Abstract: A method of scheduling traffic in a network node is provided. A cyclic traffic schedule for a first traffic class, such as a first real time traffic class, includes a reception phase and a transmission phase. The method includes setting the transmission phase (T00) of the network node to coincide with the reception phase of at least two neighboring network nodes.

Abstract: The invention relates to a method for configuring an industrial real-time-capable communications network for the cyclical transmitting of messages (NWM), each comprising one or more data sets (DS1, . . . , DS4). The communications network (1) comprises a message source (10) for generating and cyclically sending the messages (NWM), at least one message sink (16, 17, 18) for receiving and processing the messages (NWM), as well as at least one network component (12, 14) which forwards messages (NWM) from the message source to the message sinks. The configuring comprises determining (S1) a network topology of the communications network (1) for the transmitting of a data stream to be sent from the message source (10) in the future, in which the messages (NWM) are each cyclically sent with all data sets. It is determined (S2) which of the data sets in the data stream a respective one of the message sinks wants to receive.

Abstract: A control method, device, computer program and a computer-readable medium and method for data communication in an industrial network, wherein a stream is created between at least two stream subscribers, where resources are reserved on at least one node point, particularly bridges and/or switches between the at least two stream subscribers, and subsequently data is transmitted between the at least two stream subscribers, via the stream, and at least one subscriber of the stream interrupts the emittance and/or reception of data via the stream and resources that are reserved on at least one node point for the at least one subscriber of the stream are released for use for a data transmission that is lower priority than the data transmission via the stream, and where the reservation of the resources being maintained for the at least one subscriber.

Abstract: Method for data transmission within an industrial communication network, wherein selected datagrams are transmitted within predetermined time intervals, which are synchronized at all network nodes, where a number of network nodes from the respective source network node to the respective target network node is determined for forwarding the selected datagrams in each case, and where the selected datagrams are transmitted during first periodic time intervals having a first protection interval length in the event of a determined number of network nodes corresponding to at least one predefined threshold value and, in contrast thereto, if a determined number lies below the threshold value, then the selected datagrams are transmitted during second periodic time intervals having a second protection interval length, which is shorter than the first protection interval length.

Abstract: The invention describes a transmission device having a (TCP/IP) protocol stack (S, S?), which is designed for the transmission of data (D) in a time-sensitive network (TSN). The transmission device comprises at least one TSN-compliant virtual Ethernet interface (2.2, 2.2?) and an associated TSN control unit (3.1, 3.1?). The at least one TSN-compliant virtual Ethernet interface (2.2, 2.2?) is designed to send and/or receive a TSN-compliant data stream (2.1, 2.1?) in a physical layer (1) of the TCP/IP protocol stack (S, S?). The TSN-compliant data stream (2.1, 2.1?) can be configured and/or parameterised by means of the associated TSN control unit (3.1, 3.1?).

Abstract: A network node, computer program, computer-readable medium and method for fail-safe data transmission in a network, in which data packets are transmitted from a sender to a receiver via redundant paths, upon which resources for the transmission are reserved at participating network nodes utilizing an identifier associated with the relevant path, wherein, if a new path is to be found for at least one of the paths involved, then the previous reservations on all redundant paths are maintained, a new redundant path is determined for the at least one path involved and an attempt is made to reserve resources for the transmission on this new redundant path at the participating network nodes, wherein a new identifier associated with the new path is utilized, and if the new reservations on the at least one new path are successful, then previous reservations on the at least one previous path involved are removed.

Abstract: The present disclosure concerns a method of synchronization of data packet transmission (P1, P2, P3) in a network (N), including and/or initiating the acts of: Receiving (S1), e.g. from a terminal device (T1, T2, T3) of the network (N), one or more data packets (P1, P2, P3) after a threshold time interval (tt) of a periodic transmission window (RT, BE), wherein the threshold time interval (tt) is arranged at the beginning of said periodic transmission window (RT, BE), and Forwarding (S2) the data packet (P1, P2, P3) in a subsequent transmission window (RT, BE), preferably directly after the transmission window in which the data packet (P1, P2, P3) was received, within the threshold time interval (tt) of the transmission window (RT, BE).

Abstract: The invention relates to methods and to a device for the modular orientation of an AVB stream. The introduction of a new attribute (L_BRIDGE) into the reservation protocol that has been further developed for TSN allows to better use the existing mechanisms in the Ethernet Standard. To this end, each receiver and each transmitter has to announce himself in the network (already existing for the transmitters).

Abstract: Simulation system and method for simulating processing of reservation enquiries for multicast data streams in communications networks, wherein communication devices which are to be simulated with regard to their behaviour are functionally divided into a communication control plane designated as a control plane and into a data transmission plane designated as a data plane, where simulation system components formed by software containers which are executable in a sequence control environment are case provided for functions of the communication devices associated with the control plane, network infrastructure devices are modelled on the data plane by resources provided via each of the network infrastructure devices, and where the software containers associated with the communication devices are selectively executed in the sequence control environment and coupled together there according to a predetermined topology.

