DE19944250B4 - Method for transmitting information by means of a superimposed information transmission protocol - Google Patents

Abstract

Method for transmitting information from a transmitter to at least one receiver according to a first information transmission protocol, characterized in that
at least one after the first information transmission protocol not protocol-compliant and / or erroneous data sequence (1) is generated in the transmitter, which is error-free and protocol compliant after a second information transmission protocol to transmit additional information with the second transmission protocol,
in the receiver, at least the data sequences (1) which, with regard to the first information transmission protocol, are erroneous and / or non-protocol-compliant, are evaluated for the transmission of additional information according to the second information transmission protocol.

Description

The The invention relates to a method for transmitting information between a transmitter and at least one receiver having the features of Preamble of claim 1.

In communication technology is of elementary importance, any To transfer information from a sender to a receiver. To make sure the exchange of messages between the two or more communication partners In general, communication protocols used the rules to exchange messages. Such protocols are used, for example the control of connections and the transport of user data as well in certain circumstances the exchange of network management messages. Accordingly, become between the sender and the receiver not only exchanged useful data, but also a variety of data used to maintain and secure the user data necessary. Occurring data transmission errors are thereby recognized and, for example, by performing predetermined functions, in particular the regeneration of the original data or the repetition fixed the affected data sequence.

In individual cases a data transfer can However, it happens that a transmitted certain information must become, which is to be transferred from the actual Information differs or, for example, due to fixed specifications of the user program is not over transmits the information transfer protocol can be. For example, in bidirectional image data transmission from a device A to a device B the need for the device A to request the next image from device B, although A is currently sending an image to B and thus the data line is blocked. In this particular example is a break the data transmission but not allowed to request the new image because the transmission subsequent image data processing is a continuous process and an interruption to request the next picture to intolerable Cause errors would.

When solution the problem can be an extra Line between the transmitter and the receiver are provided, via which the devices bidirectional each on the other device the transfer the next Request image. Such a solution However, it is cost-intensive due to the need for further management and still requires an extra Hardware and software control for this line.

The EP 0 838 929 discloses a broadband computer communication system. In this case, data may be transmitted in accordance with a first data protocol over a digital television network which applies a second data protocol to transmit a plurality of data streams. The computer data in the first data protocol is then embedded in at least one of the data streams for transmission conforming to the second data protocol. The data stream containing the computer data is then multiplexed with the other data streams in accordance with the second data protocol for transmission over the network.

From the US 5,935,268 For example, a method and an apparatus for generating an error detection code for a modified data packet are known. Moreover, this document discloses a method for inserting information, for example header information, into a data packet that is in accordance with a first data protocol for adapting the packet to a second data protocol. The embedded data packet may then be transmitted over a network using a second protocol.

task The invention is thus to provide a method with which it is made possible in particular without the use of additional lines of information between a sender and a receiver, which in principle or not transmitted within a certain time or protocol sequence can, should or should.

These Task is according to the invention already solved the method features of claim 1.

In this case, a second information transmission protocol is superimposed on the information transmission protocol used for transmitting information between a transmitter and at least one receiver, with which further information can advantageously be transmitted. In order to realize the transmission of data according to the second information transmission protocol, a data sequence which is not protocol-compliant or erroneous according to the first information transmission protocol is generated in the transmitter, which sequence is protocol-compliant or error-free according to the second information transmission protocol. In the receiver, the received data sequence, which is erroneous or not protocol-compliant with regard to the first information transmission protocol, then becomes the second information transmission protocol for evaluated the transmission of additional information.

hereby deleted the need for another data line, as the additional information about the same physical line is transmitted, but by means of a different and superimposed one Protocol. This is a strict separation of the commonly transmitted Payload of additional data, be it payload or Additional information ensured.

Of the Term data sequence according to the invention can mean a single information unit, but also several pieces of information, for example in one Frame included Have data, wherein a data sequence is not necessarily only consists of payload, but also redundancy or control data may include.

A Information unit may, depending on the particular application of the method according to the invention individual information elements, for example bits, or more Having elements, for example multiple bits; can also do this combined several bits be, for example in the form of a byte or a UART character.

According to the invention serves the first information transfer protocol as a carrier protocol for the second Information transfer protocol with which the further data is transmitted become.

