SE414086B - SETTING TO CONTROL THE DATA EXCHANGE BETWEEN A CENTRAL COMPUTER AND AT LEAST ONE OF MULTIPLE TO A COMMON TRANSFER ROAD CONNECTED DATA TERMINALS AND IN A PERFORMANCE OF THE SET DATA TRANSFER SYSTEM - Google Patents

Description

7o1ossa-o 10 -15 20 25 30 35 40 f) t. treatment systems and greatly facilitates the operation of connected systems by the communication arranging function can be remotely controlled from each remote terminal and by arrange computing equipment at each such terminal. These additional terminal capacities in fact free up the off-computer from the time-consuming task of establishing a coating sequence, which is required in known systems with e.g. telex terminals at the remote station.

In Countercurrent communication between some of the remote terminals and a central computer can, with a view to special traffic congestion, in is in fact blocked by the scanning system provided in the system. or the follow-up routine. They can, for example, in the morning, when central the computer worked during working hours, the same or the terminals have an accumulation of information, which is to be transmitted over The net. During this period, when the central computer during an extended period working during the selection process, be able to terminals want to communicate with the central computer over the same line.

This is of course not possible with a normal scan or select technology, because the central computer usually arranges the routine .or the frequency with which the respective terminals selectively called, for example in a scanning or selecting sequence.

In this mode, a terminal has to wait its turn, as this is determined by the frequency with which the central computer calls the respective terminals according to either a scanner or a selective technique. Furthermore, the problem is for a remote terminal to gain access to the central computer via the communication line complicated in cases where, for one reason or another, different traffic terminals are scanned more often than low-traffic terminals, or the central computer performs an extended, selective switching sequence. At previously known systems would on such occasions one or more terminals, which ~ wish to gain access in a special way to the central computer, simply have to wait for their normal turn, as determined by the computerized query message the consequence. ' An object of the present invention is to improve the efficiency 1 of the transmission of data between a plurality of remote located computer terminals and a central computer.

The present invention thus relates, in the first place to a way of transmitting data between a communication network a central computer and a number of selectable of a plurality of callers 10 '15 ~ 2O 25 55 40 7010558-0 __ _ 5 _ remote data terminals, which are over a common transmission path connected to the central computer, one sent from the central computer address characters are compared with the addresses already stored in the data terminals characters and, if appropriate, one for the current data term the signal control signal was sent back to the central computer. Up- The finding then consists mainly in the fact that in a called data terminal or remote terminal, independent of control from the central computer but depending on the nature of the desired data exchange, instead of the address sign of the current remote terminal, at least an additional character corresponding to the address character of this terminal - circular address, signs of change of operation, busy characters, local operating license characters - in the remote terminal selectively compared with the address sign coming from the central computer, that due to this comparison either no signal at all (local operating state) or another control signal (signal for transmission standby, busy signal) from the remote terminal was sent back to the central computer, so that in this depending on the presence of resp. the nature of the returned control signal, either the mode of operation (send / receive) changes or the address character for further a remote terminal was transmitted by the central computer.

The invention also relates to one for carrying out the aforesaid intended data transmission system with a central computer and to this over a connection link usable for several data terminals connected data terminals, of which at least one of several is provided with an address memory, intended to store the address characters, on the one hand a comparator, intended to compare from central the computer sends the address sign with it in the address memory of the terminal stored the address sign to determine an addressing to it intended terminal, said data transmission system being is indicated by the fact that the address memory is arranged to also store against the address sign of the terminal corresponding to additional characters and that in this terminal is also provided with a control means provided with control means. logic for selective change of at least part of the address memory stored data.

This design of the system frees the remote terminals and the central computer from slavishly following a transmission pattern which for example, has been established at the central computer, when one or more terminals have urgent messages to transmit.

