DE102008054607A1 - Multi nodes-transmitting system for use in ad-hoc network architecture to transmit data, has intermediate nodes receiving data packet from initial nodes, and target nodes receiving data packet from intermediate nodes according to protocol - Google Patents

Abstract

The system has an integration module (50) integrating a transport protocol in a reservation field (42) of an encrypted data packet (40). Initial nodes (10) receive and transmit the data packet. Intermediate nodes (20) receive the data packet from the initial nodes according to the transport protocol. Target nodes (30) receive the data packet from the intermediate nodes according to the protocol. The transport protocol includes a type parameter, which records a type of the data packet. The transport protocol includes a nodes parameter, which lists intermediate node quantity of the data packet. An independent claim is also included for a multi nodes-transmitting method in an ad-hoc network.

Description

The The present invention relates to a multi-node transmission system and associated method, in particular, a system and method for multi-node transmission in an ad hoc network architecture.

To the state of the art a common one Radio network over Connection node as transmission bridge between Conventional cable LAN and wireless LAN. Everyone with a wireless network or WLAN-equipped computer can thus access resources both from the cable LAN as well as from the wide area network WAN.

there the ad hoc arrangement is currently one for the Wireless LAN network usually applied arrangement. An ad hoc interpretation is simply a matter of course as an interconnection of a series of electron devices (nodes) by their respective connection to a radio network card, wherein the various nodes without the bridge of resources used as mentioned above to partake. In this context, with an ad hoc network no cable infrastructure necessary and it is possible to save considerable effort on the preliminary network design.

It It should be noted, however, that data transmission takes place via an ad hoc network only possible through a node or through multiple nodes but still impossible, with the ad hoc network on the wireless data transmission limited is.

In In this sense, it is necessary that in the data transmission solve an ad-hoc network problem.

outgoing The object of the present invention is the prior art in it, a multi-node transmission system and associated method for a To provide an ad hoc network. By means of the multi-node transmission system according to the invention and method can be the data transfer through multiple nodes, d. H. the data is not over one Node but over several To transfer nodes which allows transmission power of the wireless LAN network.

The inventive multi-node transmission system consists of an encrypted data packet, that contains a reserved field, an integration module containing a transport protocol in the reserved field of the encrypted Integrated data packets, an initial node, the encrypted data packet receives as well as transfers, and at least one intermediate node, the encrypted data packet from the initial node according to the transport protocol receives and a destination node that retrieves the encrypted data packet from the intermediate node according to the trans port protocol receives.

The Multi-node transmission method according to the invention extends to the integration of a transport protocol in the reserved field of the encrypted Data packets, receiving the encrypted data packet from a Initial node, receiving the encrypted data packet from the Initial node according to the transport protocol by at least one intermediate node and receiving the encrypted Data packets from at least one intermediate node according to the transport protocol through the destination node.

These and further features and advantages of the invention will become apparent below under description of an embodiment with reference to the figures of the drawing. In the drawing show in schematic form:

1 a construction of the multi-node transmission system according to the invention of a first embodiment of the invention in a wireless LAN network;

2A a format graphic of the currently known data packet according to the WiFi radio communication protocol;

2 B a format graphic of the data packet according to the invention according to the WiFi radio communication protocol;

3 : A construction of the multi-node transmission system according to the invention in the wireless LAN network of a second embodiment of the invention and

4 : A scheme of the multi-node transmission method according to the invention in a wireless LAN network.

About the Illustrations of the drawing and the various embodiments wherever possible uniformly the same reference numerals for the same elements or method steps has been chosen.

1 shows the construction of the multi-node transmission system of the first embodiment of the invention in the wireless LAN network. As indicated, the multi-node transmission system according to the invention consists of an initial node 10 , an intermediate node 20 , a destination node 30 , an encrypted data packet 40 as well as an integration module 50 ,

The above data packet 40 contains a reservation field 42 which means an undefined section in various radio communication protocols. 2A is a format graphic of the currently known data packet according to the WiFi radio communication protocol while 2 B is a format graphic of the data packet according to the invention according to the WiFi radio communication protocol. As in 2A is indicated, in a WiFi arrangement, the number of bytes occupied by the respective event in the encrypted data packet, the data area block containing no frame control and address due to the maximum transport length (MTU) bounded by the 2330-byte WiFi radio communication protocol. In favor of bridging the Ethernet with the WiFi system, the MTU is then set to 1500 bytes, which are considered to be the maximum transport length of the Ethernet, with the remaining undefined area block being exactly the same as the above-mentioned reserved field 42 applies. As in 2 B is displayed, the previously undefined area block (namely, displayed in the figure "New Item") according to the radio communication protocol to the reservation field of the invention 42 exploited, not only to comply with the format specifications of the original radio communication protocol, but also to abundantly use the unused area block according to the radio communication protocol.

The above integration module 50 is to integrate the transport protocol into the reserved field 42 the encrypted data packet 40 responsible. The transport protocol mentioned here is valid for the description of the data required for the multi-node transmission and will be described in detail below. The data package 40 The data necessary for the multi-node transmission will then be involved in the transmission as well as the multi-node transmission function in the ad hoc network realized by the integration module 50 the transport protocol necessary for the multi-node transmission in the reservation field 42 the encrypted data packet 40 integrated.