According to the invention, the Data sequence with respect to the time course (for example, the baud rate), the Content or form (e.g., number of stop bits) is not protocol compliant and / or be faulty. Thus, the principle of the invention is on the set of rules of any information transfer protocol applicable.

A Data sequence is according to the invention faulty if the content information is not correct or not completely transferred has been. The expression "not protocol-compliant data sequence " a sequence of data that does not comply with at least one rule of the protocol, for example by using two stop bits, if that protocol is just a stop bit or the use of an impermissible baud rate.

requirement for the Invention is that in the carrier protocol nonconformities or errors can occur and these targeted according to the second information transmission protocol can be generated. The more different nonconformities or Errors are generated, the more information can be by means of the second Transmit information transmission protocol. The number of possibilities elevated itself, if both nonconformities than also errors are generated and evaluated accordingly.

In order to the data transmission after the first information transmission protocol should not be interrupted by the manipulation of the data sequence the carrier protocol respond to the generated errors or non-conformities, for example by Repetition, interpolation, regeneration or ignoring. It is particularly advantageous if the manipulation of the data sequence is performed on the transmitter side so that the non-compliances not be recognized and thus the actual data transfer after the first transmission protocol not disturbed becomes. This can for example be achieved by the generated nonconformities the sensitivity of the carrier protocol fall short, in particular through the use of very long Time intervals for the second transmission protocol or in that the nonconformity in quality and quantity designed in extremes.

Around the data transmission by means of the second information transmission protocol make fault-resistant, it can be provided that the second Protocol a mechanism for error detection and / or troubleshooting includes. Thus, both the data transmission after the first information transmission protocol as well as the data transmission by means of the second information transmission protocol against transmission errors be secured.

The principle of the invention is applicable to all information transmission protocols, in particular to serial transmission protocols. The rules of the second information transmission protocol, with which the further information is transmitted, can be selected largely independently of the rules of the first information transmission protocol. For example, a particular pattern in a sequence of data representing a destroyed character after the first information transmission protocol may be associated with another character in that sequence which corresponds to the information transmitted after the second transmission protocol. Similarly, in the second information transfer protocol, the rule may be that the occurrence of a certain type of error and / or non-protocol conformity according to the first information transfer protocol corresponds to allocated information according to the second protocol, the assignment of the error type and / or non-protocol conformity to the particular information in an assignment table is stored. Another simple to implement rule for the second information transmission protocol is that after the first information transmission protocol error-free and Similarly, an information unit that is faulty or non-protocol compliant after the first information transfer protocol becomes a transferred logical "second information transfer protocol in the dual system. 1 "interpreted.

Of the Use of information transfer by means of a "second transmission channel" can be very diverse. On the one hand it is possible in this way, for example, the data flow to separate two concurrent applications on the other hand on the transmitted by the second information transmission protocol Information the information transfer to control according to the first protocol, which ensures that despite the transmission of control data the actual information transfer is not disturbed or even interrupted. Furthermore, the inventive method also the control of the user program through the transmission the necessary control data by means of the second information transmission protocol provide.

The Principle of the invention is based on all data transfers between a Information source and information sink applicable, in particular also on information transmissions in control and data transmission systems, for example in automation technology.

The inventive idea let yourself Advantageously, even on the second information transmission protocol apply, that is, that too the second information transmission protocol for transmission from additional Information another information transfer protocol superimposed can be, with what additional to the "actual" information transfer channel provided two "virtual" data channels can be.

The The invention will be described below by describing some embodiments based on the attached Drawings explained, in which

1 a) - d) represents the evaluation of the information content of a data sequence according to a first and a certain second information transmission protocol, and

2 a) - d) represents the evaluation of the information content of a sequence of data according to a first and another second information transfer protocol, and

3 a) - d) shows the evaluation of the information content of a data sequence according to a first information transmission protocol and a further second information transmission protocol.

The embodiments relate to the data communication between a device A and a device B, which in each case through serial interfaces to a serial bidirectional connection are connected. Data is with a serial information transfer protocol in the form of standard UART characters. A single character comprises consequently one start bit, eight data bits, one even parity and two Stop bits. The communication partners transmit image files, using an XON / XOFF protocol. Once the character XOFF is received, the image data transmission is completed considered and the data passed on for further processing.

