DE10238796B4 - Method for determining the position of a mobile station relative to a base station, mobile radio system and direction determination device - Google Patents

Abstract

Method for determining the position of a mobile station (MS) relative to a base station (BS) in a mobile radio system (SYS) operating according to a mobile radio standard, in which
A plurality of access sequences (S) are provided by the mobile radio standard for the signaling of a connection request by mobile stations to base stations,
- The mobile station (MS) transmits one of the access sequences (S) to the base station (BS)
- And the direction determination is carried out based on the received from the base station (BS) access sequence (S) by determining their direction of arrival at the base station.

Description

The The invention relates to a method for determining the direction of the position a mobile station relative to a base station in one after one Mobile radio operating system and a corresponding Mobile radio system and a device for determining direction.

In the DE 197 37 136 A1 , of the DE 197 53 932 A1 , of the US 6 144 340 A , of the DE 195 18 399 A1 , as well as the DE 197 54 783 A1 , different methods for direction determination are described.

in the Under the 3GPP (Third Generation Partnership Project) Time the standardization of the UMTS TDD standard (Universal Mobile Telecommunications Standard, Time Division Duplex). According to this standard is provided (see 3GPP TS 25.224, V5.1.0, section 5.6.3), for the first Access of a mobile station to the mobile network for signaling a connection request to send an access sequence. In the standard (3GPP TS 25.223, V5.1.0, Appendix B, Chapter B2) are 256 such access sequences Are defined. Each of the UMTS TDD standard provided access sequences is 128 chips long. Each base station or Each radio cell is assigned 8 of these 256 access sequences. The available standing access sequences are the mobile station by a fixed Coupling to the other cell parameters of the base station (basic mittambelcode, scrambling code) (see table in 3GPP TS 25.223, V5.1.0, section 9.3). A mobile station can then choose one of these 8 access sequences fortuitously choose and transmitted to the base station for signaling a connection request. This is done in the so-called uplink Pilot Time Slot (UpPTS), the temporally immediately before the first time slot of an uplink transmission frame is arranged. receives the base station one of the access sequences, it is initially unknown, from which mobile station this broadcast originated. Therefore, after the said standard in a further step of the relevant Mobile station from the base station using the previously sent Access sequence assigned to a particular RACH resource over which the Mobile station afterwards transmits an identifying identifier to the base station. The allocation of RACH resources takes place via the so-called FPACH (Fast Physical Access Channel). In this way, the base station ultimately determine which mobile station the connection request has signaled.

In The same mobile radio standard is provided, a direction determination the position of the mobile stations relative to the respective base station make. Such a direction determination is possible if the use of directed antennas is provided in the base station. For direction determination has been provided so far that the base station for this purpose either signals on the UL DPCH (Uplink Dedicated Physical Channel) or on the PUSCH (Physical Uplink Shared Channel). These are traffic channels, up which the mobile stations after a connection, so after the previous signaling of a connection request to the above described type, transmit user data to the base station. For one such connection must have corresponding transmission resources (Spread code, frequency range, time slot) for each mobile station reserved. The use of the UL DPCH or PUSCH to perform the Direction determination is in the standard 3GPP TS 25.225, V5.1.0, section 5.2.14 and TS 25.305, V5.4.0, Section 8.

Of the Invention is based on the object, the direction determination described to do otherwise.

These The object is achieved by a method according to claim 1, a mobile radio system according to claim 9 and a device for determining direction according to claim 10 solved. Advantageous embodiments and further developments of the invention are the subject dependent Claims.

The inventive method for determining the direction of the position of a mobile station relative to a base station in a mobile standard Mobile radio system provides that the mobile station an access sequence transmits to the base station and the Direction determination based on the received from the base station Access sequence performed becomes. The access sequence is one of multiple access sequences used by the wireless standard for signaling a connection request by mobile stations to base stations are provided.

Under Mobile station is understood here any mobile radio station. Under base station here is any other radio station understood that either stationary or be mobile. Under mobile radio system is here any radio system in which said mobile stations and base stations be used. Under mobile standard here is every standard for one the said radio systems understood, the access sequences for the signaling a connection request provides.

While after the above According to the prior art, a connection is established first before a direction determination takes place on the basis of transmission resources allocated to the respective mobile station, the invention advantageously makes it possible to carry out the direction determination already before the allocation of transmission resources to the mobile station. This can already take place during the very first startup of the mobile station in the mobile radio system during a first access of the mobile station to the system, since according to the invention the access sequence used for signaling the direction of destination is used for the signaling of a connection request.

The Invention has the following advantage over the initially described State of the art: For the implementation The direction determination is not an allotment of for traffic connections used transmission resources such as time slot, frequency range, spreading code or scrambling code necessary. Another advantage is that the transmissions of the access sequences For example, according to UMTS TDD standard in a specially reserved Time slot (the UpPTS) can be done so that the access sequences only interfere with other access sequences and not with traffic channels. The Interferences between the access sequences are however suitable Choice of access sequences far less than those who through traffic channels caused.

