DE102008049620A1 - Communication system for use in motor vehicle to transmit/receive e.g. video data over Ethernet, has media oriented systems transport driver unit transmitting packet over packet channel of bus according to channel priority class - Google Patents

Abstract

The system has a receiver unit (EE) receiving a data packet e.g. Ethernetdata packet, where the packet is allocated to a packet-priority class described by a data field of the packet. A processing unit (VE) is attached to the receiver unit such that the packet-priority class of the packet is determined and the packet-priority class is mapped to a channel priority class according to a preset mapping relation. A media oriented systems transportdriver unit (MT) transmits the packet over a packet channel of a data bus according to the channel priority class.

Description

The The invention relates to a communication system, in particular for a motor vehicle.

• 1) IntServ/RSVP: Integrated Services ist ein QoS (Quality of Service) Verfahren zur Parametrisierung von IP (Internet Protocol) Datenpaketen. Hierzu werden in jedem Netzwerkelement mittels eines Verkehrsvertrages mit festen Parametern Ressourcen reserviert. Jeder Netwerkknoten geht daher nach dem IntServ-Verfahren vor und verwaltet alle zur Verfügung stehenden Ressourcen entsprechend. Die Zugriffsverwaltung geschieht dann entsprechend den von den Anwendungen gestellten Anforderungen und zur Verfügung stehenden Ressourcen. Die verbindungsspezifischen Anforderungen werden mittels TSPEC (Traffic Descriptor) und RSPEC (Reservation Characteristics) im TOS-Feld (Type of Service) des IP-Header signalisiert bzw. ausgetauscht. IntServ garantiert die QoS Eigenschaften nur solange die Anwendungen die Daten, entsprechend den vermittelten Anforderungen, versenden. Für die Signalisierung der Anforderungen kann das Protokoll RSVP (Resourcere-SerVation Protocol), im Internet Protocol Stack, verwendet werden. Es erlaubt Empfängern außerhalb einer Multicast-Gruppe, deren Dienstanforderungen festzulegen und ist somit ausschließlich für den Aufbau von Unicast-Verbindungen spezifiziert. Somit können für bestimmte Anwendungen, z. B. für die Übertragung von Video-Streams bestimmte Bandbreiten für einzelne Verbindungen reserviert werden.
• 2) DiffServ: Differentiated Services ist ein QoS Verfahren zur Priorisierung von IP Datenpaketen. Im Gegensatz zu anderen QoS-Verfahren (wie IntServ mit RSVP) wird die Priorität eines IP-Paketes bereits vom Sender bestimmt. Die Router auf dem Weg zum Empfänger entscheiden allein anhand dieser Angabe über die bevorzugte Weiterleitung zum Empfänger. Zur Signalisierung der Priorität nutzt DiffServ die ersten sechs Bit des schon vorhandenen Type of Service (ToS) Feldes im IP-Header des IPv4 oder das Class Field im IP-Header des IPv6-Protokolls. Zur Abgrenzung gegenüber dem früheren ToS oder Class-Field wird das Byte dann als Differentiated Services Code Point (DSCP) bezeichnet. Mit dem DSCP wird jedes IP-Paket einer bestimmten Klasse (Class Selector) und innerhalb dieser Klasse einer Behandlungsstufe (Drop Precedence) zugeordnet. Dabei bestimmen die ersten drei Bits den Class-Selector und die weiteren drei Bits die Drop-Precedence. Mit diesen Bits können nun verschiedene Weiterleitungsklassen definiert werden, die innerhalb eines Netzwerkes unter festgelegten Regeln behandelt werden (QoS Policy). Der DSCP 000 000 (DF) wird auch als Best Effort (BE) bezeichnet und stellt die unterste Stufe der Prioritäten dar. Die höchste Stufe repräsentiert der DSCP 101 110 (Premium-Klasse/Expedited Forwarding).