According to the invention, the said data transmission system can also provided with bodies specified in claims 5-7. 7010558 -fl 10 20 25 50 _ 4 _ The invention is now described in connection with the appended claims drawings, which show: Fig. 1 is a block diagram of a data transmission system according to the invention, Fig. 2 is a diagram of a remote terminal in the system according to Fig. 1, Fig. 5 is a more detailed diagram of the remote terminal according to Fig. 2, Fig. 4 is a logic flow diagram of a mode of operation of the system of Fig. 1 and Fig. 5 is a logic flow diagram of another mode of operation of the system of Fig. 1.

Fig. 1 shows a block diagram of a typical direct connected data transmission system according to the invention. A central computer 11 with associated connected memory devices 15, 15, 17 19 and 21 for input / output data are connected via a transmission link 22 to a plurality of remote data terminals 25. The central computer can for example placed in the head office of a business firm and remote terminals 25 in the same company's branch office. These can is in the common building or far from it.

In each case, the remote terminals are via a modem (modulator demodulator) or line traffic adapter 25 connected to the guide link 22. This can e.g. consist of normal telephone wires, which connect via a central automatic telephone exchange 27 the remote terminals 25 to the central computer 11. The remote the terminals are suitably arranged in an applicant and selection transmission technology, whereby the respective remote terminals are arranged to perform data processing functions in accordance with their respective independent programs and to communicate with the central computer 11, whenever the remote terminal is called off a question message.

Fig. 2 shows a simplified block diagram of a remote terminal according to the invention. The remote terminal 25 is thought to exist of three main sections: a remote unit 55 comprising one main memory 55 and an input / output keyboard 57; one call organizer 41 with its secondary memory 45 and control logic 45 40 7010558-0 _ 5 _ for terminal calls as well as a buffer memory 47. Buffer memory 4? output is by a suitable device, e.g. a modem 25, connected to the input of the transmission link 22. The terminal sections shaping and mutual working methods are described in detail in it following in connection with Figs. 5, 4 and 5, the corresponding reference numbers are used to indicate the respective sections at terminal 25.

Of Figs. 1 and 2 together with tab. The design “ and the function of the different parts of between computer and remote terminals transmitted question and answer messages delanden. 7010558-0 _ 6 _ A..

SCANNING, CONSIDERATION, SENSE OF CONCLUSION cENERALDAmon AvsöKAEE _ _ ERKÄNINAINNa ARKÄIIIJANDE A E MESSAGES c x ANEoPsoEDNAEE s A A x s E E E oDDNEEExEEc o H 1 2 ff x x c m E.

AvsöxN. DOWNLOAD NO MESSAGES cENERAL- SCREEN THE CLOSE EDÅTOR E A A P E o D D o N E 1 2 L Q ANEoEs- E ONDNARE 0 m O.

URVAL, EIEALL, MoMAGN. OF MESSAGE ocn EEKÄNNANDE cENmEAL- vÄLJAEE MESSAGE COMPUTER ' EAAsE \ EEx./sAAxs EE o-DDEN oDDMETExEEc- EEK.

E 1 2 L Q, H 1 _2 # x x c ANEoPs- oEDNARE A A c c x x D.

SELECTION WITH NO APPROVAL CENTRAL VOTER COMPUTER CALL ' ARRANGEMENTS SIGN- EXPLAIN.

^ FUNCTION MESSAGE FORMAT 13: Cancun 10 15 20 25 30 35 40 ~ w 7010558-o " Inputs A-D in tab. Illustrate typical examples of means n-A it, exchanged between the remote terminal 23 and the central computer 11.

