DE10228751C1 - Operating radio communications system involves calling up radio parameters stored for location for defined mobile station maintaining connection to access point at that location - Google Patents

Abstract

The method involves measuring radio parameters for a connection between a mobile radio station and an access point as well as positional coordinates for the mobile station from a radio station in the radio communications system, storing the measured parameters and associated coordinates together and calling up radio parameters stored for a location for a defined mobile station maintaining a connection to a first access point at that location. An Independent claim is also included for a radio communications system.

Description

Radio communication systems are used to transmit information tion, voice or data, with the help of electromagnetic Waves over a radio interface between a transmitting and a receiving radio station. Different participants are thereby through different physical channels, in the radio interface is organized. from depending on the access method used, a physi calic channel through a narrow band frequency range, a time slot and / or a spreading code are formed. The currently examined and most promising candidates for cellular mobile radio systems based on GSM, GPRS, EDGE and UMTS, as well as wireless local area networks (Wireless Local Area Networks WLANs) such as IEEE802.11 and HIPERLAN / 2 and satellite systems and distribution service systems (Broad cast systems), such as satellite UMTS (UMTS-S), DAB and DVB-S / T differ among other things by the applied access procedures. The access procedure affects the properties of the data transmission, such as Da rate and range.

In future mobile radio systems it can be assumed that different access methods are used in parallel to every mobile phone subscriber for the data they want provide optimal transmission properties to be able to.

A common feature of the above-mentioned mobile radio systems is that they have access points from which a radio connection to mobile radio stations can be established via the radio interface. These access points, which are designed as transmitters / receivers, are referred to as base stations in GSM, GPRS, EDGE, in UMTS as NodeB and in wireless local area networks as access points or access points. In cellular mobile radio systems, several access points are connected to a radio network controller that manages the radio resources of the connected fixed radio stations. The radio network control is used for GSM, GPRS and EDGE as base station control, for UMTS as radio network controller RNC and in WLAN according to the HIPERLAN / 2 standard as access point control (access point controller). As a rule, there are no radio network controls in WLAN that manage the radio resources. According to the 8021.11 standard, the access points independently search for a free frequency and use this for data communication. The radio access control in cellular mobile radio systems is connected to a switching node which is referred to as a mobile switching center in GSM, GPRS, EDGE and UMTS. The switching nodes are networked with each other and are part of the fixed network. WLAN access points are usually connected directly to the fixed network. The fixed network can also be the Internet or a wired access network which realizes access to the Internet via a corresponding gateway.

An area covered by a radio communication system is in individual radio zones, which are also called cells be divided. One cell becomes one the access points operated via the radio connections from mo bile radio stations that are in this cell be built. Different radio connections are there assigned to different physical channels.

A mobile radio station moves out of the area of a cell le in another cell, so with radio binding a handover procedure (also handover or handoff called), in which the active radio connection from one Access point is passed to another access point, the radio link also across cell boundaries is maintained.  

Radio cells of different sizes are often defined, that overlap. With the help of these radio cells, the un different requirements for the mobility of the participants be met. Participants who have a low Ge moving speed, preferably become small cells ordered while participants who are moving at high speed move, preferably assigned to large cells, to avoid frequent handover procedures. With a change The exercise behavior of a participant can be an exercise handover procedure from a small to a large cell emergency become agile.

In addition, in a mobile radio system, the same offers different access methods, handover procedures between cells that have different access ver drive support, become necessary if the requirement of a subscriber connection, for example regarding Da rate or speed of the participant.

The decision that a cell change should be made in the mobile radio system based on different criteria met. In addition to the received field strength (received signal Strength Indicator (RSSI), the bit error rate, BER) or the signal-to-interference ratio (carrier-to- Interference ratio, C / I) can be the distance of mobile radio station to the fixed radio station as a criterion for the introduction a handover procedure can be used. In F. Cor tés-Rodriguez et al. Proc. IEEE VTC'99, 1999, pp. 775-779 proposed the position of the mobile radio station as a condition for a handover procedure decision turn. These criteria can be weighted differently and can be combined and also provided with hysteresis to avoid unnecessarily frequent cell changes.