One Another advantage of the invention is that the direction determinations Already before a channel allocation to the mobile station is feasible. It can therefore, for example, the result of the direction determination already be considered in the channel allocation. Especially Is it possible, a connection request signaled simultaneously by the access sequence reject if it is known that in the direction determined another base station is still free resources to disposal has, while the transmission resources the base station to which the connection request is directed, already almost exhausted are.

To a first embodiment The invention provides the access sequence broadcast by the mobile station as well as the implementation the direction determination as well as for the signaling of a Connection request used by the mobile station. The broadcast the access sequence and their reception in the base station is used thus advantageously two purposes simultaneously.

To a development of this embodiment The invention provides that a result of that of the base station conducted Direction determination and an assignment of this result to the direction determination stored access sequence is stored. The mobile station is sharing for a later Time of the base station with an identifier that they uniquely identified. There is an assignment of the identifier of the mobile station for the direction determination used access sequence. Finally, an assignment of the stored result over the for the direction determination used access sequence to the identifier the mobile station. In this way, the problem is advantageously solved that on the first access of the mobile station to the mobile radio system Transmission of the access sequence of the base station initially unknown is which mobile station is which, that is which Identification has the relevant mobile station. According to the invention Although already at this time a direction determination based the received access sequence, however, due to the lack of Knowledge of the identifier still no assignment of the determined result the direction determination. This happens only in a subsequent one Step, when the mobile station has informed the base station of its identifier. In this case, the message of the identifier under re-transmission the previously used access sequence, so that the assignment of the identifier to the results of the direction determination just possible is.

advantageously, the communication of the identifier by the mobile station can be done by the already described above second step of a first access the mobile station to the mobile radio system. As mentioned, looks this second step ago, that due to the received access sequence the base station assigns a RACH resource to the mobile station then the mobile station more for transmits the connection required information to the base station. To this Information counts so far already the identifier of the mobile station. It will also open the assigned RACH resource from the mobile station the same access sequence transmitted to the base station with the said information, allowing a unique mapping of the access sequence used to identify the mobile station, please include is. In this way, a clear assignment of the results the direction determination for identification of the mobile station done.

According to a second embodiment of the invention, the base station is assigned a radio cell, wherein the radio cell is understood to mean the radio range of the base station. In this embodiment, the access sequence used for the direction determination is reserved at least in the radio cell of the base station exclusively for the implementation of direction determinations, so that a use of this access sequence for signaling a connection request in this radio cell omitted. This makes it possible to advantageously distinguish those access sequences which are actually used in the radio cell for the signaling of a connection request (as provided by the mobile radio standard) from those access sequences which are used for the direction determination. In particular, this makes it possible for the direction determination to be carried out without a connection request being signaled, for example while a connection for the mobile station concerned has already been established. The reservation of the access sequence for the exclusive execution of the direction determination can be provided only for a certain period of time, so that at different times different of the access sequences are reserved for this purpose. The remaining access sequences are then each available for the signaling of connection requests from mobile stations.

To a development of this embodiment The invention provides the base station of the mobile station for the purpose to the direction determination used access sequence. This is done before the transmission of the access sequence by the mobile station and sets precede the base station already the identifier of the mobile station knows. Then the base station can be targeted via the identifier of the mobile station the latter communicate which access sequence they send out for the purpose of direction determination should.

To a development, the base station of the mobile station also a time for the transmissions of this access sequence too. This advantageously allows that same access sequence simultaneously to multiple mobile stations for the implementation of Is assigned directional provisions. An assignment of the results the directional policy based on this access sequence is then in a simple way, taking into account the respective Receiving time of the access sequence in the base station possible. By the assignment of different times for the transmission of the same Access sequence through multiple access stations arise automatically different reception times at the base station, so that the assignment of the results of the direction determinations over the Receiving times to the identifiers of mobile stations is possible.

To Another embodiment of the invention, the base station the mobile station a transmission power for the transmission of the implementation of the Direction determination used access sequence. In this way it can be ensured that the access sequence transmitted by the mobile station arrives at the base station with sufficiently high reception power.

The Mobile radio system according to the invention as well as the device according to the invention for determining the position of a mobile station in one Mobile radio systems are designed so that they the inventive method carry out can and have the one for that required facilities.