The remote terminal 23 is suitably capable of operating either at side of the line or on the line. According to the former method the processing tasks are performed by the remote unit 33 in accordance with programs and object data, stored in its memory. According to the said method, the remote unit 33 relies on communications via the communication link with the central computer for at least part of its function. In this case, the remote terminal 23 preferably operates following a scanning and selecting technique. _ An inquiry question message is defined as a message, at which the central computer 11 asks one of a plurality of callers remote terminals, for example in a predetermined order, and asks if the called remote terminal has a message ready for transfer to the central computer. A selective question message is defined as a message through which the the computer asks one of several remote terminals called in the communication network, informing the called remote terminal, that the central computer has a message ready to be transmitted to it called the remote terminal. , o In either the scanning or answering question, if a called remote terminal is not ready to receive one message, ie. it either works independently or otherwise reason is not ready to receive or send a message to reply to a questionnaire received, addressed to it, the call organizer 41 automatically centralizes the computer 11 with a suitable one "not ready" message. As shown by inputs B and D in tab. In, the caller answers to a scanner with an EOT and to a selector with a NAK to indicate that it is not ready to send resp. receive a message. Upon receipt of the negative recognition from the called remote unit returns the central computer either its message, which may have been difficult in the transmission channel, or it can continue with its _ scanning or selecting order to the next remote terminal in the normal sequence of calls.

As shown by inputs A-D in tab. I is the function of or the explanation of the message written above the signal, which indicates the type of wavy line and the wording of the message indicated below the line. The wording of the message includes, read from left to right, characters 1, 2, 3 ..... N. The respective 701-0558-0 10 15 20 25 30 35 40 _ 5 _ the indicated characters are borrowed from the United States Standard Code for unilaterally exchanged information (USASCII).

Input A in tab. I shows a message selection for a typical scanning operation. The first character in it of the central computer 11 the transmitted message consists of the final character EOT on the transmission.

All transfer basins start with this EOT character or other appropriate sign. The EOT character follows two call characters AD1 and AD2. In a typical multi-terminal line technology, each remote terminal 23 ha to the central computer 11 directed a plurality of calls indicating double characters, which are stored in e.g. an expected message part of the caller's 41 memory. The following call signs are the POL and Inquiry ENQ characters. Inputs C and D and tab. I show a similar message from the central computer 11, as collected and transmitted for the type of selective question message the POL character replacing the SEL in the applicant's message layout, illustrated at entrances A and B.

Figures 1 and 2 show that each terminal 23 responds through its call organizer 41 only on messages that are special directed to this terminal, even if the transmission network for the eye operates by scanning, with each remote terminal 23 receives all messages, transmitted by either a remote terminal or by the central computer. If, as is the case in the past known systems, each terminal having only a single address, 1 minal in fact completely subject to the central computer, which establishes the scanning and selecting routine as well as also decides the frequency with which each terminal 23 in the network must take against a scanning eel selecting message, addressed to the same. According to the present invention, the terminal call logic expands 45 - which may include a shift register or other memory storage and logical gate for storing an address, generated either of the counting means 33 of the remote unit 33 or the caller 41 to allow either the remote terminal operator or the central computer to determine in advance the terminal address, which in turn determines, which_secently received messages the remote terminal will be answer, the possibilities of the remote terminal, by determining when the current, ie. the changed terminal address, matches with the call sign of the question message, which are transmitted from the computer. As will be more fully explained in the following in connection to Figs. 3, 4 and 5, the remote terminal is given the opportunity to gain access by selectively changing their address 10 15 20 25 30 35 F 9 _ vo1ossa-o _ the central computer by interrupting the scan-selecting function- * W tion, which is organized by the Central Unit. This interruption of it the scan-select function can in principle be performed either by programming the central computer to change the transmission method for question messages, if it does not receive either a positive or a negative acknowledgment from the terminal, to which the last message was addressed, or by receiving remote the terminal to transmit a control character message, if its address has changed . " Fig. 3 shows a logical block diagram of a remote data terminal 23 according to the invention. As described above, includes the remote terminal 23 has three main sections: the remote unit 33, the the organizer 41 and the terminal buffer memory 47.

