NO129553B - - Google Patents

Description

Method for processing switching screen characters in a time-multiplex relay, in particular a time-multiplex PCM relay.

In transmission devices that work according to the time multiplex method, the information is transmitted in periodically alternating pulse frames each with a specific number of alternating time elements. The time elements that are assigned to one and the same periodically connected connection form a so-called time channel.

Certain time channels, which can be covered with speech or with data, must now be assigned connection characteristics that form the carriers for the communication technical information between the communication sites. Such connection characteristics can e.g. is transferred within each time slot individually assigned, but it is also possible to exempt one-Kfr. at 21a<3->46/10 celted time channels in general from coating with speech and just... utilize them for the transfer of connection characteristics.. With both de/^bé-slit possibilities it is possible to form so-called main frames;,^;fd .v. pp.

to distribute the characteristics that are assigned to the time channels, on several one after the other f Telling pulse frame.

Common to all these methods is that for the transfer of the switching characteristics at periodic intervals at certain times, sampling samples must be taken of these, and (these samples cause pulse modulation so that the switching characteristics are transferred in the form of periodically alternating pulses resp. pulse groups and at a rate whose period can be considered very short compared to the duration of all the switching characteristics.

in the form of such switching characteristics, are therefore fast-reacting electronic devices. The use of such fast-reacting kpmponents now leads, however, to the fact that already relatively short-term disturbances can cause a reaction of the characteristic springs and devices and thus a malfunction of the overall, control 1.a mediation point. Such disturbances can, among other things, a. consist of noise signals connected to the connection line. For example, with time-multiplex PCM transmissions, a bit error probability of the order of magnitude 10"^ is calculated, in the worst case even 10"^.

However, a method is already known that offers

a certain protection against such disturbances.. Within the framework of this method, a receiving storage is used which at all times receives the last arriving pulse group and stores it for the duration of a period. The new pulse group that occurs after the end of a period is then compared with the stored one. If this comparison shows identity, the pulse group is treated as an additional scanning sample for. the connection characteristic, however, exists where there are different pulse groups, it is waited whether the pulse group that occurs after a further period is identical to the previous one, and the new pulse group is then possibly treated as the first group in a new connection characteristic. A disturbing signal which only extends over a shorter period of time than a period cannot therefore cause any erroneous reaction by the characteristic processing reception device. This method, which is referred to as "last lopk", naturally fails with stSy signals of longer duration, although it would of course be conceivable to expand the method analogously so that several reception stores work together in the described manner. Thus, the duration could

of a noise pulse, depending on the number of reception areas, also be longer than a period without this disturbance manifesting itself in the event of a malfunction at the prevention site. But that would, firstly, require a relatively large expense and, secondly, lead to a blurring of the beginning and end of each connection characteristic.

The task which forms the basis of the invention now consists in enabling far-reaching security against interference during the processing of switching characteristics without introducing significant delay and with only a small amount of switching equipment.

The starting point here is a method for processing pulses or "pulse groups" that appear periodically in pulse frames of the time-multiplex method, especially in the time-multiplex PCM method, transmitted messages and obtained from scanning samples of switching characteristics using a reception memory which record the pulses or pulse groups' which are assigned to the individual time channels, in the order in which they occur, and offer the incident pulses resp. pulse groups the corresponding pulses stored during the duration of each period resp. pulse groups for comparison. According to the invention, within the framework of this method, a further reception storage is programmed so that at all times it only records permanent characteristics that are part of the system, such as e.g. VutlSshihg" or "occupancy", and that the beginning and end of the other (also permanent) characteristics are determined at all times by comparing the incoming pulses or pulse groups with those present in both receiving devices.

In this context, it is considered essential for the invention! see to be that the other does not, as with the "last lo ok" method - is at the disposal of any relevant signal, but that there with regard to the determination of whether a characteristic, resp. which characteristic shall be introduced into the additional receiving stock, a distinction is made between permanent characteristics and non-permanent characteristics - of which the latter will in the following only be called characteristics. The assignment of the individual connection characteristics included in the system to the group of permanent characteristics resp. to the group ay not permanent characteristics are. in connection and for arbitrary. E.g. a sign that indicates busy in local traffic can be classified as a permanent sign and a sign that indicates busy in long distance traffic can be classified as a non-permanent sign. In general, it should be possible without difficulty to determine the assignment of certain system-typical coupling identifiers. characters in one of the two groups.

