DE19638337A1 - Method for determining the location of a mobile radio station and base station for transmitting location information - Google Patents

Abstract

Disclosed is a method to determine location of a mobile radio station (1) in the radiation area (5) of at least one base station (10). Base station (10) transmits at least two differently coded signals from two antennae (15, 20) in different directions so that radiation area (5) of base station is divided up into corresponding minor-overlapping radiation fields (25, 30). According to location of mobile radio station (1) in radiation field (25, 30) of one of the antennae (15, 20) the signal transmitted by the corresponding antenna (15, 20) is received by the mobile station (1). Information is transmitted, preferably to a base station (35), according to coding of signal received. Location of mobile station is determined in said station (35) according to the information. Also disclosed is a base station (10) which is used to transmit local information in a radiation area (5). At least two antennae (15, 20) are provided to transmit radio signals in different directions so that the radiation area (5) of the base station (10) is divided up into corresponding minor-overlapping radiation fields (25,30). The antennae (15,20) are connected to a means of producing code (40). Said means (40) provides antennae (15,20) with radio signals presenting a different coding.

Description

State of the art

The invention relates to a method for determining the Location of a mobile radio station according to the genus of independent claim 1 and from a base station to Sending location information according to the genus of independent claim 6.

EP 0 290 725 B1 already describes a method for Determine the approximate location of a mobile Radio station in a cellular radio telephone network with mobile Radio stations and with one base station per radio cell known. The individual base station numbers of the Fixed stations are used in data telegrams Radio area of the base stations operating mobile Radio stations communicated. The base station number is used here as location information. One in the from the base station to the Mobile radio station contained transmitted data telegram Field strength information, which is a measure of that at the Base station received field strength of the mobile radio station serves as additional location information.  

Advantages of the invention

The inventive method with the features of independent claim 1 has the advantage that at least two differently coded by the base station Signals from one antenna in different Directions are emitted so that the radiation area the base station in corresponding notable overlapping radiation fields is divided, depending on Location of the mobile radio station in the radiation field of one of the Antennas that radiated by the corresponding antenna Signal is received by the mobile radio station. To this The direction in which the mobile radio station is located with respect to the base station, wherein no additional stations are required, but only an existing base station with corresponding Directional antennas must be equipped.

By the measures listed in claims 2 to 5 are advantageous further developments and improvements in independent claim 1 specified method possible.

The forwarding of the in the mobile is advantageous Radio station received signal to the station. To this There is no such thing in the mobile radio station Signal processing required so that there hardware and Software effort and thus costs can be saved.

The determination of the movement of the mobile radio station in the radiation area of the base station,  if different within a given period receive coded signals in the mobile radio station will. This way is in addition to static Localization also dynamic localization and thus an improved determination of the location of the mobile Radio station possible.

Another improvement in the localization of the mobile Radio station results in an advantageous manner in that also the direction of movement of the mobile radio station in the Radiation area of the base station depending on the arrival of the differently coded signals is determined in the mobile radio station.

It is also advantageous to trigger an alarm if one not determined direction of movement of the mobile radio station corresponds to a predetermined direction of movement. To this The method can also be used for monitoring purposes be used.

The base station according to the invention with the features of independent claim 6 has the advantage that at least two antennas are provided, the radio signals in radiate different directions so that the Radiation area of the base station in corresponding no significantly overlapping radiation fields is divided, that the antennas are connected to a code generating means and that the code generating means to the antennas Emits radio signals with different coding. In this way, the location of a mobile Radio station in one of the radiation fields and the movement  the mobile radio station from one radiation field into one other radiation field can be determined.

drawing

An embodiment of the invention is in the drawing shown and in the following description explained. The only figure shows the radiation area a base station and the transmission of signals between the base station, a mobile radio station and one another station.