To decide which cell to switch to, it is required information about the connection quality  in the new cell. That is, the RSSI, BER and / or C / I values for a radio station in the new one Cells must be measured. Regardless of whether the new Cell supports the same access method as the old one, the receiver of the radio station must be on the radio adjust the sources of the new cell and measure signals that usually from the base station or access point perio be sent out. If the new cell uses another frequency, the receiver must change the frequency. If a different scrambling code is used in the other cell det, this code must be accordingly in the decoding Receivers can be used.

The UMTS standard provides three different methods for measurements in systems with the same or different access methods (see 3GPP TS25.212: "Multiplexing and channel coding (FDD)", 3GPP TS25.215: "Physical layer Measurements (FDD ) ", 3GPP TS 25.331 :" RRC Protocol Specification "). So-called intra-frequency measurements, i.e. measurements in which the same FDD or TDD mode is used in both cells, are called interfrequency intra-system, i.e. measurements in which one cell is in FDD mode and the other Cell is operated in TDD mode, and interfrequency intersystem measurements, that is, measurements in which one cell is operated in accordance with the UMTS standard and the other cell in accordance with the GSM standard. The measurements can be carried out in the FDD mode by the compressed mode and in the TDD mode during the time of unused time slots.

The measurements are carried out by the mobile radio station leads. The mobile radio station receives the command for this from fixed radio station with which she established the connection, through a corresponding control message, the so-called "Measurement Control Message". This message contains the Information on what should be measured and whether the measurement pe  should be carried out periodically or in an event-controlled manner means a measurement ID and a measurement type.

To prepare a handover procedure, the network sends the mobile radio station a list of cells in which the mobile radio station is to perform measurements during the unused time slots. For example, the cells can be operated in TDD mode, FDD mode or in accordance with the GSM standard. At the beginning of a measurement, the mobile radio station usually has to synchronize in the cell. The mobile radio station then measures the reception field strength over a measurement period, which is 200 ms for intrafrequency measurements and 480 ms for measurements in the GSM system and for interfrequency measurements. In FDD mode, the measured values are averaged over three measurement periods.

Similar measurement procedures have been proposed for wireless local area networks, for example HIPERLAN / 2 (see, for example, ETSI / BRAN "Broadband Radio Access Networks (BRANs); HIPERLAN Type 2 ; Data Link Control (DLC) Layer, Radio Link Control (RLC) Sublayer ", Draft DTR / BRAN-0020004-23, ETSI Sophia Anti polis, France, Feb. 2000; ETSI / BRAN" Broadband Radio Access Networks (BRAN); HIPERLAN Type 2 ; Physical (PHY) layer ", Draft DTR / BRAN -0023003, ETSI Sophia Antipolis, France, March 2000; ETSI / BRAN "Broadband Radio Access Networks (BRAN); HIPERLAN Type 2 Functional Specification Data Link Control (DLC) Layer, Part 4 - Extension for Home Environments", Draft DTR / BRAN -0020004-4, ETSI, Sophia Antipolis, France, April 2000). To establish a connection to a central instance, a frequency must be listened to for a minimum of 4 ms. During this time, the broadcast control channel (BCCH), which is transmitted on the broadcast channel (BCH), is to be decoded. In addition, three measurement procedures are proposed. In the first method, the BCH should be measured via the received signal strength 0, RSS0, and decoded if possible. In the second method, the frequency is to be measured for a duration of two OFDM symbols without decoding the BCH. The third method combines the two methods described above. In a handover procedure, the mobile radio station first listens to the radio medium for BCH messages. If the fixed radio station receives a BCH signal from a central entity, it registers as a mobile radio station with this central entity. Otherwise, the mobile radio station itself sends out BCH signals and takes on the role of a central authority.

In the Cello project (http: / / www.telecom.ece.ntua.gr/cello/) was de proposed depending on a handover procedure decision the location of a mobile radio station and that of this station measured radio parameters.

The invention is based on the problem of a method for Operation of a radio communication system as well as one for it to specify directed radio communication system in the About giving procedures can be carried out with less effort.

According to the invention, this problem is solved by a method ren according to claim 1, and a radio communication system ge according to claim 9. Further embodiments of the invention go from the subclaims.