The allocation of individual coupling characteristics to the two above-mentioned, significantly different groups of coupling characteristics will be, among other things, expediently determined by the fact that two system-typical coupling characteristics immediately following each other are not both counted as non-permanent characteristics, so a change that occurs twice in a characteristic due to the impact of a disturbance can be unequivocally recognized as a disturbance and not - as by the "last loQkn method - can be interpreted as changed characteristics.

The logical criterion that must be present for each actual characteristic processing resp. before passing it on to a processing unit (computer), therefore consists in the fact that a changed connection characteristic occurs twice in a row, and that this changed connection characteristic is also a permanent characteristic. In general, this will even be the permanent characteristic inserted in the additional receiving layer, then a sequence of coupling characteristics which includes first a permanent characteristic, then a characteristic and then again a permanent characteristic which has been changed in relation to the First, depending on the nature of the mediation system included in the transfer, it will not occur at all or will only occasionally occur.

According to an advantageous further development of the invention, both receiving warehouses cooperate with a control unit which is warehouse-programmed. The stored program includes here all permanent characteristics that are part of the system, while at the same time that in certain typical phases during the time period given by the spurring of a participant connection on the one hand, resp. the conclusion of a subsequent conversation on the other hand, certain lasting characteristics are designated as "plausible" and these are treated accordingly after a truncated time check. According to yet another advantageous further development of the invention, disturbing signals which express themselves in the form of a "plausible" lasting characteristic can also be suppressed, as the control unit receives the corresponding treatment every time by inserting a certain protection time. The resulting delay in the passing on of these permanent characteristics to a central governing body is of little importance in view of the relatively long duration of the so-called permanent characteristics.

When applying the invention to information transmitted by the time multiplex PCM method, it is advantageous to use a receiving register to record the incoming switching characteristics in order to achieve a parallel representation and processing of the switching characteristics that are transmitted serially in individual time elements of pulse frames .. On the output side, the receive access register is then connected to both receive stores and to two comparators whose respective other input is connected to the output of the respective assigned receive store. Appropriately, at the same time, the corresponding storage locations in the two receiving warehouses are controlled via an address counter which is controlled by the arrival of the connection characteristics.

A further development of the invention involves that

the two comparators are connected to the control unit via a gate which is additionally under the influence of a 'main frame error barrier.

The invention will be explained in the following with reference to a figure which illustrates an exemplary embodiment of a coupling device for carrying out the method according to the invention.

The basis for the shown switching device for processing characteristics may be a time multiplex PCM system where, within a time frame, there are 30 time channels coated with speech with 8 bits per time element, a synchronization channel and a characteristic channel. Furthermore, it shall be assumed that 4 of the 8 bits in the characteristic channel are arranged for a time channel coated with speech. It should be noted that there is a main frame which includes 16 pulse jammers, and where the characteristics e.g. is exceeded in the l6th time channel of each pulse frame.

The input to the shown switching device for characteristic processing can be connected to a PCM switching field or simply to a PCM reception time multiplex line which switches the characteristic channel to the input every time in the 16th time element. Partly the reception register ER and partly the address counter Adr are directly connected to the input, the latter of which serves for clock-correct control of at least the reception store ESI. The outputs from the two receiving storages ESI and ES2 are fed to one input to each Mismenligner Vliesp. V2, whose second input is connected to the receiver register ER. In addition, the receiving warehouse ES2 is under the controlling influence of the control unit Spr, which only follows

having recognized a permanent characteristic and after a certain protection period has been observed, the introduction of this permanent characteristic in the receiving warehouse causes ES2.

The outputs from the two comparators VI, V2 are speeded up

a QG gate G, which can also be affected from a main frame fault barrier Syn.

