EP1497938A1 - Method and device for synchronizing a receiver with a transmitter during a transmission of data over an asynchronous network - Google Patents

Abstract

The invention relates to a method and device for synchronizing a receiver with a transmitter during a transmission of data over an asynchronous network. The data are transmitted in the form of data packets from the transmitter to the receiver via a transmission medium. An item of time information derived from a time base is inserted into the data packets. This item of time information contains information concerning the exact time at which a previously transmitted data packet was sent off. Inside the receiver, the time basis thereof is corrected by comparing the time information generated by the transmitter with an item of time information, which is generated in the receiver and temporarily stored therein.

Description

 Method and device for synchronizing a receiver with a transmitter during data transmission over an asynchronous network

description

The invention relates to a method and a device for synchronizing a receiver with a transmitter during data transmission over an asynchronous network.

A method and a system for controlling and exchanging data for multimedia devices are already known from DE 199 61 644 A1. The individual devices, in particular entertainment electronics devices, are connected to one another by means of a bus. Each activated device sends messages via the bus to the other activated devices within a specified time. Based on these messages, the other activated devices can recognize whether the respective device is activated. If no message is received after a specified time, the other devices recognize that the respective device is no longer active. A device that is activated for the first time or repeatedly only sends its own messages via the bus to the other activated devices after a period that is greater than or equal to the specified time.

WO 02/01878 A1 discloses a method and a device for the time-synchronous forwarding of signals. Signals from at least one signal source are transmitted via different signal paths to at least one signal sink. Time stamps are inserted into the various signals. In order to achieve a time-synchronous forwarding of the signals to the sinks, the delays occurring in the different signal paths are determined and a minimal total delay is calculated from the determined delays, which is greater than or equal to the delay that occurs in the signal path with the greatest delay. The time stamps used in the various signals contain information about the minimum total delay. In each signal path, an individual delay is imposed on the signal to be transmitted, that of the difference between the minimum total delay and the signal processing-related delay imposed on the signal in the respective signal path.

With many network standards, data may only be sent if the transmission medium has been free for a certain period of time. Such a procedure is known under the name CDMA (carrier sense multiple access). In such systems, it cannot be predicted at what point in time a data packet will actually be sent over the transmission medium. This property has an unfavorable effect on the transmission of time stamps, such as those found in the NTP and RTP

IETF protocols are used when the sending circuit is unable to insert the time stamp of the actual time of sending into the packet to be transmitted.

On the basis of this prior art, the object of the invention is to show a way in which the correct time for sending a data packet can be determined.

This object is achieved by a method with the features specified in claim 1 and by a device with the features specified in claim 3.

Advantageous refinements and developments of the invention are specified in the dependent claims.

The advantages of the invention are, in particular, that the respective receiver is able to synchronize its time base faster and more precisely to the time base of the transmitter.

Further advantageous properties of the invention result from its exemplary explanation with reference to the figures. It shows:

FIG. 1 shows a block diagram of a device for transmitting data via a transmission medium,

Figure 2 is a block diagram to explain the structure of the transmitter and Figure 3 is a block diagram to explain the structure of a

Receiver.

FIG. 1 shows a block diagram of a device for transmitting data via a transmission medium. The device shown has a transmitter 1, which transmits data to receivers 3 and 4 via a transmission medium 2. The transmission medium 2 can be a wired or a wireless medium. The data is transmitted in data packets. Time information generated in the transmitter is inserted into each transmitted data packet.

FIG. 2 shows a block diagram to explain the structure of the transmitter 1. The transmitter shown has a transmission stage 5, a packetizer 6 and a time base 7. The transmission stage 5 is intended to provide data packets to be sent which are forwarded via the connection 14 to the transmission medium 2 shown in FIG. The data packets to be transmitted are generated in the packer 6, which has an input connection E at which the data to be transmitted are present in the form of a data stream.

Furthermore, the packetizer 6 is supplied with a feedback signal supplied by the transmission stage 5 via a connection 11 and with time information generated by the time base 7 of the transmitter via the connection 12. The feedback signal is always generated by the transmission stage 5 when a data packet has been successfully sent. As soon as the packer 6

Receives feedback signal, it inserts the current time information delivered via the connection 12 as a time stamp into the next data packet to be sent. This data packet is then forwarded to the transmission stage 5 and transmitted to the receivers 3 and 4 via the transmission medium 2 at a point in time determined by the respective network standard.

Consequently, a time stamp is used in each transmitted data packet, which is derived from the time base 7 of the transmitter and contains precise information about the time at which a data packet was previously sent.