See at the same time 1 and 3 , As shown, the initial node is used 10 the reception or transmission of the encrypted data packet 40 , Since the necessary for multi-node transmission transport protocol already in the reserved field 42 the encrypted data packet 40 integrated, sends the initial node 10 the assumed data packet 40 after this transport protocol to the next node. At this moment, the intermediate node is simultaneously receiving 20 according to this transport protocol that from the initial node 10 sent data packet 40 , The amount of the intermediate node 20 can depend on the need, eg. As the length of the transmission line or the radio transmission signal intensity, increase. Lastly, the destination node receives 30 that from the intermediate node 20 output data packet 40 according to this transport protocol, whereby the entire transmission process of the data packet 40 also finished.

As in 3 displayed is the encrypted data packet 40 in an ad-hoc network known in the art only possible from the initial node 10 directly to the destination node 30 or impossible to transport multiple nodes, whereby such an ad hoc network in the transmission performance is massively limited. The multi-node transmission system according to the invention, however, is capable of the data packet 40 not just from the initial node 10 directly to the destination node 30 but also from the initial node 10 via at least one intermediate node to the destination node 30 whereby the multi-node transmission function for a wireless LAN network is realized. Apart from 3 can be the initial node 10 , the intermediate node 20 and the destination node 30 each have a specific radio device, such as mobile phone, notebook or PDA.

Of Further, the WiFi wireless communication protocol is attached as an example, however not limited to this. The multi-node transmission system the radio communication protocols of the present invention can Bluetooth or WAVE (Wireless Access in the Vehicular Environment).

This section describes in detail the parameters contained in the transport protocol. The transport protocol can contain a type parameter that specifies the transmission type of the data packet 40 indicates. The type parameter may, for example, apply two bytes to, but not limited to, listing, and further comprise two cases, one of which is the data packet transmitted in the conventional manner (single node transmission) and the other is the one transmitted in the manner of the present invention (multiple nodes Transmission) data packet means. In this sense, depending on the type parameter in the transport protocol, the data packet can be transmitted in the manner of a single node or multiple nodes.

The transport protocol may contain the first node parameter, which is the intermediate node amount of the continuous data packet 40 indicates. This node parameter may be for a 6-digit indication, but not limited thereto. On the basis of the first node parameter, the paths (nodes) of the continuous data transmission are possible to log, or an optimal transmission path for a corresponding path arrangement is to be found out. For example, by calculation based on the transmission speed and signal strength of each button At least one transmittable node in a wireless LAN network is the transmission path, namely the intermediate node 20 to find or select.

The transport protocol may further include the second node parameter, which is the node number of the destination node 30 indicates. This node parameter may be considered a 6-digit indication, but not limited thereto. Based on the second node parameter, those of the data packet 40 or is the data packet 40 slippery to the corresponding destination node 30 to transfer, whereupon the transfer is made.

The The transport protocol may further include a length parameter that the data length of the transport protocol. Based on the length parameter is the total byte sum of the occupying type parameter, the first node parameter, the second node parameter and the length parameter even to log as the total byte sum of the transport protocol or indicate. By means of the length parameter is also to check the transport protocol for correctness.

4 shows the scheme of the multi-node transmission method according to the invention in the wireless LAN network, which proceeds as follows:
Step S10: Integrate the transport protocol in the reserved field of the data packet, which also includes the following steps:
Integrating the type parameter indicating the transmission type of the data packet into the transport protocol;
Integrating in the transport protocol the first node parameter indicating the intermediate node amount of the through data packet;
Integrating the second node parameter indicating the node number of the destination node into the transport protocol;
Integrate the length parameter, which specifies the data length of the transport protocol and is able to check the transport protocol for correctness, in the transport protocol.
Step S20: receiving and sending the data packet from the initial node;
Step S30: Receiving the data packet output from the initial node by at least one intermediate node according to the transport protocol;
Step S40: receiving the data packet output by at least one intermediate node by the destination node according to the transport protocol.

10

initial node

20

between nodes

30

destination node

40

data packet

42

reserved field

50

integration module

Claims (10)

Multi-node communication system in an ad hoc network architecture, consisting of: an encrypted data packet with a reservation field is provided; at least one integration module, a transport protocol in the reserved field of the encrypted Data packages integrated; an initial node containing the encrypted data packet receives as well as transfers; at least an intermediate node that retrieves the encrypted data packet from the initial node according to the transport protocol receives; one Destination node that encrypted Data packet from the intermediate node according to the transport protocol receives. Multi-node communication system according to claim 1, characterized in that the transport protocol contains a type parameter, which logs the type of the data packet. Multi-node communication system according to claim 1, characterized in that the transport protocol further includes a first node parameter representing the intermediate node set of the continuous data packet. Multi-node communication system according to claim 1, characterized in that the transport protocol further includes a second node parameter containing the node number of Destination node logged. Multi-node communication system according to claim 1, characterized in that the transport protocol furthermore a length parameter contains, the the data length of the data packet. Multi-node communication system according to claim 1, characterized in that the introduced thereof Wireless communication protocols WiFi, Bluetooth, WAVE or similar Combinations have. A multi-node transmission method in an ad hoc network, comprising the steps of: integrating a transport protocol into a reserved field of a data packet; Receiving and transmitting the data packet through an initial node; Receiving the data packet sent by the initial node by at least one intermediate node according to the transport protocol; Receiving the data packet transmitted by at least one initial node by a destination node according to the transport protocol. Multi-node transmission method according to claim 7, characterized in that the transport protocol integration step also includes the following step: Integrate one Length parameter, the data length of the data packet is logged in the transport protocol. Multi-node transmission method according to claim 8, further comprising the following step of: Check of the transport protocol for correctness according to the length parameter. Multi-node transmission method according to claim 7, characterized in that the introduced thereof Wireless communication protocols WiFi, Bluetooth, WAVE or similar Combinations may have.