The control unit Spr corresponds via the delivery register A and the entry register E with eh not shown. central management for a production facility. Characteristics which from this central control enter the control unit Spr via the input register E> are via a . sending stock SS, resp. a. transmitter egi ster SR, likewise at the correct rate emitted to the output, which is connected to the not shown PCM coupling field resp. a single PCM transmit - time-raul multiplex line.

In accordance with the assumption that the connection characteristics are transferred with 4 bits per connection characteristics in e h main frame comprising 16 frames, the reception register ER is sized to accommodate 8 bits and the two reception stores ESI and ES2 are sized to store 30 x 4 bits each.

It shall now be assumed that a comparison between a connection characteristic - in the following called is - has occurred, in the reception register ER, and the connection characteristics entered in the reception register ESI and ES2 in the following esl and es2 - has given the following result:

1. ) is esl and is f es2.

This means that at least ■one characteristic bit has changed. There is thus a beginning of a . (not, lasting) personal characteristics, such as, - . then is = esl - is received twice in succession..

If the comparison between the occurred connection characteristic and the characteristics which have been introduced for storage in the two reception stores ESI and ES2, gives 2. ) is- *=• esl and is. = es2, ; then this means that there is no change in characteristics or if the connection characteristic that occurred for the characteristic esl was different from the connection characteristic, es2, that there is one end of a (non-permanent) characteristic, then the permanent characteristic that was present for the (non-permanent) characteristic and is stored in the receiving storage ES2, again is received twice (er = esl) . They tp. Several possible results of the comparison, i.e. 3. ). is f esl . and is = es2 .. ■.<...■ 4. ) is f esl and is fes2 ?• ■ constantly occurs in .disruptions, resp. i..cases ;where a coupling characteristic for the f.Srst time. has changed in relation to an outgoing connection characteristic. corresponding .influence of the control unit'Spr, while.they:; comparison results. which is indicated under J.) and. 4«), is suppressed/ resp.

treated as ora where no change in the characteristic situation that existed for a period had occurred.._

All in all, the method according to the invention is therefore left only. with. small coupling st echnical, expense,.'achieved a far-reaching., elimination of. disturbing influences during the transfer of. coupling characteristics.............„ ,

Claims (6)

f - ■ . ■ 1. Procedure for processing pulses or pulse groups that appear periodically in pulse frames of information transferred according to the time multiplex method, in particular the time multiplex PCM method, and are obtained from scanning samples of switching characteristics by means of a reception layer that records the pulses resp. pulse groups which are assigned to the individual time channels, in the order in which they occur, and offer the incident pulses or pulse groups they stored corresponding pulses over the duration ay a period resp. pulse groups for comparison, characterized by the fact that a further reception storage (ES2) is programmed in such a way that it only records permanent characteristics that are included in the system, such as e.g. "triggering" or "coating", and that the beginning and end of the 6v-rich (non-permanent) characteristics are determined at all times by comparing the incident pulses or pulse groups with those available in the two reception stores (ESI, ES2). 2. Method as stated in claim 1, characterized in that the beginning and end of the permanent characteristics are also determined by comparing the incoming pulses or pulse groups with those available in both reception stores (ESI, ES2). 3. Method as stated in claim 2, characterized in that the further receiving storage (ES2) is under the controlling influence of a logical structure* control unit (Spr) which is stored programmed with the permanent characteristics included in the system. 4. Method as stated in claim 3, characterized in that each newly occurring permanent characteristic is only inserted into the additional layer after a protection time which is several times the cycle time. 5. Switching device for carrying out a method as stated in one of the claims 1-4" characterized in that a receiving register (ER) which serves to record the incoming switching characteristics is connected on its output side to both receiving stores (ESI and ES2), a address counter (Adr) that affects the receiving layers (ESI, ES2), as well as two comparators (VI, V2) whose respective other input is connected to the corresponding receiving layer (ESI, ES2). 6. Coupling device as specified in claim 5"characterized in that the two comparators (VI, V2) via a gate (G) which is controlled in a synchronized manner, are connected to the control unit (Spr)" which exhibits independent access to the further storage (ES2).