Well-known data services from the IT and consumer world, especially audio and video streaming applications, raise specific quality of service requirements to a network to ensure the highest possible playback quality. In the consumer world, two standards of the IETF (Internet Engineering Task Force) have become established in this regard:

• 1) IntServ / RSVP: Integrated Services is a QoS (Quality of Service) method for the parameterization of IP (Internet Protocol) data packets. For this purpose, resources are reserved in each network element by means of a transport contract with fixed parameters. Each network node therefore uses the IntServ method and manages all available resources accordingly. The access management then takes place according to the requirements imposed by the applications and available resources. The connection-specific requirements are signaled or exchanged by means of TSPEC (Traffic Descriptor) and RSPEC (Reservation Characteristics) in the TOS field (Type of Service) of the IP header. IntServ guarantees the QoS properties only as long as the applications send the data according to the mediated requirements. For the signaling of the requirements the protocol RSVP (Resourcere-SerVation Protocol), in the Internet Protocol stack, can be used. It allows recipients outside of a multicast group to specify their service requirements and is thus specified exclusively for the establishment of unicast connections. Thus, for certain applications, such. B. reserved for the transmission of video streams certain bandwidths for individual connections.
• 2) DiffServ: Differentiated Services is a QoS method for prioritizing IP data packets. Unlike other QoS methods (such as IntServ with RSVP), the priority of an IP packet is already determined by the sender. The routers on the way to the receiver decide on the basis of this information alone about the preferred forwarding to the recipient. To signal the priority, DiffServ uses the first six bits of the existing Type of Service (ToS) field in the IP header of IPv4 or the class field in the IP header of the IPv6 protocol. To distinguish it from the previous ToS or Class field, the byte is called the Differentiated Services Code Point (DSCP). With the DSCP, each IP packet is assigned to a specific class (class selector) and, within that class, to a treatment level (drop precedence). The first three bits determine the class selector and the other three bits the drop precedence. These bits can now be used to define different forwarding classes that are treated within a network under defined rules (QoS Policy). The DSCP 000 000 (DF) is also referred to as Best Effort (BE) and represents the lowest level of priorities. The highest level represents the DSCP 101 110 (Premium Class / Expedited Forwarding).

Next the cited, So-called Layer-3 QoS procedure, IEEE specifies with the standard 802.3pq a layer-2 QoS method for prioritizing Ethernet Data packets in a network.

in the Automotive sector has become the transmission of multimedia data the so-called MOST (Media Oriented Systems Transport) bus or MOST standard established. Recently, the MOST Cooperation introduced the MOST 150 standard, which has a data transfer rate of 150 MBit / s supported.

MOST is from the specification 3V0 able to data packets of the IEEE standard 802.3 (Ethernet packets), and thus also IP data packets to transmit.

• 1) Isochroner Kanal: Der Isochrone Kanal von MOST zeichnet sich durch exzellente QoS Eigenschaften aus. In Analogie zur IT- und Konsumerwelt ist er vornehmlich für unidirektionale (unicast) Datenverbindungen spezifiziert. Er zeichnet sich durch eine garantierte Bandbreite, garantierte Zugriffszeit sowie geringste Latenz und Jitterwerte aus. Der Isochrone Kanal ist daher bestens für die Übertragung von Streaming Anwendungen geeignet.
• 2) MOST Ethernet Packet Kanal (MEP): Dieser systemweit nutzbare Kanal weist beste QoS Eigenschaften für die Übertragung von Ethernet Paketen auf. Er zeichnet sich durch äußerst geringe Latenz sowie Jitterwerte, eine dynamische Bandbreitenregelung und eine faire Zugriffsverwaltung mit insgesamt mindestens 16 Prioritätsstufen aus.

