DE102004004681A1 - Handover method in mobile communication terminal in at least one internet based (IP) radio network from first to second radio network access appliance - Google Patents

Abstract

Handover of mobile communication terminal (5) in IP-based radio network(s) is carried out from first (2) to second radio access appliance (3). Data packets, received, or to be transmitted, are processed in several protocol layers, i.e. IP layer and DLC layer underneath.Processed data packets are buffer stored in medium access control (MAC) part-layer, contained by DLC layer. Data packets, processed in IP layer, are analysed for information for carrying-out handover for processing in DLC layer. Independent claims are included for IP-based radio network and communication appliance.

Description

The The invention relates to a method for performing a handover of a mobile communication terminal in at least one IP-based Radio network from a first to a second radio network access device, as well as a suitably trained IP radio network and adapted communication facilities.

As is known The Internet has become an important communication medium today. The transmission protocol used for this, the so-called Internet Protocol IP, however, was only for fixed networks and so essentially for the Communication developed between immobile computers. However, since in the meantime mobility one increasing importance wins is the specification of an AII IP platform for wireless networks currently being discussed intensively in the standardization committees. Of the Access to the internet during the mobile use of a communication terminal, such as A notebook is therefore an important challenge, which is why the IP protocol for mobility IP protocol, the so-called Mobile IP (MIP) or hierarchical Mobile IP (HMIP) has been extended.

The mobility appropriate IP protocol is thus an extended version of the network layer protocol IP for mobile communication terminals, with different Network access devices one or even different downstream Networks can be connected and keep their original IP address.

There due to the move from the localized to the non-urban one Communication, however, an immediate assignment of the network address to Network in which the mobile communication terminal is located should no longer exist, the Mobile IP architecture assigns each one mobile communication terminal to a home network and assigns her an IP address assigned to the home network.

switches a mobile communication terminal in a foreign network, this receives a specific (H) MIP information, the one assigned to this network network address, via which future Data packets from and to the mobile communication terminal have to be routed or routed, includes.

As is well known, defined a MIP architecture usually Furthermore, one in the home network of the mobile communication terminal located guide device, a so-called, hardware and / or Software based home agent to which this network address for route adaptation, that is essentially for intercepting and forwarding Data packets sent to the mobile communication terminal of be sent with this corresponding terminal devices are transmitted. Also a transmission to terminal equipment corresponding to the mobile communication terminal is application specific possible, so that after their own route adjustment data packets no longer on the Home agents need to send.

at an HMIP architecture traditionally, a router that hosts different subnets or domains at the network layer connecting with each other, the job of the home agent, being a domain the highest Level of a hierarchical architecture is and e.g. an ISP, a Company network, a LAN or even a number of LANs. A mobile communication terminal operating in a foreign network changes, receives with a specific HMIP information one or more network address (s), that of the mobile communication terminal within the network assigned and / or representing the access device of the network, with the the mobile communication terminal actually in Connection stands.

The However, MIP or the HMIP is basically independent of Radio interfaces has been developed and should also work independently. However, this has created problems that, as follows pointed out, a seamless seamless handover of a mobile communication terminal from a first to a second network access device when coupled the mobile communication terminal via a radio interface and thus a substantially unrestricted or seamless mobility, a so-called. seamless mobility, in IP-based radio networks so far largely prevent.

When a mobile communication terminal device, such as a notebook, communicates via an IP-based radio network, this forms a mobile node of the IP-based radio network. If the mobile node moves from the radio coverage area A of a first radio network access device to the radio coverage area B of a second radio network access device of the same network or also another network, a transfer, the so-called handover, of the mobile node takes place. Data packets which were previously transmitted via the first radio network access device from and / or to the mobile node are to be transmitted after the handover via the second radio network access device. In order to realize this, therefore, the route for the data packets between the mobile node and each corresponding (fixed or mobile) access or termination must be in be updated.

To this purpose must therefore first the mobile node over a so-called Advertisement or ADS signaling data packet of the second radio network access device get the current (H) MIP information. Usually, this ADS signaling data packet becomes generated as a broadcast packet or at the request of the mobile node. After receiving the ADS signaling data packet sends the mobile node A to a specific (H) MIP signaling data packet the second radio network access device, which via the downstream communication network, conventionally first a landline, routed to the router or home agent for route customization becomes.

