NO130922B - - Google Patents

Description

Procedure for binary data transfer for over-

conducting an address and command call with return response.

The present invention relates to a method of binary data transmission for the transmission of an address and command call of arbitrary length, in which a redundancy formed by address and command calls is also transmitted to check the freedom of transmission errors, and in which the address received in the called stations is compared with an address assigned to one of the called stations,

and the called station, upon correct reception, emits an acknowledgment signal, and by which the transmission of the entire intelligence from the calling station is repeated until there is an acknowledgment call from the called station.

Procedures are known in which a binary transmitted call is stored in the receiver and, after completion of entry, is checked for correct reception. A method of this kind has the disadvantage that a transmission error can only be detected after the entire call has been received, so that there is a loss in terms of transmission speed and reception readiness. From British patent 977 134, it is also known to include a control redundancy which consists of an address and an information part, so that it is possible in the receiver in a manner known per se to carry out an error check.

The task underlying the invention is to provide a method for selectively transmitting secured commands to individual stations (selective calls) or to a whole group of stations collective calls, which does not exhibit the disadvantages of the known call methods, but despite this make use of their advantages. This task is solved according to the invention by the fact that the received address when sending a selective call is compared with the recipient's address without being stored, that the recipient is immediately brought to rest if at least one bit of the recipient's address does not match, that at least part of the address when sending a group call contains a criterion for a group call and that when this group call criterion is recognized in the receivers, no reset to the idle position occurs during the further inflow of information, and that the acknowledgment calls consist of the address of the station that sends the acknowledgment call and of a command part and from one of these two formed redundancy.

An advantageous device for carrying out the method according to the invention will be described in more detail with reference to fig.

1 and 2, where the latter shows an advantageous further development.

A start/stop switch 1 is in the "stop" position. On receipt of a start signal, e.g. by switching a binary 1 to a binary 0, the start/stop link 1 is brought to the start position, whereby the subsequently received signals are controlled, as a clock generator 2 is released. The clock signal affects an electronic step switch 3 which by its output signals controls the mechanical or electrical setting of a selective call number 4 and a bit switch 5 and thus bit by bit requests regarding this station's set number-digit (selective call number) and leads these via a switch 6 to a comparison link 7, in which the received signals are compared bit by bit with the selective call number issued by the electronic step switch 3. If both signals match, the comparison switch 7 shows no output signal. If they

two comparing binary characters, however, are different, is triggered there by means of an output signal in the comparison link 7 which over-

is fed to the start/stop link 1 via a comparator barrier 8,

a signal that sets the start/stop clutch 1 in the ice position.

At the output signal from this link, the station assumes its basic position.

In parallel with the receiver signal running into the comparison link 7, the command part of the information arrives in a clock-controlled command store 9. Furthermore, the entire information is transmitted over a

switch 28 to a redundancy calculator 10. Since the order of the links is known, the first part of the pulse telegram containing the address can be controlled by the comparison link 7, but not the subsequent characters of the command which can be chosen completely arbitrarily. After the already mentioned check of the address, the comparison block 8 is engaged above the electronic step switch 3, so that the output signal from the comparison link 7 can no longer cause the start/stop link to react for the subsequent part of the pulse telegram. When the command part of the information has been received, a switch 11 is closed, so that the command memory 9 is clocked at this time. After the last binary character of the command has been received, the switch 11 is opened, so that the command information that has been received over the input line of the command store 9 is stored in the command store 9 and can be displayed over a matrix 12 in the command indicator 13 after the redundancy check has been carried out. After the entire pulse telegram has been received in the redundancy calculator 10, this must take a specific final position, if the information has not been disturbed.

The correct setting of the redundancy calculator 10 after an information has been received, triggers in a redundancy control port 14 a release command for a switch 15 which e.g. by connecting the battery voltage across the matrix 12, it brings information to the indication, which is waiting in the command indicator 13. At the same time as this signal, the input of the command storage 9 is preferably blocked until the indication is deleted, so that a possibly subsequent, disturbing command cannot falsify the already correctly stored command.