In the process of operating a radio communication system are from radio stations located in the radio communication system radio parameters for a connection between a mobi len radio station and an access point. This funk parameters are shared with an associated location information tion of the mobile radio station saved. For a given ne mobile radio station that connects to a first one Access point maintains and is located at the first access known point of departure is the place for this place stored radio parameters. In the radio communication tion system are thus measured values that all in the radio comm communication system located radio stations or access  points were measured, saved and so everyone else Radio stations or access points provided. egg ne mobile radio station, for the measured radio parameters for a certain place are needed, can thus on the ge stored values. It is therefore not necessary That this radio station determines the measured values itself.

The method is preferably used in connection with a Ü handover procedure used. For the given mobile radio station is entered based on the radio parameters retrieved Radio channel to a second access point is estimated. On the This estimate is based on a decision to implement Execution of a handover procedure of the connection from the first To point of entry to the second access point. Through this Procedure eliminates the need to hand over procedure measurements or eavesdropping procedures to to determine the radio conditions regarding other access points stuffs. On the one hand, this makes the radio communication system relieved, on the other hand, can quickly via the handover process be decided and the handover procedure carried out as no additional measurements are required.

If the radio medium is exposed to large fluctuations in time, so it is advantageous to add the for each radio parameter Save the time of the measurement. This allows the update radio parameters can be checked.

It is within the scope of the invention to apply to any radio parameter additionally a speed vector of the mobile radio station save. Then when estimating the radio channel the speeds and directions of movement of the mobile Radio stations are taken into account.

The procedure is both for handover procedures within an egg nes radio communication system in which only one access ren used, as well as in radio communication systems, in which different access methods are activated at the same time  be applicable. Because in a radio communication system system in which different access methods are used, the establishment of separate signaling connections for Determination of measured values in neighboring cells is particularly complex dig is, it is particularly advantageous, the inventive Procedure to apply in this case, as this saves tion is particularly large.

When using the method in a radio communication system with access points that have different access methods support, the measurement results are sent to a decision transfer unit in which the decision to guide the handover procedure of the connection from the first Access point to the second access point is hit. The Decision unit can be at a central point of the network to Example in a switching node or in a radio network access control can be arranged. The decision unit can also be provided in the mobile radio station. In in this case, those relevant for a handover procedure Measurement parameters are transmitted via the radio interface. The access points can use a TDMA access procedure ren, an FDMA access method, an OFDMA access method drive, an SDMA access method and / or a CDMA Access method and / or any combination of Access procedures are operated.

Measured values that correspond to the stay stop assigned to the specified mobile radio station are transmitted to the specified mobile radio station. al Alternatively, these measurements can also be made explicitly question to be transmitted. With the help of this information can the mobile radio station if the connection to the ordered access point, a new ver binding to another, possible based on the measured values Set up the radio station. This new connection is quasi as Handover procedure established. It becomes a so-called hard Handover initiated.  

A radio communication system that to the expiry of the Invention is suitable according to the method, has several access points on, of which connections to mobile radio stations can be built. There are also measuring devices for measurement of radio parameters for a connection between a mobile Radio station and an access point and for measuring the Location coordinates of the mobile radio station provided. As the Like measuring devices are in known radio communication systems according to GSM, GPRS, EDGE, UMTS the mobile Radio stations and the access points, such as base stations and Suitable for NodeB. The measurement of the location coordinates can both via the mobile radio station as well as via the access point respectively. Furthermore, the radio parameters mentioned can or their attributes (location, time, speed, direction, etc.) obtained by coupling with other information sources become.

The radio communication system is also with a Storage unit equipped in which the measured radio para meters and the associated location coordinates are saved. This storage unit can be arranged centrally, for example in the switching nodes, for GSM, GPRS, EDGE or UMTS in the mobile switching stations, in the radio network control or in radio resource control (radio resource Control). In addition, the measured values can be accessed points or the mobile radio stations can be saved. For this purpose, the measured values are transmitted via the radio communication cation system or a landline with which the radio communication system connected via the switching nodes is required. The transmission of the measured values can in particular in particular over an IP network with which the mediation knots are connected. The radio communication system has furthermore via a decision unit in which the Decisions to perform a handover procedure Connection from a first access point to a second access starting point. This decision unit can  as well as the storage unit, both centrally in the ver averaging nodes, radio access controls or radio resource controls, as well as decentralized in the fixed radio stations tions or the mobile radio stations.