The remote or terminal unit 33 suitably comprises one machine for stored programs, in which object data is processed in one counting means 51 according to a sequence of subprogram instructions, stored in and retrieved from the main memory 35 in a certain order. In- the passage channel 36 and the keyboard 37 are arranged to via a input buffer register 39 selectively enter object data into the device 33. The main memory 35 may, for example, consist of a rotatable magnetic disc, which has a plurality of read and write heads, whereby one receives an unlimited main subject memory section, and is further equipped with a plurality of fixed read heads, whereby one obtains a limited, stored program portion of memory. The information and object data, which is stored in the main memory, is processed in the the means 51, such as may include a full charger and suitable over input gates selected networks, not shown. A memorable address register (MAR) 53 is active via gates 55 and 57 associated with the memory selector array to access a suitable one part of the memory corresponding to one in the MAR register of order encoder 59 entered address.

When operating the remote unit to perform its tasks, as indicated by the current program, calls and asks the memory address register 53 periodically retrieves the main memory and retrieves from an appropriate program order, determined by the address} the encoder 59 is stored in the memory address register 53. The one from the memory fixed part retrieved the suborder is stored in order in the order the encoder 59. The output of the order decoder 59 allows for suitable control was able to control various gate functions in the remote unit. The order decoder controls via gate 63 corresponding to downloaded program order one 701 0558-0 10 15 '20 25 30 35 40 _ 10 _ profit and loss account 61. This, which may include a counter, emits a series of timed result levels or time pulses for control the various logical functions of the remote unit, taking e.g. influence of an adder or the exchange of information memory memory, input buffer register 39, order decoder 59, memory 35 or printer 65. As can be seen, the remote unit 33 means 51 or memory 35 via gates 67 and 69 directly affect printer 65 and thus provide a black print on paper of a hard copy output of the result of the calculator -calculation. As in a normally stored program machine, the remote unit 33 emits, for example by its adder logic after decoding each order through the order decoder 59 and execution through the memory 35 and counting means 51 a feed signal to one with the order decoder 'connected counter, thereby advancing the order counter to the next counts in its regular order. Corresponding to the new content of the order counter would be the next order in a series of suborders retrieved from the main memory 35 and successively input to the order decoder 59. In this way, the following different syllables in a memory words are transferred to the order decoder in order to should magnetize the control matrix to remove from memory the current program steps and / or data. Then the order decoder would corresponding to the decoded program order in a corresponding manner influencing the result machine 61 to output appropriate logic time signals to enable the remote unit 33 to perform the task indicated by each decoded program order. As they differ the steps in the series program have been executed in order, a suitable output is output to the printer 65.

In addition to being able to work alongside the line or stand alone the remote unit 33 has the possibility to operate online and communicate with the central computer 11, as shown in Fig. 1. communication with the central computer is controlled by the call organizer 41. the organizer 41 is preferably a storage program machine and can in construction and function be similar to the remote unit 33.

The function of the call organizer 41 is to arrange the traffic on the line i in accordance with a stored sub-program for controlling the system, the editing, formatting and parity checking of messages, which are transferred to and to which they were received from the central computer This in the remote unit.

The secondary or message memory 43 is arranged to store messages, which should be sent to and received from 10 15 20 25 30 35 40 7010558-0 eentraidatorn and to store a ffsija of áelordéi- for control function of a dialer 75's counter 75. Message- memory 43 can e.g. consist of a rotatable memory, which has one read and write part for storing messages and a fixed memory for storage of suborders. A main selector array, not shown, as affected by a memory address register 77, was used to control access to memory 43 to retrieve suborders and to retrieve messages stored in the same. Caller's 41 memory address register 77 controls access to or reading the suborder from the memory for messages to a decoder register 79. Those from the subwords retrieved from the memory 43 are decoded in the decoder register 79 by means of the output of the decoder register 79, which controls the output system 81 in accordance with the contents of the decoded program step. On this method, the decoder register 79 controls the generation of appropriate logic gate signals for controlling the 75 Operation of the counter, which counting means may consist of a full adder and suitable grinding for processing data in accordance with the decoded subwords.