With the help of the release signal from the redundancy control port 14, an automatic receiver/transmitter switchover 16 is switched on and switched - with or without delay - from the receiver position to the transmitter position, which causes the issuance of the receipt to be initiated: At the time when the redundancy control signal is issued . As the automatic receiver/transmitter switchover reacts, the station in this case does not assume the receive-output position, but the transmit-output position.

The output signal from the automatic receiver/transmitter switching 16 controls switches 17, 18 and 19, so that a binary output 20 is connected through and a binary input 21 is disconnected. With the help of the same signal, the comparison block 8 is also affected, so that output signals that may arrive from the comparison link cannot affect the start/stop link 1. With the help of the output signal from the automatic switching, the start/stop link 1 is also set to "start ", so that the electronic step switch 3, which has in the meantime assumed its rest position, receives the clock signal again and, as in the case of reception, controls the setting of the selective call number 4 and the digit switch 5. During the time when the selective call number is asked, i.e. during the time this number is checked, when the information reaches the switch 22 above the switch 6 and on to the last switch 17 which is located immediately in front of the binary output 20. At the same time that the selective call number is connected through the electronic step switch 3, the binary output signal from the switch 6 also arrives above switches 19 and 28 to the redundancy calculator 10.

After the check of the selective call number has been made via the step switch 3, the contents of the command store 9 are checked via a command store control circuit 24. A switch 25 is closed during the command, while the switch 6 is open. The information stream or sequence from the storage controller 24 to the binary output 20 and to the redundancy calculator 10 is the same as for the address. By means of the memory controller 24, the receiver command which is entered and stored in the command memory 9 is checked and on the basis of this an output pulse telegram is formed which is identical to the input pulse telegram. The calculation in the redundancy takes place in a similar way as during the reception of the information, both address and command therefore arrive via the switch 28 to the redundancy calculator 10 and trigger the calculation process in the known manner. After the command part of the pulse telegram has passed, switch 28 is opened and likewise switch 22, while switch 23 remains closed. Thereby it is achieved that the redundancy calculator IQ is blocked for any subsequent signals, and the binary character string calculated up to this point, the so-called redundancy, via the output of the redundancy counter and the switch 23 reaches the binary output 2-Q, which happens immediately in connection with the sending of the command combination. After the last redundancy bit has been transmitted, the electronic step switch 3 has reached its end position which again switches this to the receiving output position, as the automatic receiver/transmitter switching 16 has not reacted in this case. This also happens via the start/stop link 1, which also interrupts the clock signal. With this process, the delivery of the receipt, i.e. the return of the received information as a receipt, is finished.

If this facility is now to issue a command, i.e. act as a transmitting station, a similar signal stream is emitted as described under the receipt issue, however with the difference that the automatic receiver/transmitter switching 16 is intervened directly and the transmission cycle is triggered. The information to be transmitted in the form of a command or a message must be entered into a memory in advance. As such, the already existing command store 19 can be used

which is connected by means of a corresponding, not shown in the drawing, coding matrix for use during transmission. After the direct release of a transmission cycle, as a result of the output setting of the electronic step switch 3, the automatic receiver/transmitter switch 16 is switched on in this case to "reception" and is maintained in this position during the reception of the receipt.

If the acknowledgment occurs during the pre-determined time, the processing of the acknowledgment signal takes place exactly as in the processing of a pulse telegram which is to transmit a command. The difference, however, consists in the fact that the redundancy control signal affects the automatic receiver/transmitter switchover 16 in such a way that a renewed transmission is prevented, as the switchover again assumes the initial position "reception". If the acknowledgment signal arrives with an error, the redundancy control port 14 will not emit any release signal, so that the automatic receiver/transmitter switching 16 is switched back to "send" after the predetermined time and a sending of the pulse telegram is carried out according to the already described scheme.

One in fig. 1 link not shown takes over all tasks with regard to deletion, e.g. of the command indication and feedback of the store and the redundancy calculator. As already described, it is necessary that the called station is synchronized on the calling station. In order to reduce phase errors, the clock generator 2 is suitably composed of an oscillator and. a frequency divider, as the oscillator oscillates with a frequency that is a multiple, but at least five times the clock frequency. It is appropriate that the oscillator oscillates all the time and that the start/stop link acts on the frequency divider.

