Method and device for synchronizing network subscribers in an on-board network of a vehicle

The invention claimed is: 1. A method for synchronizing network subscribers in an onboard network in a vehicle, the method comprising: synchronizing a first timer of a first network subscriber on the basis of a reference time, wherein the reference time is derived from a signal that is suitable for synchronization; transmitting a synchronization instruction by the first network subscriber as a message in a next time slot of a time division multiple access (“TDMA”)-based bus system following a reception time of the signal that is suitable for synchronization; wherein the message is dependent on the first timer and comprises a current time that the first timer outputs when the message is produced or a current time that the first timer outputs when the message is produced and additionally incorporates an information about a latency between the reception time of the signal and a start of the time slot used for transmitting the message; receiving the message that is dependent on the first timer that is existent in the first network subscriber by at least one second network subscriber when a predetermined condition is satisfied; synchronizing a second timer in the second network subscriber on the basis of the message that is dependent on the first timer when the predetermined condition is satisfied; wherein the predetermined condition is time-triggered; wherein the time-triggered condition is the timing of the next time slot in the TDMA data transmission method in the network. 2. The method as claimed in claim 1 , wherein the signal from which the reference time is derived is a wirelessly received signal. 3. The method as claimed in claim 2 , wherein the wirelessly received signal is a global navigation satellite system (“GNSS”) signal. 4. The method as claimed in claim 1 wherein the predetermined condition is event-triggered. 5. The method as claimed in claim 4 , wherein the event-triggered condition is the output of a predetermined sensor signal. 6. A control apparatus comprising: a first network subscriber having a first timer, the first network subscriber configured to synchronize the first timer of the first network subscriber on the basis of a reference time, wherein the reference time is derived from a signal that is suitable for synchronization; the first network subscriber configured to transmit a synchronization instruction as a message in a next time slot of a time division multiple access (“TDMA”)-based bus system following a reception time of the signal that is suitable for synchronization; wherein the message is dependent on the first timer and comprises a current time that the first timer outputs when the message is produced or a current time that the first timer outputs when the message is produced and additionally incorporates an information about a latency between the reception time of the signal and a start of the time slot used for transmitting the message; at least one second network subscriber having a second timer, the at least one second network subscriber configured to receive the message that is dependent on a first timer that is existent in the first network subscriber by at least one second network subscriber when a predetermined condition is satisfied; the at least one second network subscriber configured to synchronize the second timer in the second network subscriber on the basis of the message that is dependent on the first timer when the predetermined condition is satisfied; wherein the predetermined condition is time-triggered; wherein the time-triggered condition is the timing of the next time slot in the TDMA data transmission method in the network. 7. The control apparatus of claim 6 , wherein the predetermined condition is time-triggered. 8. The control apparatus of claim 6 , wherein the predetermined condition is event-triggered. 9. A non-transitive computer readable medium having instructions stored thereon that, when executed by a computing device having a processor, configure the computing device: synchronize a first timer of a first network subscriber on the basis of a reference time, wherein the reference time is derived from a signal that is suitable for synchronization; transmit a synchronization instruction as a message in a next time slot of a time division multiple access (“TDMA”)-based bus system following a reception time of the signal that is suitable for synchronization; wherein the message is dependent on the first timer and comprises a current time that the first timer outputs when the message is produced or a current time that the first timer outputs when the message is produced and additionally incorporates an information about a latency between the reception time of the signal and a start of the time slot used for transmitting the message; receive the message that is dependent on the first timer that is existent in the first network subscriber by at least one second network subscriber when a predetermined condition is satisfied, and synchronize a second timer in the second network subscriber on the basis of the message that is dependent on the first timer when the predetermined condition is satisfied; wherein the predetermined condition is time-triggered; wherein the time-triggered condition is the timing of the next time slot in the TDMA data transmission method in the network. 10. The non-transitive computer readable medium of claim 9 , wherein the predetermined condition is time-triggered. 11. The non-transitive computer readable medium of claim 9 , wherein the predetermined condition is event-triggered. 12. A method for synchronizing network subscribers in an onboard network in a vehicle, the method comprising: synchronizing a first timer of a first network subscriber on the basis of a reference time, wherein the reference time is derived from a signal that is suitable for synchronization; transmitting by the first network subscriber a synchronization instruction as a message when a predetermined condition is satisfied; receiving the message that is dependent on the first timer that is existent in the first network subscriber by at least one second network subscriber when the predetermined condition is satisfied; synchronizing a second timer in the second network subscriber on the basis of the message that is dependent on the first timer when the predetermined condition is satisfied; wherein the predetermined condition is event-triggered; wherein the event-triggered condition is the output of a predetermined sensor signal; wherein the message that is dependent on the first timer that is existent in the first network subscriber comprises a time of recognition of an event causing the event triggered condition or wherein the message that is dependent on the first timer that is existent in the first network subscriber comprises a time of recognition of an event causing the event triggered condition and additionally incorporates an information about a latency between the event and the time of the message being sent.