MOST offers two types of channels with different QoS properties:

• 1) Isochronous channel: MOST's isochronous channel is characterized by excellent QoS characteristics. In analogy to the IT and consumer world, it is mainly specified for unidirectional (unicast) data connections. It is characterized by a guaranteed bandwidth, guaranteed access time and lowest latency and jitter values. The isochronous channel is therefore ideally suited for the transmission of streaming applications.
• 2) MOST Ethernet Packet Channel (MEP): This system-wide usable channel has the best QoS characteristics for the transmission of Ethernet packets. It features ultra low latency, jitter, dynamic bandwidth control, and fair access management with a total of at least 16 priority levels.

Both MOST channel types thus offer outstanding QoS features for streaming Applications as well as pure data transfer.

Of the The invention is based on the object of specifying a technical teaching, the one transfer of data packets via a data bus with good, in particular predetermined quality allows.

This object is solved by the features of the independent claims. Advantageous next Formations of the invention can be found in the dependent claims. In the context of the invention are also developments of claim 19, which correspond to the dependent claims of claim 1.

The Invention is based in particular on the idea of an IP network or to couple an Ethernet network to a MOST bus. there should be the QoS requirements of the IP network or the Ethernet network be transferred to the MOST bus, and the coupling are made such that a communication based on MOST components and IP / Ethernet components based, given QoS requirements Fulfills.

• – Eine Bereitstellungseinheit, die derart eingerichtet ist, dass mindestens ein Datenpaket bereitgestellt, beispielsweise generiert, modifiziert, empfangen, gelesen oder weitergeleitet, wird, wobei dem Datenpaket eine durch ein Datenfeld des Datenpakets beschriebene Paket-Prioritätsklasse zugeordnet ist.
• – Eine Verarbeitungseinheit, die derart eingerichtet und mit der Bereitstellungseinheit gekoppelt ist, dass die Paket-Prioritätsklasse des bereit gestellten Datenpakets ermittelt wird, beispielsweise aus dem entsprechenden Datenfeld des Datenpakets gelesen wird, und dass die Paket-Prioritätsklasse gemäß einer vorgegebenen Abbildungsvorschrift auf eine Kanal-Prioritätsklasse abgebildet wird.
• – Eine Treibereinheit, die derart eingerichtet und mit der Verarbeitungseinheit gekoppelt ist, dass das Datenpaket über einen Paketkanal eines Datenbus gemäß der Kanalprioritätsklasse übertragen wird. Der Paketkanal ist dabei entsprechend der Kanalprioritätsklasse ausgebildet, ausgeführt oder ausgewählt.

A preferred communication system comprises:

• A provisioning unit that is set up such that at least one data packet is provided, for example generated, modified, received, read or forwarded, wherein the data packet is assigned a packet priority class described by a data field of the data packet.
• A processing unit that is set up and coupled to the provisioning unit such that the packet priority class of the provided data packet is determined, for example, read from the corresponding data field of the data packet, and that the packet priority class is assigned to a channel according to a predetermined mapping rule Priority class is mapped.
• A driver unit configured and coupled to the processing unit such that the data packet is transmitted over a packet channel of a data bus according to the channel priority class. The packet channel is designed, executed or selected according to the channel priority class.

By the invention is achieved that specified for a data packet and guaranteed parcel priority class and transmit the associated transmission quality to the transmission over the data bus will, so even during a transmission of the data packet via a data bus the required transmission quality and the associated quality of service guaranteed is.

Preferably is the driver unit for transmission of data over a data bus according to a MOST standard, the MOST150 standard or one based on it MOST standard trained.

Thereby is achieved that even multimedia data packets with the necessary quality on the Transfer data bus can be

It is a development that the data packet is an IP data packet or includes.

It Another development is that the data packet is an Ethernet data packet or includes.

The Packet priority class is preferably by an Ethernet priority class, in particular the known per se Ethernet User Priority determined.

alternative or in addition this is the packet priority class preferably by a quality of service class, in particular the known Diff-Serv setting, certainly.

Of the Paketkanal is preferably according to a Ethernet packet channel, in particular the known MOST Ethernet Packet Channel (MEP), executed.