Description of the embodiment

In the figure, 10 denotes a base station which comprises a code generating means 40 . A first transmission antenna 15 and a second transmission antenna 20 are connected to the code generating means 40 . The two transmission antennas 15 and 20 are directed in the opposite direction, the first transmission antenna 15 supplying a first radiation field 25 and the second transmission antenna 20 supplying a second radiation field 30 . The two radiation fields 25 and 30 do not significantly overlap and together form the radiation area 5 of the base station 10 . A mobile radio station 1 is located in the second radiation field 30 , the mobile radio station 1 carrying out a movement from the first radiation field 25 into the second radiation field 30 . In the first radiation field 25, the mobile radio station 1 is therefore shown in dashed lines, and the movement of the mobile radio station 1 from the first radiation field 25 in the second radiation field 30 is shown by a solid arrow. The mobile radio station 1 is connected to a transmitting / receiving antenna 45 which receives 25 radio signals from the first transmitting antenna 15 in the first radiation field and 30 radio signals from the second transmitting antenna 20 in the second radiation field 30 . The mobile radio station 1 in turn sends radio signals both from the first radiation field 25 and from the second radiation field 30 to a station 35 outside the radiation area 5 of the fixed station 10 . The transmission of the radio signals is shown in the figure by dashed arrows. To receive the radio signals from the mobile radio station 1 , the station 35 is provided with a receiving antenna 50 .

The code generating means 40 generates radio signals with a first coding and radio signals with a second coding that is different from the first coding. The code generating means 40 emits the radio signals with the first coding to the first transmission antenna 15 and the radio signals with the second coding to the second transmission antenna 20 for radiation. The radio signals with the first coding can be received in the first radiation field 25 and the radio signals with the second coding can be received in the adjacent second radiation field 30 of the base station 10 . The coding thus already represents location information, so that different radiation fields are characterized by different coding. If the mobile radio station 1 moves through the first radiation field 25 , it receives radio signals with the first coding. The mobile radio station 1 then sends a message to the station 35 via its transmitting / receiving antenna 45 depending on the coding of the received signal. The location information about the stay in the first radiation field 25 can be derived in the mobile radio station 1 from the coding of the received signal, so that the message sent to the station 35 already contains this location information. However, it is also possible for the mobile radio station 1 to forward the received signal to the station 35 unprocessed, so that the location information in the station 35 must be derived from the coding of this signal. The station 35 is preferably stationary and, in the exemplary embodiment described, represents the center of a monitoring system. However, it is also possible to carry out the station 35 in a mobile manner in order to be able to exercise non-stationary control over the mobile radio station 1 in this way. In any case, the location of the mobile radio station 1 in one of the two radiation fields 25 and 30 is determined in the station 35 on the basis of the message transmitted by the mobile radio station 1 . If the message contains signals with the first coding, for example, the first radiation field 25 is determined in the station 35 as the location of the mobile radio station 1 . In the event that appropriate location information has already been derived in the mobile radio station 1 from the received signal with the first coding and sent to the station 35 as a message, the station 35 also determines the first radiation field 25 as the location of the mobile radio station 1 from this location information .

The same applies correspondingly to the reception of radio signals with the second coding in the mobile radio station 1 when staying in the second radiation field 30 .

Due to the different coding of the radio signals emitted via the first transmission antenna 15 and via the second transmission antenna 20 , in addition to the location of the mobile radio station 1 in one of the two radiation fields 25 and 30 of the radiation area 5, it is also possible for the mobile radio station 1 to move in the radiation area 5 of the base station 10 determine when the mobile radio station 1 changes the radiation field. In this case, differently coded signals are received in the mobile radio station 1 within a predetermined period of time. If the mobile radio station 1 moves from the first radiation field 25 into the second radiation field 30 , first radio signals with the first coding and then radio signals with the second coding are received. If, therefore, both radiation fields 25 and 30 are determined as a location for the mobile radio station 1 within the predetermined period of time in the station 35 , the station 35 detects a movement of the mobile radio station 1 in the radiation area 5 of the base station 10 during the predetermined period. In the example shown in the figure, this is a movement from the first radiation field 25 into the second radiation field 30 . If the times of arrival of the differently coded signals in the mobile radio station 1 are also detected and taken into account in the station 35 , the direction of movement of the mobile radio station 1 in the radiation area 5 of the base station 10 can also be determined. In the example shown in the figure, the station 35 first receives the message from the mobile radio station 1 about its presence in the first radiation field 25 and then a corresponding message about its presence in the second radiation field 30 . From this the station 35 can then derive the movement of the mobile radio station 1 from the first radiation field 25 into the second radiation field 30 . To check the direction of movement of the mobile radio station 1 , the determined direction of movement in the station 35 can be compared with a predetermined direction of movement. If the direction of movement of the mobile radio station 1 does not correspond to the specified direction of movement, the station 35 triggers an alarm.