In the following, the invention is illustrated by means of embodiments play, which are shown in the figures, explained in more detail tert.

Fig. 1 shows a radio communication system that supports different access procedures.

FIG. 2 shows the change of a subscriber from a GSM cell via a picocell and a HIPERLAN / 2 cell to a UMTS cell.

A radio communication system comprises first access points BTS, which work as base stations according to the GSM or GPRS standard. Several of the first access points BTS are connected to a base station controller BSC. The base station controls BSC are connected to a mobile switching station MSC, which is connected to an IP network IP via a gateway mobile switching station GMSC. Each of the first access points BTS defines a radio cell Z ₂ i, i = 1, 2.. ., 5, in which different subscribers are distinguished according to the access method provided in the GSM standard. There is a radio link between the first fixed access point BTS1 and a mobile radio station MS1, between the first access point BTS2 and a mobile station MS2, and between the first access point BTS3 and a mobile station MS3. During this connection, reception field strengths RSSI, bit error rates BER and signal-to-interference ratios C / I are measured periodically. In addition, the location of the respective mobile radio station MS1, i = 1, 2, 3 is measured. These radio parameters are stored together with the associated location information in a first storage unit SP ₂ . The storage unit SP ₂ is connected to the first access points BTSi, i = 1, 2, 3 via the mobile switching center MSC and the base station controller BSC.

In addition, the radio communication system comprises second access points NodeBi, i = 1 to 6, which are designed as NodeB according to the UMTS standard. The second fixed access points NodeBi are connected to radio network access controllers RNC. The radio network controllers RNC are connected to one another via mobile switching centers MSC and via a packet data switching node (serving GPRS support node) SGSN and a gateway packet data switching node GGSN to the IP network IP. The second access points NodeBi each define a cell Z ₃ i, i = 1 to 6, in which the different subscribers are differentiated according to the access method defined in the UMTS standard. A connection is established between the second access points NodeBi and mobile radio stations MTi, i = 1 to 3. During these radio connections, the reception field strength, the bit error rate and the signal-to-interference ratio C / I are measured in accordance with the measurement procedures specified in the UMTS standard. Furthermore, the location coordinates of the current location of the mobile radio stations MTi, i = 1 to 3, are measured. These measured radio parameters and the location coordinates are transmitted in a second memory unit SP ₃ , which is connected to the mobile switching center MSC.

Furthermore, the radio communication system comprises access points AP which, together with an access point control APC, form cells Z _H i, i = 1, 2, 3 in accordance with the HIPERLAN / 2 standard. A third storage unit Sp _{H is} connected to the access point controller APC, in which location coordinates and measured values for mobile radio stations which are connected to an access point AP are stored. Such measurement values are obtained by measurement procedures defined in the HIPERLAN / 2 standard.

The radio communication system also includes decision units E ₂ , E ₃ , E _H , which are connected to the mobile stations MSC for the first and second access points BTSi or NodeBi set up in accordance with the GSM and UMTS standard, or to the access point controller APC and via this are connected to the respective access points BTS, NodeB, CC. In decision units E ₂ , E ₃ , E _H , the decision is made as to whether a handover procedure for a connection from one access point to another access point is to be carried out. For this purpose, the decision units E ₂ , E ₃ , E _{H use} the radio parameters stored in the memory units Sp ₂ , Sp ₃ , Sp _H for the corresponding locations. The decision units E ₂ , E ₃ , E _H are connected to one another via the IP network IP. Alternatively, the decision units E ₂ , E ₃ , E _H and the storage units Sp ₂ , Sp ₃ , Sp _{H are} each provided as central units which are connected to all access points BTS, NodeB, CC via the IP network

For example, if the mobile radio station MS1 moves from the cell Z ₂ 1 into the cell Z ₂ 4, the first decision unit E ₂ decides on the basis of the measured radio parameters for the location of the mobile radio station MS1 in the cell Z ₂₂ whether and when a handover procedure is initiated. If, on the other hand, the requirements for the connection of the mobile radio station MS3 change with regard to the data rate, so that a radio connection to a second fixed radio station NodeB is expedient, then check the first decision unit E ₂ and the second decision unit E ₃ on the basis of those in FIG second memory unit SP ₃ stored radio parameters, which of the cells Z ₃ i comes into question for the transfer procedure. Since the mobile station MS3 is located both in the area of cell Z ₂ 3 and in the area of cell Z ₃ 4, a handover procedure to the second access point NodeB4 is carried out.

