DE102008049600A1 - Ethernet media oriented systems transport gateway unit for use in motor vehicle, has integrated service or resource reservation protocol service quality requirement that is received particularly by Ethernet network nodes - Google Patents

Abstract

The Ethernet-Media oriented systems transport (MOST)gateway unit has an integrated service (IntServ) or Resource reservation protocol (RSVP)service quality requirement that is received particularly by an Ethernet network nodes. The integrated service or RSVP service quality requirement is associated with a bandwidth requirement and an isochronic MOST channel is designed with a band width. An independent claim is included for a method for coupling Ethernet node with a media oriented systems transport receiver.

Description

The The invention relates to an Ethernet MOST gateway device and method for coupling an Ethernet network node to a MOST receiver, especially in 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 (ResourcereSerVation 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 claims 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 (ResourcereSerVation 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).

In addition to the listed, so-called layer-3 QoS method, specified IEEE with the standard 802.3pq a Layer 2 QoS method for prioritizing Ethernet data packets in a network.

In the automotive sector, the so-called MOST (Media Oriented Systems Transport) bus or MOST standard has become established for the transmission of multimedia data. Recently, the MOST Cooperation has the MOST150 standard introduced, which supports a data transfer with 150 MBit / s.

• 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 is from the specification 3V0 able to data packets of Standard IEEE 802.3 (Ethernet packets), and thus also IP data packets to transfer. 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 transmission of data packets over a Data bus with good, in particular given, quality allows.

These The object is achieved by the features of the independent claims solved. Advantageous developments of the invention are to refer to the dependent claims.

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 such Make that communication on MOST components and IP / Ethernet components based, meets given QoS requirements.

A preferred Ethernet MOST gateway device is hardware and / or software so arranged that an IntServ / RSVP services quality requirement, which is sent in particular by an Ethernet network node where is the IntServ / RSVP services quality requirement is associated with a bandwidth request, and that an isochronous MOST channel with a bandwidth which is at least as large as the bandwidth requirement is being built.

By The invention achieves that for an Ethernet data packet specified and assured quality of service and the so connected transmission quality on the communication the data is transmitted via the MOST data bus, so that even if a transmission of the Ethernet data packet over a MOST data bus the required transmission quality and the associated quality of service guaranteed is.

Of the Term "Ethernet" encompasses within the scope of the invention also an IP over Ethernet communication and an Ethernet over WLAN, UMTS or EDGE communication.

By way of example, the Ethernet-MOST gateway is a coupling device which enables the switching or transmission of data packets, in particular Ethernet data packets, from an Ethernet to a MOST data bus. The Ethernet MOST gateway is preferably set up for coupling an Ethernet network node to a MOST receiver, wherein the MOST receiver receives data from the Ethernet MOST gateway via a data bus according to a MOST standard, the MOST150 standard or a MOST standard based on it.

Thereby is achieved that even multimedia Ethernet data packets with the necessary and assured quality the MOST data bus can be transmitted.

The The invention also includes a method for coupling an Ethernet network node with a MOST receiver having an IntServ / RSVP services quality requirement, in particular from the Ethernet hub, the IntServ / RSVP Services Quality Request with a bandwidth request and in which an isochronous MOST channel with a bandwidth at least as large as the bandwidth requirement is, is being built.

Preferably is, in particular for the construction of the isochronous MOST channel or after the structure of the MOST channel, a MOST receiver, in particular a MOST bus subscriber, directed to the isochronous MOST channel connect to. To do this, the Ethernet MOST Gateway facility sends For example, a "connect" message to the MOST Receiver.

Preferably becomes a successful connection through the MOST receiver confirmed on the isochronous MOST channel. Send for this the MOST receiver, for example, a "confirm" message to the Ethernet MOST gateway facility.

It is a development of the invention that in response to the Receive the confirmation of a successful connection of a MOST receiver on the isochronous MOST channel of the Ethernet MOST Gateway facility is a reservation confirmation ("Reserve"), in particular at the Ethernet network node, is sent.

moreover It is a development of the invention that by the Ethernet MOST gateway device, in particular from an Ethernet hub, as part of the IntServ / RSVP Services Quality Request received, data packets converted to the isochronous MOST channel and transmitted over the isochronous MOST channel become.

It Thus, they are preferably with a particular IntServ / RSVP services quality requirement linked data packets sent by an Ethernet network node (Data packets that have a specific IntServ // RSVP Services quality requirement assigned) by the Ethernet MOST gateway device and transmitted over the isochronous MOST channel to the MOST receiver.

in the The invention will now be described by way of example with reference to FIG explained in more detail in the following figure:

1 shows a simplified flow diagram of an Ethernet MOST communication.

in the The following is an example of the mapping of an Ethernet data packet on a MOST bus, in particular a MOST150 bus, described. The invention is not limited thereto, but also includes the corresponding figure in the opposite Direction, so the picture of via the MOST bus, in particular the MOST150 bus, data received on an Ethernet data packet.