Abstract: Sensors of a control system transmit detected cyclical actual states of a technical industrial process to a common central unit via a first protected connection of a first open communication network once within a specified time window. The central unit transmits cyclical control signals commensurate with the actual states to multiple actuators via a second protected connection of a second open communication network once within the specified time window. Each sensor supplies the actual state detected by the sensor to the first open communication network within a respective transmitter-side sub-region within the time window. The central unit receives the transmitted actual states within a respective corresponding receiver-side sub-region within the time window. The transmitter-side sub-regions of the sensors are specified such that the receiver-side sub-regions are disjointed from one another.

Abstract: The invention relates to a method and to a device that describe a real-time network plan for industrial control and monitoring applications, wherein standard Ethernet switching elements are used for the communication network, in particular on the basis of the new mechanisms according to the IEEE 802.1 TSN Task Group. The sequence plan combines clocked data transfer with the stream reservation concept and thus provides determinism with guaranteed maximum latency and access controls at runtime.

Abstract: The disclosure relates to a method and device for time-controlled data transmission in a TSN. A new traffic shaping method is described for time-sensitive data streams. The objective is to offer the same real-time performance and configuration complexity as in the prior art but without the need for time synchronization throughout the entire network. The traffic shaper provides that a data frame that is received by a bridge in a first-time interval is passed by this bridge to the next hop/bridge in the next time interval. Each bridge knows the start time of the time interval that belongs to a particular data stream. Each data frame must contain a so-called “delay value,” thus a delay value which is measured by each bridge using a local clock that measures the delay time spent by the data frame in the queue at the outgoing port.

Abstract: The invention describes a transmission device having a (TCP/IP) protocol stack (S, S?), which is designed for the transmission of data (D) in a time-sensitive network (TSN). The transmission device comprises at least one TSN-compliant virtual Ethernet interface (2.2, 2.2?) and an associated TSN control unit (3.1, 3.1?). The at least one TSN-compliant virtual Ethernet interface (2.2, 2.2) is designed to send and/or receive a TSN-compliant data stream (2.1, 2.1) in a physical layer (1) of the TCP/IP protocol stack (S, S). The TSN-compliant data stream (2.1, 2.1?) can be configured and/or parameterised by means of the associated TSN control unit (3.1, 3.1?).

Abstract: The invention relates to methods and to a device for the modular orientation of an AVB stream. The introduction of a new attribute (L_BRIDGE) into the reservation protocol that has been further developed for TSN allows to better use the existing mechanisms in the Ethernet Standard. To this end, each receiver and each transmitter has to announce himself in the network (already existing for the transmitters).

Abstract: Methods and systems are provided for improved data packet transmission in a network bridge. Separate data packets received from a plurality of automation components are aggregated into a single data packet stream. The data packet stream is transmitted to another network node, for example, another network bridge.

Abstract: The invention relates to a method and to a device that describe a real-time network plan for industrial control and monitoring applications, wherein standard Ethernet switching elements are used for the communication network, in particular on the basis of the new mechanisms according to the IEEE 802.1 TSN Task Group. The sequence plan combines clocked data transfer with the stream reservation concept and thus provides determinism with guaranteed maximum latency and access controls at runtime.

Abstract: A method of scheduling traffic in a network node is provided. A cyclic traffic schedule for a first traffic class, such as a first real time traffic class, includes a reception phase and a transmission phase. The method includes setting the transmission phase (T00) of the network node to coincide with the reception phase of at least two neighboring network nodes.

Abstract: The disclosure relates to a method and device for time-controlled data transmission in a TSN. A new traffic shaping method is described for time-sensitive data streams. The objective is to offer the same real-time performance and configuration complexity as in the prior art but without the need for time synchronization throughout the entire network. The traffic shaper provides that a data frame that is received by a bridge in a first-time interval is passed by this bridge to the next hop/bridge in the next time interval. Each bridge knows the start time of the time interval that belongs to a particular data stream. Each data frame must contain a so-called “delay value,” thus a delay value which is measured by each bridge using a local clock that measures the delay time spent by the data frame in the queue at the outgoing port.

Abstract: The present disclosure concerns a method of synchronization of data packet transmission (P1, P2, P3) in a network (N), including and/or initiating the acts of: Receiving (S1), e.g. from a terminal device (T1, T2, T3) of the network (N), one or more data packets (P1, P2, P3) after a threshold time interval (tt) of a periodic transmission window (RT, BE), wherein the threshold time interval (tt) is arranged at the beginning of said periodic transmission window (RT, BE), and Forwarding (S2) the data packet (P1, P2, P3) in a subsequent transmission window (RT, BE), preferably directly after the transmission window in which the data packet (P1, P2, P3) was received, within the threshold time interval (tt) of the transmission window (RT, BE).

Abstract: A method and system is provided for data communication in a network, with one or more nodal for data transfer between a plurality of data-providing transmitters and a receiver receiving the data provided by the plurality of transmitters via a stream with which, to establish the stream, the receiver issues a listener advertise message for the stream, that comprises a stream description, and the listener advertise message is transmitted to at least one nodal point in the network.