DE10103103A1 - Method and device for changing a mobile station between two base stations - Google Patents

Abstract

The invention relates to a method for the exchange of a station (H) between two network stations (BS1, BS2) in a data and/or communication network, with a first communication connection (V1), between the station (H) and a first network station as a primary communication connection and a second communication connection (V2), between the station (H) and a second network station (BS2) as a secondary communication connection. According to the invention, an exchange parameter is used as criterion (T) to determine when the second communication connection (V2), should be established as the primary communication connection. The criterion for the exchange parameter can be fixed as being that the station (H) must already have been connected to the second base station (BS2) for a particular period (T) before the change. According to the invention, a transport protocol SCTP, supporting several addresses is used in combination with mobility features for mobile IP.

Description

The invention relates to a method for changing egg ner station between two network stations with the generic term union features of claim 1 and a device for Perform such a procedure.

In digital radio communication systems, such as the Mobile radio system GSM (Global System for Mobile Communica tions), the UMTS (Universal Mobile Telecommunications System) the third mobile radio generation or digital radio data network zen, information such as language, image information or other data with the help of electromagnetic waves transmitted over a radio interface. The Radio interface serves as a connection between one Network or base station and a large number of participants stations, for example mobile stations, or computers. The The electromagnetic waves are also emitted Carrier frequencies in one for each system seen frequency band lie.

To equal frequencies and / or other resources for one To be able to use a large number of connections is a Re gion divided into a variety of cells, each egg ner network station with one or more network access points assigned. Out of range of a cell in which certain resources can be used, other cells also use these resources without one mutual interference occurs. Each subscriber station or each the computer builds at least one for communication purposes the network stations connect.

When changing mobile computers or mobile subscriber stations from one network access point to another  usually temporary interruptions in the accessibility of the mobile computer or communication relationships. The On the one hand, interruptions are caused by the physical Change of access medium and on the other by the proto koll to control the communication itself. On special protocol in a commu network layer nication system that supports such a change currently, for example, through the so-called "Mobile IP" (IP: Internet protocol), the corresponding functions of a Mobi provides a quality protocol. The protocol must a. the involved entities, in particular mobile IP entities, ak tualisieren.

The duration of such an interruption becomes smaller determined by the physical change of the access medium, for the most part, however, due to the delayed update the protocol instances required for the process in the Network layer. This additional delay-related Time share is z. B. in computer cards for a wireless Access to a local network (wireless LAN cards) with ent speaking protocols below the network layer each but not visible and is therefore used in algorithms Switching from network stations not taken into account.

If you want the continuous availability of a mobile Computer through redundancy in the network connection from the physi support the calic layer up to the network layer, so a calculator could. B. with several wireless LAN cards, each to a different IP address of the mobile computer are ordered, equipped. However, this also poses not sure that communication connections are not through such delayed updates are interrupted.

Various proposals are currently being discussed, such as "Mo bile IP "can be improved to switch from one Network access point to another as seamlessly as possible Stalten. All of these suggestions expand the existing ones  Standards, however, do not ensure the possibility of one Computer permanently using multiple wireless network cards at least one of the cards with an IP-based network in To keep in touch.

The object of the invention is a package tated or IP-based communication relationship of a station to be able to maintain without changing during the change sels of the base or network station to an essential leg this communication relationship is coming.

This task is accomplished through the process with the characteristics of Claim 1 or the station with the features of Pa claim 10 solved.

A method of changing a station, e.g. B. a mobile Computer, between two base or network stations of a data and / or communication network, being between the station and a first network station a first communication link as the primary communication link and between the Station and a second network station a second communication tion connection as a secondary communication connection is particularly advantageous when a change parameter as a criterion is determined when the second communication connection in a normal or predetermined operating environment condition as a communication-capable communication link was established and the second communication link then set up as the primary communication link may if the criterion of the change parameter has been met.

Such a procedure can be operated by a station especially in a data and / or communication network be carried out in part if the station with a Spei cher, two or more connection devices, each for establishing and operating a communication connection between the station and one of several network stations such data and / or communication networks are designed,  and a controller for selecting and setting one first of the communication links between the station and a first one of the network stations as primary communication Onsverbindung is equipped, and if the memory one Storage area for storing a change parameter value has as a criterion when a second communication ver connection between the station and a second of the network tion under a normal or predetermined operating condition tion as a communication-capable communication link was built, and if the control device to select and Set the second communication link as the primary Communication connection only after reaching the change para meter values through a corresponding communication link value is designed.