The Realization of a seamless handover and therefore the seamless mobility in IP-based wireless networks thus depends significantly from how fast such a (H) MIP signaling data packet to the router or the home agent and / or to a corresponding terminal can be sent, so that then the data packets accordingly be redirected. However, as already mentioned, MIP / HMIP is independent of the Type of a radio interface has been developed in relation to the change of a radio coverage area timely sending of ADS packets in the MAC (Medium Access Control) sub-layer of radio network access devices and a timely sending of (H) MIP signaling data packets not provided in the MAC sublayer of a mobile node and gets over it often out Additionally delayed.

Of the reason for this is essentially based on that over the radio interface to be transmitted Data packets previously in a data packet processing series, a so-called MAC Queue, and therefore stored in a data package execution suite stored packets a timely sending an ADS or a delay other signaling data packet. An additional delay when sending an ADS signaling data packet essentially always occurs when in the data package execution series the radio network access device Data packets that are still queued at the front processing position are no longer available can be transported to the addressed mobile node because these from the radio network access device, for whatever reason always be reached. Further, the sending of a (H) MIP signaling data packet in addition to the mobile node delayed if in the mobile node data packet execution suite yet any data packets are stored with priority over one no longer accessible radio network access device must be sent. The Sending a (H) MIP signaling data packet is so far only then possible if all such in a data package execution series are still considered as priority to be processed remaining data packets are discarded. All in all is thus a seamless handover, so a seamless handover not guaranteed in IP-based wireless networks.

Furthermore prevent still in a data package execution row Data packets that are addressed as a result of mobility their corresponding Can not reach nodes, too sending all other packages. Thus, also other compounds because of mobility of a mobile node severely disturbed become. The packets in a data packet processing suite other compounds can only then transferred if not because of mobility more transferable Packages after a big delay of the MAC sublayer have been discarded. Consequence is a packet delay too from other packets, which increases the quality of service of the IP connections mobility Overall, significantly worsened.

A The object of the invention is thus to be compared to the State of the art to show new and much improved way with its help effectively counteracts the problems outlined above and in particular with regard to the change of a radio coverage area Up-to-date information exchange for route updating in IP-based radio networks allows becomes.

The inventive solution also very surprising Already by an article having the features of an appended independent claim given.

advantageous and / or preferred embodiments and further developments are the subject of the respective subclaims.

According to the invention, a method for performing a handover from a mobile communication terminal in at least one IP-based radio network from a first to a second radio network access device is thus provided, in which data packets received or to be sent by the devices are transmitted to at least two protocol layers, one IP layer and an underlying DLC layer are processed and processed for sending data packets are stored in a data packet processing series for processing by a DLC layer comprised of the MAC sublayer and in which processed in the IP layer data packets are analyzed for information to perform the handover between the two radio network access devices are required and in response to the detection of such information, a specific, handover based processing of data packets to be processed in the DLC layer is initiated.

One essential feature of the invention over the prior art thus, that an interaction between the IP layer and the DLC layer for implementation a seamless handover and thus a seamless mobility is used. The DLC layer thus uses the information from the IP layer, to realize a fast and seamless (H) MIP handover. These inventive interaction allows one opposite The prior art much faster, in terms of change of a radio coverage area, timely sending of data packets with to perform a (H) MIP handover of a mobile communication terminal necessary information, in particular the necessary signaling data packets at the (H) MIP handover.

Under Responses to detecting data packets with for a handover needed Information can this with a higher one priority as other data packets in a data packet processing series, ie especially within a so-called MAC queue, classified become. Such data packets thus relate in particular to ADS, (H) MIP and / or ARP signaling data packets. As a result, thus the signaling data packets for performing a (H) MIP handover generated much faster and preferred over the Radio interface to be handed over mobile communication terminal to the receiving radio network access device Posted. Depending on the application, the assignment with different processing priorities within a single Data package processing series or by appropriate classification into different data package execution series with different ones priorities respectively.

The to recognize specific, handover based processing the DLC layer, ie essentially the wireless or wireless DLC layers of the mobile communication terminal and the receiving radio network access device, a corresponding type of IP packet is conveniently based either on an analysis of the data packets by one on the IP layer arranged, adjusted accordingly by hardware and / or software Handler with subsequent message from the IP layer to the Wireless DLC layer or by analyzing the contents of an IP packet within the wireless DLC layer.

to Further acceleration of a handover is preferably also provided a signaling data packet sent by the mobile communication terminal via the second or accepting Radio network access device to at least one in at least one the second access device downstream communication network arranged routers, to one in the home network of the mobile communication terminal arranged home agent and / or to a corresponding with the mobile communication terminal Terminal for corresponding handover based route adaptation is forwarded.