As is previously known, the resultant emits 81 suitable time signals corresponding to a signal from an oscillator 83 to control logic gates 85, 87, 89, for example gates 35 function, which control the exchange of information between memory address ~ register 77 and the calculator 75. Function of the result machine, l 11 _ 'which machine may comprise a counter, may further be controlled by suitable control signals TX and RX, which denote a function of pager 41 or its buffer memory 47 transmission or reception permit.

When the remote unit 33 has a message to transmit to the central computer, the message is collected from the beginning, which carried, by the remote unit 33 in a special part of the memory 35. After control and determination of transfer resp. receive signal registers 91 and 93, the remote unit selects an appropriate one time and transmit the message from the remote unit 33's memory 35 to the memory 43 of the pager 41, for example via counting logic 51 and the decoder 59. Thereafter, the remote unit 33 is free to return turn to their independent task and the caller 41 waits receiving a scan from the central computer 11 to start transmitting the message stored in memory 43.

-Sorder and wording or layout (format) on query and corresponding messages, transmitted between the caller and the computer 11, have previously been described in detail in connection to Figs. 1 and 2 and tab. IN. 701 0558-0 10 15 20 25 30 35 40 M 12 _ When the call organizer 41 receives a question message from the central computer 11, affects the RX, i.e. one signal indicating that a carrier has been sensed, logic gate 95, wherein the function of the results agency 81 in receiving technology begins. The the received question message is transmitted as binit for binit in series from modem 25 to buffer memory 47, as received in series from the line. The information stored in the buffer memory 47 is compared then in a comparator 101 with an expected message layout, previously stored, for example, in an expected message memory 103, which may comprise some memory, for example a field of flip-flops, arranged to store coded information in the form of the expected message the layout, as described above in connection with tab. IN.

As can be seen, the logic gates 105 and 107 in interaction with suitable time signals, for example to-t5 be used to transfer the contents of the buffer steps 47 and steps, respectively and the waiting message memory 105 to the comparator 101. On in this way the respective binary binites can be in the appropriate ones the parts of the received and expected message memory are compared binit for binit to check the similarity between them. In addition, they can respectively the binites in the received message, extensive the parity binite and the call binites, are compared to determine if the parity of the received message is correct and if the message, as it received, is. directed to the reception center.

In the event that the parity of the received message and call parts correspond to the information or data stored in the expected ~ message memory, would be the comparator's output would be logically correct and gate 109 would suitably emit a signal to the counter 75 of the pager 41. Correspondingly to this comparison indication, the caller's means 75 e.memory address register 77 that from memory 43 obtain appropriate positive recognition, if it is established that the caller 41 is properly set to answer the question message, ie. either a scanner or a selector question. Then the message, which is to be transmitted to the central ~ the computer is read from the message memory 43 via the logic gate 89 with a suitable time signal to the buffer memory 47 for transfer via the communication link 22 to the central computer 11.

In connection with the description above, it will be appreciated that only the remote terminal 23, to which a special question message is directed, responds by sending one via the communication link a special signal 10 15 20 25 30 35 40 '7010558-0 _13- positive or negative recognition of the central detector. On this way, this can establish and maintain a sequence or a series of question messages and thereby ensure regular data entry. However, as explained above, does not allow this tightly controlled control of the called terminal in cases where, for example, the terminal requires a conduct different from that which is characterized by a special received question message.

According to the invention, a terminal is provided with increased flexibility to arrange logic circuits, influenced either by the operator or of a received message, for selectively varying or changing the address of the terminal. As shown in Fig. 3, disconnect gates 121 and 123 wait for the message memory 103 to the terminal the call control register 125. The input to the terminal call control register logic 125 is connected via gates 127 and 129 to the order the encoder 59 on the remote terminal 23 and to the pager 41 decoder register 79. In this way, either the operator, who serves the remote terminal 23 or the pager 41 at its part program control or in response to a received order, as appropriate actuate the gates 127 and 129 to perform a - changing the address of the remote terminal by storing in the waiting the message memory 103.