Advantageous configurations are the subject of dependent Claims.

To determine as a criterion for the change parameter that the Station for a certain period of time with the second Ba sisstation provides a parameter that is controlled by Experience is easy to determine. In particular, can this parameter also for different operating conditions can be determined variably, so that network loads are ver different times of day or in different regions can be viewed.

A separate one for each communication link in the station Access address to the station and / or its own network ver Binding device with its own access address to the Setting up the station enables application and transfer to existing local radio data network systems (W-LAN). Advantageously, in the simplest embodiment only the station itself a corresponding procedure can carry out while none at network-side stations Changes and adjustments are to be made.  

In the case of a large number of criteria, the change pa communication connections fulfilling parameters as that to set up the primary communication link with the am best suitable network station exists and / or via the in a predetermined time most past return to the station offers simple criteria one of a variety to be primarily selected in the future Select communication connections. It can be best algorithms and features become.

The non-primary communication link with another Network station than with the network station with which the primary communication link exists, the Sta tion to always check whether a communication ver Connection to another network station is not the primary commu connection would be more suitable.

In a data link layer alongside criteria for changing from Network stations the existence of multiple instances (WLAN cards X, Y) of a subordinate layer and requirements of Mo balance protocols in the network layer and in particular the criterion for the change parameter to be determined in such a way that for mobility protocols in a Network layer is given sufficient time until the accessibility of the station to meet the criterion to restore in the network layer enables ei ne implementation of the procedure for existing network systems systems using existing protocols. In particular can create a transport prototype that supports multiple addresses koll (SCTP) for the transport of telecommunications signals and a protocol to support mobility in the network layer (Mobile IP) for changing one Communication connection between network stations (X, Y) combi be applied. Especially when using the It may be advantageous to use these protocols for transport protocol (SCTP) purposes  retransmission timings to reduce overvalue.

Such a procedure is used when changing the network station through a computer with multiple wireless LAN cards corresponding algorithms advantageously the required Time to update mobility logs in Ver middle layer can be taken into account. This is why ensures that the calculator under normal operating conditions too at any time at at least one of his addresses in the Network layer is reachable.

Mobile computers and subscriber stations that are moved o the one assigned for another reason without changing location A base station or network station can be changed de, maintain IP-based communication relationship, without becoming an essential leg this communication relationship or the achievement availability of such computers or stations.

In other words, the logs of the backup layer an algorithm can be used, which in addition to the usual criteria for changing base stations Existence of multiple Layer 2 instances (wireless LAN cards) and on the other hand the special requirements of mobility protocols taken into account in the network layer.

Existing Internet protocols and WLAN network technology can be combined so that a new quality is created in the support of the continuous communication of mobile computers. Two protocols from different areas of the Internet Engineering Task Force (IETF) are brought together. While in existing systems the so-called "SCTP" (Stream Control Transmission Protocol, RFC 2960 ) was intended as a transport protocol for the transport of telecommunications signaling, the so-called "Mobile IP" was developed to support mobility in the network layer.

Particular advantages result from the fact that no under Communication relationship in the event of a network change, in particular no exponential back-off due to losses like with TCP follow that the use of existing network technology or be standing Internet protocols will allow the off allows the use of multiple network cards, but without Multiply and send packets that Redun danz in the transmission path, which is not only for support of mobility, but also to compensate for fluctuating Quality of various wireless connections useful is.

An embodiment is shown below with reference to the drawing explained in more detail. Show it:

Fig. 1 shows schematically a communication system with two sisstationen Ba and surfaces between the feed preparation changing mobile stations with two Netzzu gear cards,

Fig. 2 schematically shows a stack to illustrate the integration of the protocol used to change access and

Fig. 3 schematically shows a stack to illustrate the preferred integration of the protocols used for access change ver.

As can be seen from Fig. 1, the method described below is particularly in a communication system such. B. a mobile radio system or local radio data network (W-LAN: Wireless Local Area Network) applicable. The mobile radio system shown as an example as a radio communication system known per se has a large number of network elements, in particular access network infrastructure with functions for allocating radio resources, as network-side transmitting / receiving devices, network or base stations BS1, BS2 and subscriber side in the lowest Hierarchy level as transmitting / receiving devices subscriber stations MS. In the case of data networks, corresponding devices are used, the subscriber stations then in particular being computers H with a network card for wireless radio network access.