The Invention will be described below with reference to FIGS Embodiments explained in more detail. It demonstrate:

1 the section of a mobile radio system,

2 a base station of the mobile radio system 1 and

3 the contents of a memory of the base station 2 ,

1 shows a section of a UMTS TDD mobile radio system SYS. Of course, the invention is also applicable to other mobile radio systems. 1 shows only a radio cell C of the mobile radio system SYS. The radio cell C belongs to a base station BS. In the radio cell C is a mobile station MS and another mobile station MS1. In the 1 Reference numerals in brackets denote optional signals. In the following, a first exemplary embodiment of the invention is dealt with, in which these optional signals are not transmitted.

As mentioned above, the UMTS TDD standard provides for each radio cell C eight different access sequences for the signaling of a connection request by mobile stations to base stations. The mobile station MS in 1 transmits one of these access sequences S for signaling a connection request to the base station BS. The base station BS is equipped with a directional antenna A, which is realized by an antenna field. By means of the directed antenna A, the base station BS is able to perform a direction determination of the position of the mobile station MS relative to the base station BS, by determining the direction of arrival of the access sequence S. The direction determination of a received signal by means of a directional antenna is known to the person skilled in the art and will not be explained further here. Each of the mobile stations MS, MS1 transmits one of the access sequences to the base station BS in the case of a connection request. The base station broadcasts all eight access sequences to be used in its cell C and the mobile stations dial one of them randomly. The mobile station MS transmits the access sequence S and the further mobile station MS1 transmits another access sequence S1 to the base station BS. The base station BS performs the above-mentioned direction determination for each of the received access sequences S, S1. In addition, in further method steps, it assigns to each mobile station MS, MS1 transmission resources for the desired connection.

2 shows the base station BS 1 , Shown are only the essential components for understanding the invention. The base station BS has a transmitting and receiving unit TRx, which is connected to the directional antenna A. The transmitting and receiving unit TRx is connected to a signal processing unit SIG which serves to process the signals received via the antenna A and the signals to be transmitted via the antenna A. Furthermore, the base station BS has a device R for carrying out the above-mentioned direction determination. This evaluates the received via the antenna A access sequence S, S1 and determines the direction from which the access sequence arrives at the antenna A. A corresponding result E, E1 of the direction determination is stored in a memory M of the base station BS, separated for each received access sequence.

In 3 is extracts of the contents of the memory M from 2 shown in tabular form. The memory M has column-wise entries for each of the mobile stations MS, MS1 located in the radio cell C. The table in 3 shows the contents of the memory M at two different times t1, t2. At the first time t1, the two access sequences S, S1 have already been emitted by the base station BS from both mobile stations MS, MS1 1 received and each carried out a direction determination. The memory then stores both the access sequence S and (in association with this access sequence) the corresponding result E, E1. Subsequently, the base station BS of each mobile station MS, MS1, which has signaled a Signali sierungswunsch by transmitting the access sequence, as provided by the UMTS TDD standard, via a message FP, FP1 (see 1 ) a RACH resource for a second step of the first access of the mobile station to the mobile radio system. In this second step, each mobile station MS, MS1 transmits an identifier K, K1 to the base station BS, which uniquely identifies the respective mobile station MS, MS1 (cf. 1 ). According to the standard considered here, since the base station assigns a specific RACH resource to the mobile station for performing said second step, the base station can uniquely assign the identifier K, K1 to the access sequence S, S1 previously transmitted by the mobile station MS, MS1 concerned. According to 3 the corresponding identifier K, K1 of the respective mobile station MS, MS1 is subsequently stored in the memory M of the base station BS at the second time t2 in association with the results E, E1 of the direction determination. In this case, the assignment takes place via the access sequence S, S1 used both in the first and in the second step of the first access of the mobile stations to the mobile radio system.

Of course, the means R for direction determination and the memory M from 2 instead of in the base station BS in outside the base station BS arranged units may be included, for example, connected to a plurality of base stations of the mobile radio central unit such as a base station controller.

At the first embodiment leads the base station BS a direction determination for each in the first step of a first access of a mobile station MS, MS1 on the mobile radio system SYS transmitted access sequence by.

In the following, a second embodiment of the invention will be explained. For this purpose, the in 1 in reference numerals. In this embodiment, in the radio cell C, not all eight UMTS TDD mobile radio standard for the signaling of a connection request by mobile stations to base stations provided for this purpose are actually available. Instead, the two access sequences used for the direction determination are S, S1 in FIG 1 in this embodiment reserved exclusively for the implementation of the direction determination and therefore can not be used for the signaling of a connection request by one of the mobile stations. In this case, it is possible that the same access sequences are available in other radio cells C of the mobile radio system, but the same of these access sequences need not be reserved for performing the direction determination, as for the radio cell C considered here.

In this embodiment, the base station BS assigns one of the reserved access sequences S, S1 to each mobile station MS, MS1 for which a direction determination is to be performed. In addition, the base station BS of each mobile station MS, MS1 next to said access sequence S, S1, a transmission power P, P1, with which the mobile station is then to send the access sequence S, S1, and a time t, t1, to which the mobile station MS, MS1 should send the respective access sequence S, S1. The base station BS then leads on the basis of the mobile stations MS, MS1 assigned and then to the Ba sisstation BS transmitted access sequences S, S1 the direction determination described above.