This change can be made by leaving the expected message memory 103 retrieve the address and replace it with a new address, tuned by the caller ID and Transferred to the terminal call controller register 125. As can be seen, gates 121 and 123 are provided exchanging data between said register 125 and memory 103. When gate 121 is affected, it disconnects information from the waiting the message memory 103 to the register 125, while the gate 123 conversely is arranged to connect information from the terminal address control register 125 to the waiting message memory 103. On this way can, as described above in connection with tab. IN, the waiting part of the call message layout is modified or replaced.

When modifying the terminal address, it is of course desirable, that the address is not changed to match anyone else terminal, which is simultaneously connected to the communication network link.

This control function could, of course, be assigned to the the organizer's 41 sub-programs. ' By arranging the terminal call control logic 45 (Fig. 2), which, as shown in Fig. 3, may comprise a terminal call control ~ 7010558-0 10 15 20 25 30 35 40 _14- register 125 and appropriate logic gates 121, 123, 127 and 120 for controlling the exchange of caller data in the waiting message memory 103, know the communication capabilities and capacity she the remote terminal is greatly increased. This terminal address control logic 45 frees the terminal from the need to unconditionally answer each question message from the central computer. For example. if the operator performs one special routine during which it is desirable not to be interrupted, the operator can conveniently enter information via the keyboard 37, which through the decoder 59 Affects the gate 127 to start the gear mi of terminal address information between the terminal address control register 125 and the waiting message memory 103. When changing the waiting the address part of the message, stored in the waiting message memory 103, the operator makes sure, for example, that the terminal does not a message will be acknowledged by the central computer 11 transferred to the terminal during its modified or normal terminal address.

According to another object of the invention, there is provided when the terminal 23 is intended to operate during transmission according to a scanning and selecting technique, that in pending message memory 103 have separate message address memory cells for de_ respectively the scanning and selecting question messages. Thus terminal 23, when switching terminal calls for either 'a scan or a selection, after the influence of the operator or on orders from the central computer, continue to respond to them question messages, for which the remote terminal address portion of it the expected message has not been modified. As in the following will be discussed in connection with Fig. 5, the central computer Question message programs are planned to include an automatic branch point or a jump to the other type or way for question message, in the event that a called terminal is lets respond by sending either a positive or a negative recognition. In this way, a called remote terminal can be cause the central computer to switch from one of the message to the other by exchanging his address for one special manner, thereby causing the terminal to fail to acknowledge any message addressed to its old address to it, thereby inhibiting the transmission of a response, i.e. ACK or NAK, from the called terminal.

As shown in Figs. 4 and 5 together with that in Fig. 3 shown the logical scheme, two ways of influencing remote 10 15 20 25 30 35 40 7010558-0 _15 .. the terminal according to the invention in a communication network. The i Figures 4 and 5 show the flow charts representing the states or the sequence steps that the terminal logic performs to determine, if a received question message is addressed to the terminal and, if so, what action is to be taken.

As can be seen from the flow charts of Figures 4 and 5, the organizer in dependence on the profit and loss institution 81 is normally in idle permit 135- In äeüüitï fl the executive agency 81 stipulates that the the organizer's 41 logic to search for an expected message layout. As appears, the reception of a transmitted reception signal RX, for example, a sensed carrier, the caller Ur'GI fl åD9SCUlSfå flfi et and into the message receiving state 137. In the message receiving state, the query message is stored in the buffer memory 47.

After, for example, an appropriate number of data bits have taken as determined by the questionnaire layout, the results a suitable signal to move the pager 41 to parity check mode 139. As shown in Fig. 3, this can be by retrieving from the expected message memory 103 appropriate parity binite and in the comparator 101 compare it with the received one the parity binite. If the parity is properly matched, arrange the result agency 81 the caller in succession or step by step to the the routine check state 141, while the call organizer would be returned to the idle state 135, if the parity the trolls are negative.

