected in the control circuit (10) of the second frequency detector (22) with a controller (30), this with a spannungsgesteu Erten oscillator (40), this with a frequency divider (50) and this with the second frequency detector ( 22 ). 3. Arrangement according to claim 2, characterized in that
the control circuit (10) is connected to the control and evaluation unit (70) between the second frequency detector (22) and the controller (30) connected from the voltage controlled oscillator (40) and to the frequency divider (50);
and the control circuit (10) to the counter (60) between the Fre quenzteiler (50) and the second frequency detector (22) connected ver. 4. Procedure for automatic bandwidth-dependent fee collection in telecommunications with the following steps:
A service provider is a service with a variable bandwidth from a service provider from a certain point in time for transmission of a data signal available;
Measuring the service life and the time of use by the service provider and
Determine the price of the space occupied by the employee services based on the detected data and specified in egg nem contract method of calculation;
the bandwidth used during the useful life is measured in addition to the useful life and time,
characterized in that
by the data signal whose clock frequency is recovered from egg ner copy (100) the measurement of the bandwidth being used by means of the clock frequency of the synchronously transmitted data signal. 5. The method according to claim 4, characterized in that the measurement of the clock frequency of the copy ( 100 ) of the data signal is repeated cyclically. 6. The method according to any one of claims 4 to 5, characterized in that an apparatus is used according to any one of claims 1 to 3 for the measurement of the clock frequency of the copy (100) of the data signal.