During practical operation, it may happen that a further command has been entered in the command memory belonging to a receiver, since this has not been deleted by the relevant operator, and a new command occurs. In order to prevent the new command from being lost in the receiving station and also to prevent the command from the station issuing its command, as already described, from continuing to be repeated (since no acknowledgment calls are received from the called station), there can, as shown in fig. 2, in an advantageous further development of the invention it is ensured that the command store 9 is supplemented with a simple indication store 27 and a release port 26. In this way, the first arriving command will still be available in the indication store 27. The last arriving command can, after its correctness is been checked, is superimposed on the first command in the command store.

This happens in such a way that the command which is in the command store, with the help of the release signal from the redundancy control port 14 which briefly releases the release port 26, is transferred to the indication store and is indicated from there. A subsequent falsified command will indeed be stored, but cannot be indicated, since as a result of the absence of the redundancy control's release signal, no transfer to the indication storage 27 takes place. In this case, the information only needs to be stored in the command storage 9 from the end of the command reception to the redundancy check has taken place. For the rest of the time, the storage content is irrelevant, which can lead to a simplification of the connection.

The principle of a conference call shall be described in more detail below. A group call is understood to be one where all or a group of recipients can be called regardless of their selective call numbers. In the case of a decadal selective call number system, so-called pseudo-tetrads (digits 10 to 15) arise in the binary coding for each digit of the selective call number.

For the reception of a collection call, a value judgment link is provided which is connected in parallel with the comparison link 7 and suitably arranged for the first selective call number which responds to the digit of the pseudo-tetrad common to all stations. For the subsequent address part, for which the comparison link 7 was disabled (by the pseudo-tetrad link reacting), any arbitrary digit combination, preferably a digit of the pseudo-tetrad, can be sent. The utilization of the command and the redundancy takes place as described above.

By the device reacting to the collection number, it can be achieved by suitable connection precautions that the receipt during collection calls does not occur or that the receiving stations in time order (e.g. in accordance with the digit order of the receiving station's call number) automatically issue a receipt in the form of their own or the collection number.

To check the quality of a transmission line and/or the receiver station's operational readiness, it is also possible to transmit "blind" commands to the receivers. At the sending station, they are treated as normal commands, and at the receiving station, they are outwardly imperceptibly processed, i.e. a feedback is also triggered there, but this happens without indication in the receiver. These conditions are suitably met by the fact that the command is indeed entered into the command store 9, but is not decoded in the matrix 12 and thus is not indicated either, even if the switch 15 is closed and the acknowledgment is triggered by means of the redundancy control signal. In the case of a switching device with an indication memory, the last transmitted command will not be written over the previous command.

Claims (3)

1. Method of binary data transmission for the transmission of an address and command call of arbitrary length, in which a redundancy formed by address and command calls is also transmitted to check transmission error-free, and in which the address received in the called stations is compared with an address that is til-crdrK ' an of the called stations, and the called station on correct reception emits an acknowledgment signal, and in which the sending of the entire intelligence from the calling station is repeated until there is an acknowledgment call from the called station, characterized by the received address when sending a selective call without being stored is compared with the recipient's address., that the recipient in the event of a mismatch of at least one bit of the recipient's address, is immediately brought to rest, that at least part of the address when sending a collection call contains a criterion for a collection call and that when this collection call criterion is recognized in the receivers, no reset to the rest position occurs and the further entry of information, and that the acknowledgment calls consist of the address of the station issuing the acknowledgment call and of a command part and redundancy formed by one of these two. 2. Procedure according to claim 1, characterized in that the called stations have a delay link which is mutually coordinated so that the acknowledgment calls sent out by the called stations after correct reception occur one after the other in the station that sent the roll call• 3. Method according to claim 1 or 2, characterized in that the command call for examining the operational readiness of the receiving station and/or the functional correctness of the transmission line contains a criterion (blind criterion) which causes the receiver to send an acknowledgment call without indicating the command.