If the terminal address has not been changed, and the reception term the channel is the terminal to which the question message is addressed, would, as shown in Fig. 4, the remote unit in accordance with its availability status at this time move to reply-to- query state 143, in which the caller 41 would pass its sub-program provide the appropriate recognition, ie. ACK or NAK.

If e.g. the message was a scanner and the call terminal had a message to send to the central computer 11, the result work 81 move the caller to its text transmission state 145, wherein the consequence of retrieving the message from memory 43 and transmission of this message to the buffer memory 47 would begin.

In accordance with its sub-program, the caller would provide one appropriate check-binit or series to, as described above in connection with tab. In, join the message. About the message duly received at the central computer 11, it would respond with an acknowledgment, which indicates that the message is properly 7010558-0 15- 10 15 2o_ 25 30 35 40 received, after which the call order 41 would move to the stand 147 to acknowledge that parity was either correct or did not match and go through the appropriate return or return turn to its idle state 135.

If in the call routine check state 141 the address is not favored and matched the address portion of the wait message stored in the wait message memory 103, either message was not intended for reception terminal or was distorted during transmission, which would be an error, or have pending message layouts address part, stored in memory 103, has been changed.

The terminal's 23 replies to this point would depend on, if the answer ' would be active or passive. As shown in Fig. 4, the caller, if the answer is active, then in the absence of a question message decontrol move to state 149, at which point it would do, if its terminal address had been changed or modified. If if this did not happen, the terminal would, under the control of the results agency 81, ignore the message by returning to idle mode. stand 135. If the terminal address of the receiving terminal 23 had changed, and it would be in the active answer state, would the caller 41 move to the character control state 151, in which it would issue an appropriate control signal to be transmitted to the central computer 11.

This control sign could, for example, sound the central computer 11 understand that the called terminal wanted the transmission method changed, for example, from scanning to selecting or vice versa and that a questionnaire was again addressed to it.

According to this method of transmission, the terminal call would then return to the idle state 135 and await receipt of next query message from the non-neutral computer 11.

As described above, it is according to an object of the invention it is desirable to have separate scanning and dialing calls stored in the waiting message memory 103, whenever the terminal operates takes in scanning-selecting techniques. As shown in Fig. 5, moves the caller, after the terminal, if the parity is correct proactively, proceeded to parity check state 139, after which the pager switches to state 155, in which it receives the questionnaire taken is compared to determine whether it holds a scanning or selecting question message. This comparison is made, as described above, by comparing the binites of the questionnaire received with the corresponding binites, stored in the waiting message memory 103. 10 15 20 25 30 55 40 7010558-0 _17- About a correct comparison between the received and the stored memory is done, the gate 109 (Fig. 3) signals to the pager 41 counting means 75, on the type of question message duly has been received. The caller then moves to the appropriate resetting the address message state 157 or 159, depending on the type of message received. As it seems, the address recovery state can be freely modified by either an operator input or the remote instruction through location of the result plant 1 address modification state 161.

As described above in connection with Fig. 5, is determined the activity of the caller 41, whenever the address of the recipient part is not compared with the corresponding part of the question message layout, of whether the communication system and especially the terminals are in the active or passive state. As described in connection Fig. 5, the remote call organizer 41 in active supply stand a control character to the central computer instead of a normal one ACK or NAK response, thereby alerting the central computer if their new address.

According to Fig. 5, the state 141 is positive (yes), if the message In the address and stored terminal message address match, and the pager is moved, as described above in connection to Fig. 4 properly through states 145 and 147 to complete the transmission of the message from terminal 23 to the central computer 11. However, if the remote terminal 23 is in it the passive state, i.e. there is no control call signal to send to the central computer and the address part of the query message does not matches the terminal address in state 141, the terminal returns to the idle state 135, neither of the remote terminal address has changed or not, as stated in the permit 165.