On the Packet channel data, in particular the data packet, preferably according to a Channel priority class, in particular the known MOST Ethernet Packet Channel Priority (MEP priority), where the channel priority class from a variety of possible Channel priority classes removed or removed.

Preferably In addition to the data packet, the processing unit receives the associated channel priority class (corresponds to the packet priority class assigned to the data packet), in particular as part of a driver control panel to which Driver unit transmitted.

The Driver unit is preferably arranged such that by the channel priority class it is determined with what intensity by the driver unit the transmission unit associated with transmission rights to transmit the data packet availed especially when the data bus is busy. It For example, assume that the driver unit, for example, depending on of the number of bus subscribers, with a given frequency or frequency, broadcasting rights are available, but - for relief of the data bus - not all actually be used have to.

Preferably becomes transmission of voice and / or audio data, a first channel priority class, in particular the MEP priority 1, used and / or for transmission of video data a second channel priority class, in particular the MEP priority 2, used.

In the first channel priority class, those assigned or available to the driver unit become available transmission rights by the driver unit preferably more or more frequently for transmitting data, in particular the data packet or successive data packets, used as in the second channel priority class. This ensures that the high timing requirements for an audio data transmission, such as a telephone data transmission, can be met even when using the data bus infrastructure. For the video data transmission, however, the data bus is only used or occupied as much as is necessary for an adequate quality of service.

When Particularly advantageous proved to be elaborate especially for this Purpose carried out simulations a development according to which at the first channel priority class every second transmission right assigned to the driver unit for transmission used by data becomes. For example, this gives the following scheme of using the to disposal provided broadcasting rights: used, not used, used, not availed availed not used, ...

at the second channel priority class are preferably cyclically assigned to the driver unit Right of transmission and two transmission rights associated with the driver unit are not for transmission used by data, etc. For example, this gives the following scheme of use of the to disposal provided broadcasting rights: used, not used, not availed availed not used, not used, ...

As well proved to be particularly efficient in the above simulations and in terms of quality of service as the user request, if the first channel priority class the Ethernet User Priority 6 is assigned.

As well proved to be particularly efficient in the above simulations and in terms of quality of service as the user request, if the second channel priority class the Ethernet User Priority 5 is assigned.

As well proved to be particularly efficient in the above simulations and in terms of quality of service as the user request, if the first and / or second channel priority class of the DiffServ setting AF11 is assigned.

in the The invention also relates to a communication system with a Data bus receiving unit for receiving a data packet via a Packet channel of a data bus according to a Channel priority class, with a processing unit so arranged and with the data bus receiving unit coupled is that the channel priority class of the received data packet is determined, and that the channel priority class according to a predetermined mapping rule on a packet priority class and with a deployment unit that is so is set up and coupled to the processing unit that a data packet is provided, wherein the data packet is a data field contains by which the packet priority class associated with the data packet is specified.

in the The invention will now be described by way of example with reference to FIG closer to the following figures explains:

1 shows a simplified schematic diagram of a MOST / Ethernet Gateway;

2 shows an example implementation of Ethernet IEEE 802.3pq prioritization on MEP priorities;

3 shows an example implementation of DivServ prioritization on MEP priorities.

in the The following is an example of the reception of a data packet and its transmission via a MOST bus described. The invention is not limited thereto, but also includes the reception of data via a MOST bus and the Sending the data in the form of a data packet.

1 shows as a receiving unit a receiving unit EE for receiving data packets, for example based on an Ethernet, an IP network, a UMTS network, an EDGE network or a WLAN network.

The received data packets is a - through a data field of the data packet described - packet priority class assigned.

A Processing unit VE is set up in this way and with the delivery unit coupled that the packet priority class of the provided Data packet is determined and that the packet priority class according to a predetermined mapping rule to a channel priority class is shown.