In the case of mobile radio systems, special network elements are at the core network that are networked with each other and that are not shown here are provided, e.g. B. access to a landline or another radio network. Furthermore, these network elements are over a radio access network with base stations BS1 and BS2 connected the. Such a base station BS1, BS2 can be radio Interface V1 or V2 a connection to the subscriber station NEN, e.g. B. mobile stations MS, H or other mobile and set up stationary devices. Through every base station BS1, BS2, at least one radio cell Z1 or Z2 is formed. With sectorization or with hierarchical cell structure Ren are also radio cells per base station BS1, BS2 provided.

In FIG. 1, for example, two existing connections V1 and V2 are for transmitting user information and Signalisie changed information between a mobile station MS / H shown two base stations BS1 and BS2. Transmissions in the upward direction UL (UpLink) take place from the base stations BS1, BS2 to the mobile station MS, transmissions in the downward direction DL (DownLink) in the opposite direction. Furthermore, a radio or organizational channel (FACH or BCCH: Broadcast Control CHannel) is shown, which is used to transmit user and signaling information with a defined transmission power from each of the base stations BS1, BS2 for all mobile stations MS / H in the area of the radio cell Z is provided.

According to the illustrated embodiment, the computer H assigned two or more IP addresses. In the present case, the mobile computers H according to a simple embodiment two Network cards for wireless radio access to a data network (Wi reless LAN cards) X and Y on. These network cards are perma nent IP addresses a and b assigned, both in the home network of the mobile computer H are assigned. It is in fol assuming that changing a base station necessitates a new IP address.

The stack of communication protocols to be executed (stack) is outlined in FIG. 2. A central entity Z coordinates the behavior of the wireless LAN cards X and Y, taking into account the higher-level protocols (Mobile IP), which support the change of IP-based computers from one network access point to another and update the IP instances involved. It is assumed that there are IP protocols above the Internet protocol that can benefit from several IP addresses of one IP instance.

In the embodiment shown in Fig. 1, the mobile station H is at a first time in the loading area of the first base station BS1, which controls a first home network of the mobile station H associated data network (W-LAN) with the radio cell Z1. The mobile station H and the base station BS1 communicate with one another via the radio link V1 between them. The central entity Z in the mobile station H selects one of the network cards X, Y as communication that is primarily active in the network layer, here for example the card X.

In an adjacent data network (W-LAN) there is a second Ba sisstation BS2 arranged with a radio cell Z2. Get the mobile station H in the area of this second base station BS2 and the signal from the second base station BS2 stronger than the signal from the first base station BS1 the central entity Z first one of the two network cards  change second base station BS2, preferably not primary, secondary network card Y. The other network card X remains still connected to the first base station BS1.

Only when the central instance Z of the mobile station H of it can assume that between the second, secondary network card Y and the second base station BS2 a full communication communication connection V2 was established, can the second network card Y to the primary in the network layer network card and the first network card X corresponding to the secondary network card. A full communica communication link exists in particular only if it is also above the data link layer protocol instances change the base station so far have necessarily understood.

The mobile station H gets further into the area of the two The base station BS2 can subsequently from the central In punch Z also the first network card X of this second base station tion BS2 and switch to it.

Will the mobile station H be in a different situation already in the overlap area, in which the second Ba sisstation BS2 can be received, activated, selects the central instance Z in the mobile station H also a of network cards X, Y as primarily ak in the network layer tive card, here card X, and assigns it to the base station BS1 with the stronger signal. The second network card Y can either one of the two base stations BS1, BS2 be ordered. Otherwise the change of the mobile sta tion H in the area of the second base station BS2 later point in time as described above from.

Implementation is done in the protocols of the data link layer expediently used an algorithm which, in addition to the usual criteria for changing base stations on the one hand  the existence of several so-called Layer 2 instances (Wire less-LAN cards) and secondly the special requirements of mobility protocols in the network layer account.

As a criterion when the mobile station H can assume that between the second, secondary network card Y and the second base station BS2 a fully communicative com communication connection V2 has been established can be specified that the second network card Y for a certain period T is connected to the second base station BS2.

The operating system or the central instance Z of the mobile Station H expediently ensures that to everyone Time via at least one of the network cards, here the one at the network cards X, Y of the mobile station H for one Time T a connection to the corresponding IP-based network exists.