During the image data transmission, the one communication partner wants to request an increase in the transmission speed from the sender while transmitting an image data file. For this purpose, a second transmission protocol is superimposed on the first information transmission protocol, with the second information transmission protocol transmitting further information from the transmitter to the receiver. For this purpose, the transmitter side is set up to manipulate the data sequence generated according to the first information transmission protocol before switching on to the serial line. In this case, the special device in the transmitter in the data sequence generates non-protocol-conforming or erroneous information units after the first transmission protocol, ie in the present case erroneous UART characters. The errors or non-protocol conformities are generated according to the second information transmission protocol in the described data sequence. The thus manipulated data sequence is now switched to the serial connection between the transmitter and the receiver and transmitted to the device B. B as a receiver evaluates the received data both after the first information transmission protocol and after the second transmission protocol. A data stream sent to device B 1 is in 1a shown. Hereby includes a single information unit 3 a UART character, which is simplified. The left digit is the byte of the UART character in hexadecimal code, and the right digit is the other bits of the UART character, that is, the start and two stop bits, and parity. Thus, a single unit of information has a UART character in the form of twelve bits. An error-free information unit is represented by a "-" in the left-hand position 6 . 6 ' . 6 '' the sequence of data 1 have an error 7 on. The information units with the byte characters in hexadecimal notation F1, 56 and F2 are incorrect. According to the first Transmission protocol, the byte characters, which are in erroneous information units, not relevant and are therefore discarded. Thus, the following information sequence is determined by the valid data after the first information transmission protocol: "11 22 44 66 77 99 AA" (s. 1b ). According to the second information transmission protocol of the described embodiment, only the byte characters that are within a faulty information unit are relevant, and the error must occur in the first stop bit of the UART character. This error is symbolic in 1c) indicated. The information units of the data sequence are searched for this error pattern. The described predetermined error pattern lies in the two information units 6 and 6 '' before, whose byte characters in the order of their occurrence thus define the data transmitted according to the second information transfer protocol as a hexadecimal number sequence: "F1 F2" (see FIG. 1d) ). As the information unit 6 ' an error 7 in the second stop bit and thus has a different error pattern, the byte character is not evaluated as an information unit transmitted according to the second information transmission protocol.

The Data sequence "F1 F2 "includes beside the information about the baud rate with the hex number "F1" is also redundant Information for error detection in the form of the second hex number "F2", so that in case of a transmission error this can be detected and the baud rate can be requested again.

By changing the baud rate, an optimization of the transmission is achieved. For example edit a page data faster than they are currently being received, it is possible by a corresponding request to the transmitter, which this over the transmitted second information transmission protocol will, the transmission speed to increase. Depending on the utilization of the information processing unit, the receiver Thus, the transmission can be time optimized.

In same way it is also possible the transmission speed, i. the baud rate by a corresponding Requirement transmitted by means of the second transmission protocol is going to decrease.

In 2a) is another data stream transmitted to a receiver 1 represented, which is evaluated according to another method of the invention. The information units which have no error after the first information transmission protocol are again detected as a valid date after the first protocol, s. 2 B) ,

In the exemplary embodiment, the first and the second information transmission protocol according to the OSI reference model are arranged in adjacent layers, wherein the first transmission protocol is located in the lower of the two layers. An instance of this layer passes the data sequence after the evaluation according to the first protocol into the layer above it, in which an instance evaluates the data sequence according to the second transmission protocol. There are four pieces of information 6 . 6 ' . 6 '' . 6 ''' detected as having errors, the error patterns in the information units 6 and 6 '' are identical in the example shown. Just as in the transmitter for modulating the data sequence according to the second transmission protocol, an assignment table is stored in the receiver, with which the respective error pattern is assigned a predetermined information unit (s. 2c) ). This assignment specifies the data transmitted in accordance with the second information transmission protocol 2d) Information presented: "F1 FA." With this sequence of data, the device can request a new image data file, while it itself transmits data to the communication partner by means of the first information transmission protocol.