It is assumed that a known Ethernet MOST gateway (Gateway), the hardware and / or software technology is set up or modified so that the below with reference to 1 explained message transmission sequence is executed.

It it is further assumed that in an ethernet (ethernet) for a communication service to be realized on the per se known RSVP according to the per se known IntServ method resources are reserved, in particular transmission paths are reserved with a predetermined bandwidth to a predetermined IntServ / RSVP Services Quality Requirement.

Of the to be implemented communication service is now also a MOST receiver (Receiver) are made available. Especially should Ethernet data packets, for which the given IntServ / RSVP services quality requirement is to be met, meeting the IntServ / RSVP Services Quality Requirement be transferred to the MOST receiver.

It be first from an Ethernet hub (sender) Ethernet data packets provided, for example sent, received, forwarded, generated, read from a memory unit or modified. The Ethernet data packets are to an Ethernet MOST gateway or a addressed the MOST receiver.

It then becomes a path from the Ethernet hub to the Ethernet MOST gateway reserved and / or constructed (path), which satisfies the IntServ / RSVP Services quality requirement Fulfills.

It is then to the MOST receiver an isochronous MOST channel ( MOST150 ) having a bandwidth which is at least as large as the bandwidth corresponding to the IntServ / RSVP service quality requirement.

Of the MOST receiver is directed to the isochronous MOST channel to connect. To do this, the Ethernet MOST Gateway facility sends a "connect" message to the MOST receiver (Con).

By the MOST receiver will establish a successful connection confirmed the isochronous MOST channel. For this purpose sends the MOST receiver sends a "confirm" message to the Ethernet MOST gateway device (conf).

When Response to the receipt of confirmation of a successful Connection of the MOST receiver on the isochronous MOST channel is from the Ethernet MOST Gateway facility a reservation confirmation ("Reserve") sent to the Ethernet network node (RESV).

By the Ethernet MOST gateway facility from an Ethernet hub under the IntServ / RSVP Services Quality Requirement received data packets are then transferred to the isochronous MOST channel implemented and transmitted via the isochronous MOST channel (Data).

To a successful data transfer becomes the connection terminated with appropriate steps.

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited non-patent literature

• - IEEE with the 802.3pq standard [0003]
• - MOST150 standard [0004]
• - Standard IEEE 802.3 [0005]
• - MOST150 standard [0013]
• - MOST150 [0029]

Claims (10)

Ethernet MOST gateway device, the like is set up, That an IntServ / RSVP services quality requirement, in particular from an Ethernet network node, wherein the IntServ / RSVP Services Quality Request with a Bandwidth Request is linked, and - that an isochronous MOST channel with a bandwidth which is at least as large as the bandwidth requirement is being built. Ethernet MOST gateway device according to claim 1, in which a MOST receiver is instructed to rely on the MOST channel to connect. Ethernet MOST gateway device according to one of previous claims, in which by the MOST receiver confirmed a successful connection to the MOST channel becomes. Ethernet MOST gateway device according to one of preceding claims, wherein in response to the Receive the confirmation of a successful connection a MOST receiver on the MOST channel a reservation confirmation, in particular to the Ethernet network node. Ethernet MOST gateway device according to one of preceding claims, wherein the Ethernet MOST gateway device, in particular from an Ethernet network node as part of the IntServ / RSVP service quality requirement received, data packets to the MOST channel and implemented over be transmitted the MOST channel. A method for coupling an Ethernet network node with a MOST receiver, - where an e IntServ / RSVP Services Quality Requirement, in particular from the Ethernet hub, the IntServ / RSVP services quality request associated with a bandwidth request, and - at an isochronous MOST channel with a bandwidth which at least as large as the bandwidth requirement is being built. The method of claim 6, wherein a MOST receiver is instructed to connect to the MOST channel. Method according to one of claims 6 to 7, where by the MOST receiver a successful connection is confirmed on the MOST channel. Method according to one of claims 6 to 8, in response to the receipt of the confirmation successful connection of a MOST receiver the MOST channel a reservation confirmation, in particular to the Ethernet network node. Method according to one of claims 6 to 9, in which by the Ethernet MOST gateway device, in particular from an Ethernet hub as part of the IntServ / RSVP Services Quality Request received, data packets to the MOST channel and implemented over be transmitted the MOST channel.