FIG. 3 shows a block diagram to explain the structure of a receiver. The receiver shown has a reception stage 8, one Comparator 9, a memory 10, preferably configured as a FIFO, and its own time base 11. The data packets transmitted via the transmission medium 2 and the connection 15 are received by means of the reception stage 8. As soon as the receiving stage 8 has received a data packet, it reports this via the connection 16 to the comparator 9 and the memory 10. In response to this reporting signal, this stores time information derived from the time base 11 of the receiver, which consequently provides information about the time of reception contains the data packet just received.

Further time information is also stored in the memory 10, which was formed when the data packet previously received was received and consequently contains information about the time of reception of the data packet received previously.

If the said signaling signal arrives, then the memory 10 passes on the further time information already stored to the comparator 9 via the connection 18. This compares the time information separated from the data packet just received with the time information derived from the memory 10 and supplied to it via the connection 18. This time information both relate to the data packet received beforehand, the time information separated from the transmitted data packet describing the time of transmission of the data packet previously transmitted and the time information provided by the memory 10 the reception time of the data packet previously transmitted.

Assuming that there are no signal delays due to transit time or transmission delays or that any such delay times are known and stored in comparator 9, a difference signal is formed in comparator 9 from the time information supplied to it. With the aid of this difference signal, the local time base 11 of the receiver is corrected via the connection 19 and the receiver is thus synchronized with the transmitter.

In the same way, other receivers connected to the transmission medium 2 can also be synchronized with the transmitter. After all, the correct time of transmission of a data packet is determined afterwards in the exemplary embodiment described above. This enables a receiver to quickly and accurately synchronize its time base to the time base of the transmitter.

As an alternative to the exemplary embodiment described above, it is also possible to transmit a “conventional” time stamp in each transmitted data packet and, in addition, to transmit correction signals for the time stamp contained in the previous data packet, the correction signals containing precise information about the time at which the previous data packet was sent. This solution the advantage that there is compatibility with previous standards and receivers who can evaluate the correction values can benefit from the advantages of the invention described above.

LIST OF REFERENCE NUMBERS

1 transmitter

2 transmission medium

3 1. Receiver

4 2. Receiver

5 transmission level

6 packers

7 Time base of the transmitter

8 reception level

9 comparators

10 memories

11 Time base of the recipient

11, ..., 19 connections

input port

Claims

claims

1. A method for synchronizing a receiver with a transmitter during data transmission via an asynchronous network, the data being transmitted in the form of data packets from the transmitter via a transmission medium to the receiver, and wherein the data packets contain time information generated by means of a time base of the transmitter, with the following method steps :

Sending a first data packet from the transmitter,

Receiving the first data packet by the receiver,

Storing time information derived from the time base of the receiver, which contains information about the time of reception of the first data packet,

Inserting time information derived from the time base of the transmitter, which contains information about the time of sending the first data packet, into a second data packet, sending the second data packet from the transmitter,

Receiving the second data packet by the receiver,

Separating the time information derived from the time base of the transmitter, which contains information about the time of sending the first data packet, from the second data packet, and adapting the time base of the receiver to the time base of the transmitter using the separated time information derived from the transmitter and the stored time information derived from the receiver.

2. The method according to claim 1, wherein the time base of the receiver is corrected as a function of the difference signal obtained as part of a comparison of the time information.

3. The method according to claim 1 or 2, characterized in that the data packets sent by the transmitter contain time information in the form of time stamps, which have information about the time of sending a previously sent data packet.

4. The method of claim 1 or 2, d a d u r c h g e k e n e z e i c h n e t that the data packets sent by the transmitter contain time information consisting of time stamps and correction signals, the correction signals having information about the time of sending a previously sent data packet.

5. Device for synchronizing a receiver with a transmitter during data transmission over an asynchronous network, with a transmitter (1), a transmission medium (2) and a receiver (3, 4), the transmitter (1) having:

a time base (7) for generating time information,

- A packetizer (6) connected to the time base, which is provided for generating data packets into which time information derived from the time base (7) of the transmitter is inserted, the information about the

Contain the time of sending a previously sent data packet, and

- A transmission stage (5) connected to the packer (6) for sending the data packets generated by the packer, and wherein the receiver (3, 4) has:

a receiving stage (8) for receiving the data packets,

a time base (11) for generating time information,

a memory (10) connected to the time base (11) for storing time information which contains information about the time at which a data packet was received,

- a separation stage (8) for separating the time information generated by the time base of the transmitter, which contains information about the time of sending a previously sent data packet, from a received data packet, and - an adaptation stage for adapting the time base (11) of the receiver to the Time base (7) of the transmitter using the separated time information generated by the transmitter and the stored time information generated in the receiver.

6. The device according to claim 5, characterized in that the adaptation stage contains a comparator (9), which is provided by a comparison of the separated time information generated by the transmitter and the stored time information generated in the receiver for correcting the time base (11) of the receiver Differential signal determined.

7. The method according to claim 5 or 6, characterized in that the memory (10) is a FIFO memory.