3 illustrates a further exemplary evaluation of the transmitted to the receiver data sequence, which in 3a) is shown. The information units shown are standard UART characters transmitted over a serial data line. As in the previous two examples, after the first information transmission protocol only the information units for the valid data transmission are evaluated, which have no error. Consequently, the information transmitted after the first information transmission protocol (see FIG. 3b) ) the hex number sequence: "22 33 55 88 99 BB CC." According to the second information transfer protocol, each error-free UART character is given a logical "0" and any erroneous UART characters ( 6 . 6 ' . 6 '' . 6 ''' and 6 '''' ) assigned a logical "1" (s. 3c) ). Accordingly, the information transmitted after the second information transfer protocol is determined to be bit sequence "100101100100." According to the well-known encoding of a standard UART character having a start bit, a parity bit and two stop bits, the bit string is the character "34" in hexadecimal notation equate (s. 3d) , This information is used by the receiver to set a transmission pause.

In a serial transmission, the first information transmission protocol is often a transmission protocol with separately monitored and self-contained services, the services consisting of individual characters having their own error detection. The second transmission protocol was based on the error detection of the individual characters in the previous examples. In Ge In contrast thereto, in a further embodiment of the invention, the second information transmission protocol is based on the self-contained services, the information transmitted with the second transmission protocol being transmitted in redundant data of the closed services.

Claims (13)

Method for transmitting information from a transmitter to at least one receiver according to a first information transmission protocol, characterized in that in the transmitter at least one data sequence that is not protocol-compliant and / or erroneous according to the first information transmission protocol ( 1 ) is generated, which according to a second information transmission protocol is error-free and protocol-compliant, in order to be able to transmit additional information with the second transmission protocol, at least the data sequences ( 1 ), which with regard to the first information transmission protocol are faulty and / or non-protocol-compliant, are evaluated for the transmission of additional information according to the second information transmission protocol. Method according to claim 1, characterized in that that this second information transmission protocol a protocol mechanism for error detection and / or troubleshooting includes. Method according to Claim 1 or 2, characterized in that the first information transmission protocol is a serial transmission protocol with separately monitored and self-contained services, the services being composed of individual characters ( 3 ), which have their own error detection. Method according to Claim 1, characterized in that the evaluation of a data sequence ( 1 ) according to the second information transmission protocol comprises the steps of: - comparing the individual information units of the data sequence with at least one predetermined information pattern unit - finding the predetermined information pattern unit: determining the information associated with the found information unit - arranging the determined assigned information units in a predetermined order. Method according to claim 4, characterized in that that the Assignment of the predetermined information units with the respective Information units is stored in an assignment table. Method according to Claim 1, characterized in that the evaluation of a data sequence ( 1 ) according to the second information transmission protocol comprises the steps: - Searching in the data sequence for at least one predetermined error type according to the first transmission protocol - Assignment of an information unit in the data sequence to the detected error type - Arranging the determined assigned information units in a predetermined order. Method according to Claim 1, characterized in that the evaluation of a data sequence ( 1 ) according to the second information transfer protocol comprises the steps of: - searching in the data sequence for an error in an information unit according to the first information transfer protocol - in response to the failure to locate an error in the information unit of the data sequence: assigning a single predetermined first information unit and - in response to the Finding an error in the information unit: assigning a single predetermined second information unit different from the first information unit, and arranging the determined assigned information units in a predetermined order. Method according to Claim 7, characterized in that the data sequence to be evaluated ( 1 ) comprises a number of UART characters, the first predetermined information unit is a logical "1" and the second predetermined information unit is a logical "0", and the summarized associated information units result in a UART character. Method according to one of claims 1 to 8, characterized that with in the superimposed Information transfer protocol transmitted information the information transfer after the first information transmission protocol is controlled. Method according to one of claims 1 to 8, characterized that with in the superimposed Information transfer protocol transmitted information a user program is controlled. Method according to one of Claims 1 to 10, characterized in that a further transmission protocol is superimposed on the second information transmission protocol, wherein in the receiver at least data sequences which are faulty with regard to the second information transmission protocol and / or are not compliant with the protocol, are evaluated according to the further information transmission protocol for the transmission of additional information. Method according to one of claims 1 to 11, characterized that this first and second information transfer protocols in the OSI reference model arranged in different, preferably adjacent layers are, where is the first Übertragungsprotoll located in the bottom of the two layers and this layer has a special Instance possesses, which at least the found after the first transmission protocol not protocol compliant and / or errored data sequences in the about that layer in which an instance passes the data sequence after the second transmission protocol evaluates. Apparatus for carrying out one of the preceding The method of claim 1 to 12, in particular a control and Data transmission system.