The method can thus be used particularly advantageously in surveillance systems in which a guard is equipped with a mobile radio device 1 and, for example, takes a predetermined tour of a building to be guarded. Fixed stations 10 are installed on the doors or passages to be passed, so that in the station 35 , which can be housed in a security center, in addition to the location on one of the two sides of the corresponding passage, the direction in which the security guard can be controlled passed the corresponding passage. If this direction does not correspond to the specified direction, an alarm is triggered in station 35 . Should one of the two transmitting antennas 15 and 20 fail, there is still a limited possibility of determining the location of the mobile radio station 1 in the radiation field of the still intact transmitting antenna. However, direction of movement can no longer be determined in station 35 . This can then be used as an indication that an error has occurred in the monitoring system, so that it is possible in this way to control the functionality of the fixed stations 10 installed in the system. When using a plurality of base stations 10, for example in the monitoring system described, the codings of the radio signals to be emitted by the transmission antennas 15 and 20 differ not only from one another, but also between the individual base stations 10 . In this way, the location and direction of movement of the mobile radio station 1 can be clearly determined by the station 35 .

In a further exemplary embodiment, more than two transmission antennas can also be provided for the base station 10 , which likewise each emit differently coded radio signals in different directions in such a way that the radiation area 5 of the base station 10 is divided into corresponding radiation fields which do not significantly overlap. In this way, the location, movement and direction of movement of the mobile radio station 1 in the radiation area 5 of the base station 10 can be determined even more precisely.

Claims (6)

1. A method for determining the location of a mobile radio station ( 1 ) in the radiation area ( 5 ) at least one base station ( 10 ), characterized in that the base station ( 10 ) has at least two differently coded signals from an antenna ( 15 , 20 ) in each different directions are emitted, so that the radiation area ( 5 ) of the base station ( 10 ) is divided into corresponding radiation fields ( 25 , 30 ) that do not significantly overlap, depending on the location of the mobile radio station ( 1 ) in the radiation field ( 25 , 30 ) Antennas ( 15 , 20 ) the signal emitted by the corresponding antenna ( 15 , 20 ) is received by the mobile radio station ( 1 ), that depending on the coding of the received signal a message is forwarded to a preferably stationary station ( 35 ) and that the location of the mobile radio station ( 1 ) is determined in the station ( 35 ) as a function of the message. 2. The method according to claim 1, characterized in that the signal received in the mobile radio station ( 1 ) is forwarded to the station ( 35 ). 3. The method according to claim 1 or 2, characterized in that a movement of the mobile radio station ( 1 ) in the radiation area ( 5 ) of the base station ( 10 ) is determined if differently coded signals are received in the mobile radio station ( 1 ) within a predetermined period will. 4. The method according to claim 3, characterized in that the direction of movement of the mobile radio station ( 1 ) in the radiation area ( 5 ) of the base station ( 10 ) is determined as a function of the arrival of the differently coded signals in the mobile radio station ( 1 ). 5. The method according to claim 4, characterized in that when determining a direction of movement of the mobile radio station ( 1 ), which does not correspond to a predetermined direction of movement, the station ( 35 ) triggers an alarm. 6. base station ( 10 ) for transmitting location information in a radiation area ( 5 ), characterized in that at least two antennas ( 15 , 20 ) are provided which radiate radio signals in different directions so that the radiation area ( 5 ) of the base station ( 10 ) are divided into corresponding radiation fields ( 25 , 30 ) which do not significantly overlap, that the antennas ( 15 , 20 ) are connected to a code generating means ( 40 ) and that the code generating means ( 40 ) are connected to the antennas ( 15 , 20 ) Emits radio signals with different coding.