However, in the passive state, the central computer is programmed preferably to change the method of transmitting the query message de, i.e. from scan to select or from select to scanning, and to redial the terminal 23, which has failed to respond to a previous question message call to the same, as appears in state 167. In the passive state returns in fact the remote terminal 23 to the idle state 135 and the central computer 11 calls again, after changing the query, terminal, which failed to answer the previous question the message, thereby providing the terminal with the type of message, which it requested through its passive action, ie É? O1osss-o 10 _ 13 _ the terminal's failure to respond to the question message, which directed to it from the central computer 11.

In the foregoing, a remote terminal has been described, which working in a scanning and selecting technique. Various modifications within the framework of the following requirements can of course be undertaken. Thus may, for example, in addition to separate scanning and selecting calls, as shown in connection with Fig. 5, the remote terminal is provided with an additional address to be used e.g. by radio call.

The radio method can be defined as the mode of transmission in which a predetermined number of remote terminals are grouped together joint radio call with the possibility of each radio group's terminal to svamipà appropriate way, e.g. in a predetermined order, in response to the receipt of a radio message addressed to it 5ruPP ~

Claims (7)

7010558-0 Eatentkrav A method of controlling the data exchange between a central computer and at least one of several data terminals connected to a common transmission path in data transmission systems, wherein an address character sent from the central computer is compared with the address characters stored in the data terminals and accordingly one for the current data terminal. characteristic control signal is sent back to the central computer, characterized in that in a called data terminal or remote terminal (25), independently of control from the central computer (11) but depending on the nature of the desired data exchange, instead of the address sign of the current remote terminal (25) , at least one additional character corresponding to the address character of this terminal - circular address, mode change character, busy character, local operating license character - in the remote terminal (23) is selectively compared with the address character coming from the central computer (11), that due to this comparison no signal at all (local operating license) or another sty signal (signal for transmission readiness, busy signal) from the remote terminal (25) is returned to the central computer (11) so that in it depending on the presence of resp. the nature of the returned control signal, either the mode of operation (transmission / reception) is changed or the address character of another remote terminal is transmitted by the central computer. In a data transmission system intended for carrying out the method according to claim 1, with a central computer (11) and to it connected via a connection link (22) usable for several data terminals (23), at least one of several is provided with an address memory ( 105) intended to store the address sign of the terminal, and a comparator (101) intended to compare the address sign sent from the central computer with the address sign stored in the address memory (10š) of the terminal to determine an addressing to the intended terminal, characterized in that address the memory (105) is arranged to also store additional characters corresponding to the address characters of the terminal and that in this terminal a control logic provided with control means (125) is also arranged (rigs 2, 41,45, rigs 3, 121). , 125, 125, 127, 129) for selectively changing at least a portion of the data stored in the address memory (105). 701f05S8 ~ 0 20 5. A data transmission system according to claim 2, characterized in that the control logic is performed for storing at least one further character_in the memory (105) for expected messages instead of the address character previously stored therein. Data transmission system according to claim 2 or 5, characterized in that the control logic enables a retrieval of the original address character in the memory for expected messages (105) after an address change. Data transmission system according to claim 2, 5 or 4, which is designed for call scan operation (information flow mainly from the terminal to the central computer) and selector transmission operation (information flow mainly from the central computer to the terminal), characterized in that the terminal has different memory element (i105) for storing an address sign for call scan operation and an address sign for dial transfer operation. 6. A data transmission system as claimed in Claim 5, characterized in that the call address character or the dial address character can be selectively changed independently by means of the control logic. Data transmission system according to one of Claims 2 to 6, characterized in that a device for transmitting a predetermined information to the central computer (11) is connected after the comparator (101). MENTION PUBLICATIONS; us s 245 oss (340447)