One Another significant advantage, based on the interaction of the invention between the IP layer and the DLC layer, especially wireless DLC layer is further that the sending of other data packets even if already queued in a MAC queue, as a result of mobility however, not transferable to previously addressed stations Guaranteed packages becomes. Such no longer transferable Packages can based on the information of a (H) MIP-specific signaling data packet either be discarded faster on the IP layer, just to the sending of further, other data packets can no longer be prevented appropriately redirected or forwarded to radio network access equipment via which the mobile node is just reachable.

consequently It is further preferred to provide a message sent by the mobile communication terminal Signaling data packet either directly or via the acquiring radio network access device also to the handing over Radio network access device forward, so that under response upon the detection of a signaling data packet arriving at this radio network access device already for transmission to the mobile communication terminal Cached, processed data packets discarded immediately or via the receiving radio network access device into the IP-based wireless network can be directed.

Especially with respect to such post-processing in the data packet execution series located, no longer transferable data packets, is for the appropriate interaction between the IP and the DLC layer preferably a handling unit arranged between these layers intended.

Overall, significant advantages of the invention thus lie in a comparison with the prior art faster and more effective implementation of a (H) MIP handover, an effective Reduzie possible packet loss due to (H) MIP mobility and effective shortening of a possibly caused by a (H) MIP handover Paktverzögerung so that by applying the invention ensures a substantially seamless or seamless mobility in an IP-based wireless network for the first time and thus the mobile IP quality of service is substantially improved.

The The invention further relates to an IP-based radio network, which belongs to execution the method according to the invention with at least one, for processing data packets at least two protocol layers, one IP layer and one underlying DLC layer having communication device, wherein the communication device has at least one handling unit, for analyzing of data packets processed in the IP layer to information, the one to perform needed a handover will and to specific, handover based processing to the shipment in a data package processing series for the corresponding processing by a data packet buffered by a MAC sublayer comprised of the DLC layer in the DLC layer in response to detecting such Information. The communication device is thus in particular as a mobile communication terminal or as a radio network access device. The advantages achieved by this and the further developments correspond thus essentially the ones indicated above.

Further Features and advantages of the invention will become apparent from the following, detailed description of a preferred but merely exemplary embodiment with reference to the attached Drawings.

In show the drawings:

1 an example scenario within an IP-based radio network, and

2 a schematic representation of in the radio interface of a mobile communication terminal or a wireless network access device significantly involved layers with respect to the inventive functionality of an interaction between the IP layer and the wireless DLC layer and an intermediate layer handling unit according to the invention.

For a description of the operation of the invention, reference will first be made to 1 which greatly simplifies a mobility scenario within an IP-based radio network. Unless otherwise stated, the term "radio network" is understood to be independent of any structuring, in particular hierarchical. The illustrated radio network comprises according to 1 three radio network nodes, ie second radio network access devices 2 and 3 and a mobile communication terminal 5 ,

The starting point for the following description is that the IP-based mobile communication terminal 5 a notebook, for example, as a mobile node from the radio coverage area B of the radio network access device 2 in the radio coverage area C of the radio network access device 3 emotional. For the invention, it is fundamentally immaterial whether the radio network access devices 2 and 3 assigned to different or equal mobility networks. According to 1 are the radio network access devices 2 and 3 exemplarily a common mobility network 1 assigned. In the case of an HMIP architecture, therefore, connection entries to be updated are conventionally made by a router 4 of the mobility network 1 , which also provides a connection to the Internet in the illustrated case.

In the radio coverage area C of the radio network access device 3 receives the mobile communication terminal 5 as described above, first an (H) MIP-specific ADS signaling data packet via the access device 3 , whereby the mobile communication terminal 5 learns that they are now in coverage area C of the access facility 3 is located with specifically assigned address information. This triggers the actual (H) MIP handover process. Since the (H) MIP handover can only take place upon receipt of such an ADS signaling data packet, such ADS packets become a higher priority in the MAC queue or data processing series 9 ( 2 ) associated with a radio network access device. As a result, ADS packets will be sent before all other data packets to be sent in the data processing suite 9 the access device 3 queued, allowing a delay in the transmission of ADS signaling data packets, in particular due to in the data processing series 9 the wireless DLC layer 7 ( 2 ) of the access device 3 already queued, but not yet processed other data packets, is prevented.