For the assignment of the access sequence S, S1 to the mobile stations MS, MS1 in the second embodiment, it is necessary for the base station to already know the identifier K, K1 of the respective mobile station. This knowledge is obtained by the base station BS by the two-stage method of first access according to the UMTS TDD standard explained above with reference to the first embodiment. According to 1 the Richtungsbestim determination takes place in the second embodiment, while already a connection V, V1 has been established in the form of a traffic channel for the transmission of payload information between the mobile station MS, MS1 and the base station BS.

Of course they are Combinations of the first with the second embodiment possible. So The temporal first direction determination can already coincide with the signaling of the connection request done (accordingly the first embodiment) and then (if connected) the direction determination according to the second embodiment to be updated.

Instead of the time T, T1 for the transmission of the access sequence S may be the base station BS of the mobile station MS, MS1 also announce that they have access sequence S, S1 several times, for example, should send out periodically, so that the direction determination each can be updated.

alternative for notifying the transmission power P, P1 for the transmission of the access sequences S, S1 in the second embodiment or additionally to this can also be provided that in case of a failed transmission attempt the access sequence S, S1 by the mobile station MS, MS1 the mobile station the transmission power for a new transmission attempt each gradually increased. On the the mobile station MS assigned time T for the transmission of the access sequence S is it possible for the base station BS, uniquely assign the received access sequence S to the mobile station MS, without the mobile station coinciding with the access sequence too must transmit its identifier K. Namely, the base station BS knows which mobile station MS, MS1 which access sequence S for the transmission to which Time T, T1 has assigned. about The reception time in the base station BS, it can therefore without To find out from which mobile station MS, MS1 the respectively received access sequence S, S1 comes.

Claims (10)

Method for determining the direction of the position a mobile station (MS) relative to a base station (BS) in one mobile radio system (SYS) operating according to a mobile radio standard, in which - several Access sequences (S) from the mobile radio standard for the signaling of a Connection request provided by mobile stations to base stations are, - the Mobile station (MS) one of the access sequences (S) to the base station (BS) transmits - and the Direction determination based on the received from the base station (BS) Access sequence (S) by determining their direction of arrival at the Base station performed becomes. The method of claim 1, wherein the mobile station (MS) transmitted access sequence (S) for both the implementation of Direction determination as well for the signaling of a connection request by the mobile station (MS) is used. The method of claim 2, wherein - a result (E) the direction determination performed by the base station (BS) and an assignment of this result (E) to that used for the direction determination Access sequence (S) is stored, - the mobile station (MS) too a later one Time (t2) of the base station (BS) an identifier (K) tells that she clearly identifies - an assignment of the identifier (K) of the mobile station (MS) for the direction determination used access sequence (S) takes place - and a Assignment of the stored result (E) over that used for the direction determination Access sequence (S) to the identifier (K) of the mobile station (MS) takes place. The method of claim 1, wherein - the base station (BS) is assigned a radio cell (C), - and the access sequence used for the direction determination (S) at least in the radio cell (C) exclusively for the implementation of Direction is reserved, so that use of this Access sequence (S) for signaling a connection request is omitted in this radio cell (C). The method of claim 4, wherein the base station (BS) of the mobile station (MS) for the purpose of direction determination assigned access sequence (S) assigns. The method of claim 5, wherein the base station (BS) of the mobile station (MS) has a time (T) for the transmission of the access sequence (S) for the implementation assigns the direction determination. Method according to one of claims 5 or 6, in which the base station (BS) assigns to the mobile station (MS) a transmission power (P) for the transmission of the access sequence (S) for carrying out the direction determination. Method according to one of claims 4 to 7, wherein the emission the access sequence (S) and the direction determination performed therefrom while an existing connection (V) to the mobile station (MS) takes place. Mobile Radio System (SYS), With at least one mobile station (MS) and a base station (BS), - that according to a mobile standard works, which has multiple access sequences for signaling a Connection request by mobile stations to base stations provides - whose Mobile station (MS) transmits one of the access sequences to the base station (BS) - and with means (R) for determining the position of the mobile station (MS) relative to the base station (BS) based on the received from the base station Access sequence (S) by determining their direction of arrival at the Base station. Device (R) for determining the direction of the position a mobile station (MS) relative to a base station (BS) in one Mobile Radio System (SYS), which operates on a mobile standard, the multiple access sequences for the signaling of a connection request by mobile stations provides base stations, the direction determination using a that transmitted by the mobile station (MS) and by the base station (BS) received access sequences (S) by determining their direction of arrival at the base station.