The time period T is chosen long enough that the Mo enough time in the network layer have accessibility in the To restore network layer, so here this Mobile IP protocol has enough time to get everyone involved punch to update. In the present case game this means that after the time period T the "permanent" assigned to the new primary network card Y IP address b is easily accessible from the network.

In addition to a standardized specification of the duration of this time span T can alternatively or additionally also vary be determined. In the latter case, the determination of the Duration on the station side in the mobile station H or on the network side take place, with determination or determination on the network side a transfer of the value of the duration of the time period T via z. B. a message channel to the mobile station H. can. The mobile station H has a corresponding memory area  on, in which the value of this period T abge stores is or will.

The central entity Z in the mobile station H has a Ü Overview of all network cards X, Y and ensures that too exactly one network card X at any time as in the mediator active layer is identified. This Network card X is explicitly prohibited, changing the base station BS1.

The central entity Z is controlled by means of an algorithm ert from all network cards X, Y that have been longer than the time period T is connected to its base station BS1, BS2 are the network card X, Y that with the above Lichen process "best" base station BS1, BS2 connected is.

If the not unlikely case occurs that several network cards X, Y with the same "best" base station BS1, BS2 are connected, so it will be advantageous Network card X, Y selected, according to the criteria to be determined traffic in the immediate past has received.

A variant of the method described above be is that all network cards Y or X that are not considered in the network layer primarily identifies the active card be instructed by the central authority Z, themselves to connect to a different base station BS2 or BS1 than with the base station BS1 or BS2, with which the in the Ver middle layer primarily active network card X or Y connected is.

To implement the method described above according to an embodiment for mobile computers as mobile Station H with two wireless network cards two existing Protocols, especially IETF protocols are combined,  to achieve the goal of seamless communication. With such or a technically comparable implementation of the Procedures become properties of a transport protocol or data stream control transmission protocol, such as so Stream Control Transmission Protocol (SCTP) Stations H or computers with several IP addresses below supports, exploited. These are with properties of a pro tokolls for switching packet data-oriented, in particular IP-based stations H from one network access point to one combined others, d. H. with independent bodies according to the Mobile IP combined, for each of these ad ests. In other words, a stream control Transmission protocol via a protocol for changing access sel (SCTP over Mobile IP).

When establishing an SCTP connection, the mobile station gives here the computer H with two wireless network cards X and Y, each with its own permanent IP address (a or b) is assigned to the communication partner all their permanent ten IP addresses. This is currently done by default. For each of these IP addresses will be the processes according to the change protocol (Mobile IP) carried out. Changes the mobile sta tion H with one of their network cards (here for example Y) to another network or the area of the other base station Mobile station H is currently purchasing BS2 if standard, for this network access or access a local access address (Care of-Address) d under which you can then use the protocol (Mo bile IP) becomes available again. During such a change sels is the mobile station H under the associated permanent one ten IP address b unreachable but probably under At least one of the others, here the address a of the first network card X.

By default, unlike TCP, SCTP becomes temporary with the Interruption of the accessibility of one of the IP addresses is good Done because there is the availability of an address  constantly monitored and, if necessary, traffic to other ad ressen redirects, and since there is another repeated transmissions In general, retransmissions after losses do not increase the address at which the loss occurred. To the performance with exemplary application of the currently known protocol SCTP in this application the retransmission timer can be advantageous tally below the value of 1 second recommended in the standard be lowered.

The stack of communication protocols to be carried out for this purpose is outlined in FIG. 3 in accordance with the statements relating to FIG. 2. The transport protocol SCTP is superordinate to the higher-level protocols "Mobile IP for a" and "Mobile IP for b" assigned to the wireless LAN cards X and Y.

After registering with the first base station BS1 for example a communication relationship between the mo station H and another station or another Calculator built. For example, the other computer can Server on the Internet, the Internet services through the Trans port protocol makes SCTP available, e.g. B. http over SCTP, or a so-called proxy instead of the mobile station H communicates with other computers on the Internet and with the the mobile computer via the transport protocol SCTP commun adorns, or another mobile computer, which by means of Transport protocol SCTP can communicate.

The transport protocol SCTP chooses one of the two permanent ones IP addresses a or b of the two network cards of station H as primary path and sends all IP packets there. Stay for a data packet after sending to the selected address a ei ne acknowledgment by means of the transport protocol SCTP for the repeated transmission (by default) the second perma nent IP address b used.  