Upon receipt of the ADS signaling data packet via the access device 3 sends the mobile communication terminal 5 at least one (H) MIP specific signaling data packet via the new access device 3 and especially to the router 4 to allow the route between the mobile communication terminal 5 and can be updated with these corresponding facilities.

Such (H) MIP-specific signaling For example, based on the MIPv6 or HMIPv6, the binding data packet includes so-called binding updates. Since the specific architecture and functionality of MIPv6 or HMIPv6 is known per se to a person skilled in the art and is not essential for the understanding of the invention, this will not be discussed in more detail.

According to the invention, this (H) MIP-specific signaling data packets of the mobile communication terminal 5 a higher, expediently the highest priority in the data packet processing series compared to other data packets 9 the wireless DLC layer 7 the radio interface of the mobile communication terminal 5 assigned.

Traditionally, however, to receive such (H) MIP signaling data packets from the mobile communication terminal 5 prior to an exchange of ARP (address resolution protocol) signaling data packets between the mobile communication terminal 5 and the new radio network access device 3 to obtain the previously unknown MAC addresses to be converted into associated IP addresses. Upon receipt, the LLC sub-layer adapts 8th the radio interface of the mobile communication terminal 5 the (H) MIP signaling data packet with the MAC address of the new radio network access device 3 , Consequently, in a preferred embodiment, the invention also envisages that the usual way for a (H) MIP handover necessary ARP signaling data packets with a higher priority to rank and send according priority.

The assignment of a higher priority for ADS signaling data packets and (H) MIP signaling data packets in a respective MAC queue or data packet processing series 9 is preferred by either analyzing the contents of an IP packet in the IP layer 6 and subsequent communication from the IP layer 6 to the wireless DLC layer 7 or by parsing the contents of an IP packet in the Wireless DLC layer 7 realized. The assignment of a higher priority for ARP packets in the (H) MIP handover is preferred by detecting the ARP packet content in the Wireless DLC layer 7 carried out. For the detection of at least one information determined or determinable for this purpose in the data packets, corresponding hardware and / or software-based handling units or entities in the IP layer can thus be used as a result of the application 6 and / or the wireless DLC layer 7 be implemented in a simple way.

For this inter layer interaction, however, one can additionally or alternatively also one between the IP layer 6 and the wireless DLC layer 7 arranged, associated with these associated intermediate layer handling unit 12 are provided, which processes the respective information according to the application.

Through the package prioritization 10 with regard to the processing (H) of MIP-specific data packets, in particular of the (H) MIP signaling data packets in the MAC queue 9 Consequently, the (H) MIP handover process can be processed much more effectively and thus faster.

Also the previously for the mobile communication terminal 5 competent radio network access device 2 conveniently obtains a (H) MIP-specific signaling data packet of the mobile communication terminal 5 which application-specific, if necessary, directly or via the radio network access device 3 to the radio network access device 2 is transmitted.

In contrast to the prior art, according to which the MAC sublayer 11 in the radio interface of the previous radio network access device 2 after a (H) MIP handover still in the MAC queue 9 already queued to the mobile communication terminal 5 addressed packets to the mobile node 5 tries to send this up from the MAC sublayer 11 finally, for example by timing, be discarded, since the mobile communication terminal 5 no longer in the coverage area B of the radio network access device 2 is experiencing the radio network access device 2 thus according to the invention by the reception of the from the mobile communication terminal 5 with respect to the change of the radio coverage area timely sent signaling data packet much earlier of the course of the (H) MIP handover.

Conveniently, using the inter-layer handling unit or instance 12 in the previous radio network access device 2 will then also the still in the MAC queue 9 remaining data packets sent to the mobile communication terminal 5 to be sent, either discarded or to the new radio network access device 3 under which the mobile communication terminal 5 can be reached after the handover.

Here, essentially, the intermediate layer handling unit 12 responsible for receiving the information from a (H) MIP signaling packet of the IP layer 6 and in a data package execution suite 9 standing packets of the DLC layer 7 to edit.