As an alternative to the exemplary embodiment shown in FIG. 1, the radio parameters and the associated location coordinates can be stored at different locations in the radio communication system in the sense of a distributed database. Accordingly, the decisions for the handover process can be made locally, for example in the mobile radio stations. In this case, the radio parameters required for the handover decision must be transmitted to the respective decision unit.

The stored radio parameters also contain the In formation, which access method or which Type of cell is available at any one time.

When establishing a connection between a mobile radio station MS and a radio communication system, it is initially not known which radio interfaces are available. The mobile radio station MS, for example, first establishes a connection to a base station BTS according to the GSM standard (see FIG. 2). The base station BTS supplies a cell Z1. A query in a database DB, in which the radio parameters and the associated location coordinates are stored in the radio communication system, shows that the mobile station is also located in a cell Z2 of an IEEE802.11 WLAN, in a cell Z3 of a HIPERLAN / 2 WLAN, such as a cell Z4 of a Bluetooth PAN and a cell Z5 according to the UMTS standard. On the basis of the data transmission requirements of the mobile radio station MS, a transfer procedure to cell Z3 of the HIPERLAN / 2 WLAN is carried out. Since the speed of the mobile radio station MS changes, and the mobile radio station MS approaches the cell boundary of the HIPERLAN / 2 WLAN cell Z3 with increasing speed, the radio communication system makes the decision that the connection of the mobile radio station MS by the handover procedure of the cell Z3 is transferred to the UMTS cell Z5. The UMTS cell Z5 is larger than the cell Z3, so that the frequency of the handover procedures at increased speed is thereby reduced.

The decision for the described handover procedures can both in a central decision unit as well decentralized z. B. in the mobile radio station MS who met the. Accordingly, the radio parameters in a central Database or stored in a distributed database his.

Claims (10)

1. method for operating a radio communication system,
in the case of radio stations located in the radio communication system, radio parameters for a connection between a mobile radio station and an access point, and location coordinates of the mobile radio station are measured,
in which the measured radio parameters and the associated location coordinates are stored together,
In the case of a specific mobile radio station which maintains a connection to a first access point and is located at a location known to the first access point, the radio parameters stored for this location are called up. 2. The method according to claim 1,
where a decision unit calls the radio parameters for the specified mobile radio station,
in which in the decision unit for the given mobile radio station a radio channel to a second access point is estimated on the basis of the radio parameters called up and a decision is made to carry out a handover procedure for the connection from the first access point to the second access point. 3. The method according to claim 1 or 2, the time for each radio parameter the measurement is saved. 4. The method according to claim 1 or 2, where the times when estimating the radio channel of measurements are taken into account. 5. The method according to any one of claims 2 to 4,
in which the speed vector of the mobile radio station is stored for each radio parameter,
in which the speed vectors of the mobile radio stations are taken into account when estimating the radio channel. 6. The method according to any one of claims 2 to 5,
in which the radio communication system comprises access points which operate according to different access methods,
where the first access point and the second access point differ with regard to the access method they use,
in which the measured radio parameters are transmitted to a decision unit in which the decision to carry out the handover procedure of the connection is made from the first access point to the second access point. 7. The method according to claim 6, where the radio communication system access points that with a TDMA access procedure, an FDMA Access procedure, an OFDMA access procedure, a SDMA access method and / or a CDMA Access method and / or any combination these access methods are operated. 8. The method according to claim 6 or 7, at the periodic or on request measured values that the Location of the given mobile radio station are assigned to the specified mobile radio station will wear. 9. Radio communication system
with several access points, from which connections to mobile radio stations can be established,
with measuring devices for measuring radio parameters for a connection between a mobile radio station and an access point and for measuring the location coordinates of the mobile radio station,
with a storage unit in which the measured radio parameters and the associated location coordinates are stored,
with a decision unit in which decisions for performing a handover procedure of a connection from a first access point to a second access point are made. 10. radio communication system according to claim 9, where access points are provided that are different Support access procedures.