Also in this embodiment, the transition changes between the catchment areas of the two base stations BS1 and BS2 first one of the two network cards Y for the second Ba sisstation BS2, while the other network card X continues with the first base station BS1 remains connected. As long as the Connection via network card Y is not communication or is functional, the mobile station H sends all out existing IP packets via the first network card X. As soon as the two Network card Y booked in at the second base station BS2 the mobile station H obtains the second network card Y instead of the previous permanent address b a new access address (Care-of-Address) d and updates the Mobile IP information relating to the second network card Y. D. h. the address value of the variable b is changed to the new value of d overwritten. As long as the mobile station H under the new Access address b or d cannot be reached, data pa kete either directly or according to the transport protocol SCTP as new / retransmissions to other access address a sent. When leaving the feeder area of the first base station BSW1 finally changes also the first network card X to the second base station BS2. The mobile station H accordingly obtains a new door Care-of-Address c and updates the mobile IP information for the permanent address a. As long as the mobile station H under the new access address a or c cannot be reached, according to data packets the transport protocol SCTP either directly or as retransmissions the access address b of the second network card Y sent then be transported from Mobile IP to address d.

The memory of the mobile station H points in the preferred Most embodiment corresponding memory areas for Ab save the and / or specified as the selection criteria time period (s) T to be determined and the existing connection with the respective connection duration.

Claims (10)

1. A method for changing a station (H) between two network stations (BS1, BS2) of a data and / or communication network, wherein
between the station (H) and a first network station (BS1) there is a first communication link (V1) as the primary communication link, and
there is a second communication connection (V2) between the station (H) and a second network station (BS2) as a secondary communication connection,
characterized in that
a change parameter is determined as a criterion (T) when the second communication connection (V2) is established as a communication-capable communication connection in a normal or predetermined operating condition, and
the second communication connection (V2) may only be set up as a primary communication connection if the criterion (T) of the change parameter is met. 2. The method according to claim 1, wherein it is determined as a criterion for the change parameter that the station (H) has been with the second base station (BS2) is connected. 3. The method according to claim 1 or 2, wherein in the station (H) for each communication link (V1, V2) a separate access address (a or b) to the station (H) and / or a dedicated network connection device (X or Y) with its own access address (a or b) to the station (H) is established. 4. The method according to any preceding claim, in which if there are a large number of criteria for the Wechselpa communication connections fulfilling parameters as that primary communication link that is established with the most suitable network station (BS1, BS2)  and / or about those in a predetermined past moment Most traffic was transferred to station (H). 5. The method according to any preceding claim, in which the non-primary communication link (V2) with one whose network station (BS2) is set up as with the network sta tion (BS1) with which the primary communication link (V1) consists. 6. The method according to any preceding claim, in which in a data protection layer in addition to criteria for changing from Network stations the existence of multiple instances (WLAN cards X, Y) of a subordinate layer and requirements of Mo balance protocols taken into account in the network layer become. 7. The method according to any preceding claim, in which the criterion for the change parameter is determined in such a way that for mobility protocols in a network layer enough time is provided until the Kri is fulfilled teriums the accessibility of the station (H) in the med restoration layer. 8. The method according to any preceding claim, in which a transport protocol that supports multiple addresses (SCTP) and a protocol to support mobility in the network layer (Mobile IP) for changing one Communication connection between network stations (X, Y) combi be applied. 9. The method according to any preceding claim, in which one set for transport protocol (SCTP) purposes Retransmission timer value is decreased. 10. Station (H) for operation in a data and / or communication network
a memory,
two or more connection devices (X, Y), each designed to establish and operate a communication link (V1 or V2) between the station (H) and one of several network stations (BS1 or BS2) such data and / or communication networks are and
a control device (Z) for selecting and specifying a first of the communication connections (V1) between the station (H) and a first of the network stations (BS1) as a primary communication connection,
characterized in that
the memory has a memory area for storing an alternating parameter value as a criterion (T) when a second communication connection (V2) between the station (H) and a second one of the network stations (BS2) was established as a communication-capable communication connection under a normal or predetermined operating condition,
wherein the control device (Z) for selecting and setting the second communication link (V2) as the primary communication link is designed only after the change parameter value (T) has been reached by a corresponding communication link value.