In a similar way, in the Data packet processing order 9 the mobile communication terminal 5 remaining data packets before the handover via the radio network access device 2 should be sent, as appropriate, by the inter-layer handling unit 12 the mobile communication terminal 5 edited, that is essentially redirected, and then via the new radio network access device 3 sent to the IP-based communication network.

Claims (15)

Method for performing a handover from a mobile communication terminal ( 5 ) in at least one IP-based radio network from a first to a second radio network access device ( 2 . 3 ), with each of the institutions ( 2 . 3 . 5 ) received or to be sent data packets in at least two protocol layers, an IP layer ( 6 ) and an underlying DLC layer ( 7 ) and send data packets processed in a data packet processing series ( 9 ) for appropriate processing by one of the DLC layer ( 7 ) included MAC sublayer ( 11 ) ( 10 ), characterized in that in the IP layer ( 6 processed data packets are analyzed for information necessary to perform the handover between the two radio network access devices ( 2 . 3 ) and in response to the detection of such information, a specific, handover based processing of data packets to be processed in the DLC layer ( 7 ) is initiated. Method according to claim 1, further characterized in that, in response to the detection of such information, ADS, (H) MIP and / or ARP signaling data packets have a higher processing priority for the MAC sub-layer than other data packets ( 11 ). Method according to one of the preceding claims, further characterized in that in response to the detection of one of the mobile communication terminal ( 5 ) to be sent signaling data packet a corresponding readdressing of already for transmission via the radio interface of the mobile communication terminal in the DLC layer ( 7 ) cached, to be processed data packets is effected. Method according to one of the preceding claims, further characterized in that in response to the detection of a signal at the first radio network access device ( 2 ) incoming signaling data packet already for transmission to the mobile communication terminal ( 5 ) in the DLC layer ( 7 ) buffered data packets to be processed are rejected immediately or via the second radio network access device ( 3 ) in the IP-based radio network to the mobile communication terminal ( 5 ). Method according to one of the preceding claims, further characterized in that the analysis of the data packets by means of one on the IP layer ( 6 ) or on the DLC layer ( 7 ) or by a handling unit arranged between the layers and connected thereto ( 12 ) he follows. Method according to one of the preceding claims, further characterized in that the assignment of a higher processing priority by the on the DLC layer ( 7 ) arranged by the handling unit or by the arranged between the IP and the DLC layer handling unit ( 12 ) he follows. Method according to one of the preceding claims, further characterized in that a readdressing of data packets already stored for transmission by the handling unit arranged between the IP and the DLC layer ( 12 ) he follows. IP-based radio network, which is designed to carry out the method according to one of the preceding claims, with at least one for processing data packets at least two protocol layers, an IP layer ( 6 ) and an underlying DLC layer ( 7 ) communication device ( 2 . 3 . 5 ), characterized in that the communication device ( 2 . 3 . 5 ) at least one handling unit ( 12 ) for analyzing in the IP layer ( 6 ) processed data packets for information needed to perform a handover and for specific, handover-based processing of for sending in a data packet processing series ( 9 ) for appropriate processing by one of the DLC layer ( 7 ) included MAC sublayer ( 11 ) cached ( 10 ) Data packets in the DLC layer ( 7 ) in response to the detection of such information. IP-based radio network according to the preceding claim, further characterized in that the at least one handling unit in response to the detection of such information ADS, (H) MIP and / or ARP signaling data packets higher than other data packets processing priority for the MAC sub-layer ( 11 ). An IP-based radio network as claimed in any one of the preceding claims, further characterized that the at least one handling unit ( 12 ) causes in response to the detection of a signaling data packet, a corresponding readdressing of already cached for transmission, to be processed data packets. IP-based radio network according to one of the preceding claims, further characterized in that the analysis of the data packets by a on the IP layer, on the DLC layer and / or by an interposed between the layers and associated with these handling unit ( 12 ) he follows. IP-based radio network according to the preceding claim, further characterized in that the assignment of a higher processing priority by the on the DLC layer or by the arranged between the IP and the DLC layer handling unit ( 12 ) he follows. IP-based radio network according to the preceding claim, further characterized in that a readdressing of data packets already stored for transmission by the handling unit arranged between the IP layer and the DLC layer ( 12 ) he follows. IP-based radio network according to one of the preceding Claims, further characterized in that the at least one handling unit Hardware and / or software includes. Communication device for an IP-based radio network according to one of the preceding claims, which is used as a mobile communication terminal ( 5 ) or as a radio network access device ( 2 . 3 ).