A MOST driver unit MT is for transmission of the data packet via a packet channel of a data bus according to the channel priority class set up.

The Provision unit EE, the processing unit VE and the MOST driver unit MT can completely or partially realized together in a gateway.

An advantageous mapping rule for the mapping of a packet priority class to a channel priority class or vice versa is in 2 a Table shown. A traffic type and the associated Ethernet User Priority (packet priority class) according to IEEE 802.3pq are mapped to MEP (MOST Ethernet packet channel) priorities (channel priority class).

As an alternative or supplementary advantageous mapping rule for mapping a packet priority class to a channel priority class or vice versa is in 3 another table is shown. A traffic class and the associated DiffServ setting (packet priority class) are mapped to MEP (MOST Ethernet packet channel) priorities (channel priority class).

Claims (19)

communication system With a deployment unit, which is set up such that a data packet is provided is, wherein the data packet through a data field of the data packet assigned packet priority class is - With a processing unit so arranged and with the Deployment unit is coupled to that the packet priority class of the provided data packet, and that the packet priority class according to a predetermined mapping rule to a channel priority class is pictured, and - With a driver unit for transmission of the data packet via a packet channel of a data bus according to the channel priority class. Communication system according to claim 1, wherein the Driver unit for transmission of data over a data bus according to a MOST standard, the MOST150 standard or one based on it MOST standard is formed. Communication system according to one of the preceding Claims, in which the data packet is or comprises an IP data packet. Communication system according to one of the preceding Claims, wherein the data packet is or includes an Ethernet data packet. Communication system according to one of the preceding Claims, at the the package priority class through an Ethernet priority class, in particular the Ethernet User Priority, is determined. Communication system according to one of the preceding Claims, where the packet priority class through a quality of service class, especially the DiffServ setting. Communication system according to one of the preceding Claims, wherein the packet channel according to a Ethernet packet channel, in particular the MOST Ethernet packet channel, accomplished is. Communication system according to one of the preceding Claims, at the over the packet channel data according to a Channel priority class, especially the MOST Ethernet Packet Channel Priority where the channel priority class is off a variety of possible Channel priority classes taken is. Communication system according to one of the preceding Claims, in which, together with the data packet, the associated channel priority class as part of a driver control panel from the processing unit is transmitted to the driver unit. Communication system according to one of the preceding Claims, in which the driver unit is set up such that through the Channel priority class it is determined with what intensity by the driver unit the drive unit associated with broadcasting rights are used. Communication system according to one of the preceding Claims, in which for the transmission of Speech and / or audio data a first channel priority class is used. Communication system according to one of the preceding Claims, in which for the transmission of Video data a second channel priority class is used. Communication system according to one of the preceding Claims, in the case of the first channel priority class, the transmission rights the driver unit stronger or more often to transfer used by data than the second channel priority class. Communication system according to one of the preceding Claims, in the case of the first channel priority class, every other driver unit assigned send rights for transfer used by data becomes. Communication system according to one of the preceding Claims, in the case of the second channel priority class, cyclically assigned to the driver unit Right of transmission and two transmission rights assigned to the driver unit are not transmitted used by data become. Communication system according to one of the preceding Claims, where the first channel priority class the Ethernet User Priority 6 is assigned. Communication system according to one of the preceding Claims, where the second channel priority class the Ethernet User Priority 5 is assigned. Communication system according to one of the preceding Claims, where the first and / or the second channel priority class the DiffServ setting AF11 is assigned. communication system - With a data bus receiving unit for receiving a data packet via a packet channel of a data bus according to a channel priority class, - with a Processing unit which is so arranged and with the data bus receiving unit coupled, that the channel priority class of the received data packet is determined, and that the channel priority class according to a predetermined mapping rule on a packet priority class is pictured, and - With a deployment unit that is set up and with the Processing unit is coupled, that provided a data packet is, wherein the data packet contains a data field through which the data packet assigned packet priority class specified becomes.