DE19809212A1 - Determining geographic position of receiver in geographic area - Google Patents

Abstract

The method involves using a GPS satellite navigation system which provides position data (GPD) and a reference system which provides correction data (GKV) for influencing the position data. The correction data from the reference system are introduced into a message (NA) in a mobile network (PLMN) serving the geographic area (GEOG) and transmitted via a radio interface to the receiver (EE). The position data transmitted from the GPS system and the correction data transmitted from the mobile radio network are evaluated by the receiver and position coordinates (GEOKO) are computed to define the position of the receiver in the geographic area.

Description

The invention relates to a method and an arrangement for Determination of the geographical position of one in a geogra phical area receiving device, as well as a receiving equipment suitable for carrying out the method tung.

The satellite-based GPS Navigati is well known onsystem (Global Positioning System), which a more or we nig accurate positioning of one in a geographical Area receiving device allows. Here position data are sent from several satellites and the location of the receiving device is determined. To increase the Accuracy of geographic location will be correct tur data provided by a reference system. There at can be the reference system from a common GPS system stand, preferably over several, in the geographical Reference GPS receiver located in the area. Their ex Actual location is known, so that with the help of GPS-Sy stem determined and received by the reference GPS receiver position data the correction data can be calculated nen.

With increasing distance between reference system and GPS-Sy There is a loss of accuracy in the position determination mung. In addition, there is an additional reception direction for those determined by the remote reference system Correction data required, for reasons of distance or because of shielding effects a safe reception of the cor rectification data by the additional receiving device not is guaranteed.

It is an object of the present invention, a method and to provide an arrangement by which one is possible accurate and safe position determination is achieved. About that is also a receiving device suitable for the method to specify.

This object is achieved according to the invention by a method with the features of claim 1 and an arrangement solved with the features of claim 7. The reception device for carrying out the method according to the invention is specified in claim 13. Further training of the Er can be found in the subclaims.

Based on a method or an arrangement for loading the geographical position of a receiving facility with the help of a GPS satellite navigation system for the Position data and a reference system for the correction data, according to the subject of the invention, the corrections tur data from the reference system in a message from the geo graphical area serving mobile radio network inserted and via a radio interface of the mobile network to the Emp transmission device. Then the GPS-Sa tellitennavigation system transmitted position data and the correction data transmitted by the mobile network from Receiving device evaluated and location coordinates for defi nition of the position of the receiving device in the geographical Area calculated.

Through an already existing, nationwide one and commercially used mobile network can transmit the correction data and the exact calculation of the location coordinates naten in the receiving device that both means for Emp catch the position data as well as means of receiving the cor rectification data, in a particularly simple and effortless manner and how to do it. Using a standardized Notification of the additional mobile used for the above purposes radio network, the correction data can be provided to the user at low cost  made available to the receiving device become. No one is required exclusively for the position determination additionally used components - e.g. B. receiving equipment tations - and no specifically introduced for this purpose transmission or radio technology. The cost savings are on On the part of the operator who provides a position determination service mung offers - by determining and disseminating the corrective turdaten - and on the side of the service user - by Be invoice and, if necessary, display / further processing in the Receiving device, for example its mobile station or Telematics facility.

For telematics applications, position determination according to the subject of the invention possible less than one meter. The maximum distance between GPS system and reference system - and thus also the part responsible for the geographical area of the mobile network - can also be defined be placed. Through continuous handover (hand over) with moving receiving device - preferably mobile station or telematics device - is with constant radio Cell size in the mobile network is consistently high Exactly guaranteed in position determination.

An application of the method according to the invention in telematics systems is particularly advantageous. These relate to for example fleet management (freight forwarders, dangerous goods trans port), tracking of selected objects (vehicles, containers) ner), emergency call and traffic management systems, behavioral research (Position determination in animals without expensive bearing), Personal protection (constant monitoring of the geographic where people are at risk, protection in the event of kidnapping).

It is particularly advantageous if the cor a short message service of the mobile network and the message with the corrections as broadcast message (with point-to-multipoint Connection) is sent to the geographical area.  

Alternatively, it has been found to be just as beneficial if a parcel data service (Ge general packet radio system) of the mobile network and the message with the correction data as a broadcast message (with point-to-multipoint connection) in the geographical ge bid is sent.

Both approaches have the advantage that on the one hand additional components or messages to transmit the Correction data and to calculate the location coordinates for the exact location determination is dispensed with, but on the other hand the secure, comprehensive and low-cost provision of the Additional data about services used in the mobile network is wrapped.

The receiving device - preferably a mobile station or Telematics device - to carry out the method according to the invention is with receiving means for the GPS satellite lit navigation system transmitted position data, with Em Catch agent for the corrections transmitted by the mobile network as well as with a processing unit for calculation of the location coordinates.

The invention is described below with reference to exemplary embodiments len explained with reference to figures. Show it in detail

Fig. 1 shows the block diagram of an arrangement according to the invention for determining the position using the short message service in the mobile network, and

Fig. 2 shows the block diagram of an arrangement according to the invention for determining the position using the packet data service in the mobile radio network.

. The block diagram of Figure 1 shows the facilities of a sa tellitengestützten navigation system GPS, a Referenzsy stems REF-GPS, one - for example according to the GSM standard (Global System for Mobile Communication) operating - mobile radio network PLMN receiving means and located in a geographical area GEOG EE. The receiving device EE - preferably in the form of a mobile station MS or a telematics device TE - is connected via a radio interface to a base station system BSS of the cellular network PLMN in order to receive data and information from the network and to send it to the network. In addition, data and information from the navigation system GPS, which preferably comprises several satellites, arrive via the air in the receiving device EE. The base station system usually has a plurality of base stations BTS1, BTS2 for supplying the radio cells of the cellular cellular network PLMN and at least one base station controller BSC connected to the base stations BTS1, BTS2, which performs radio-technical tasks and functions - such as radio resource management, radio channel management, connection processing and Security functions - takes over.

The REF-GPS reference system is attached to the BSS base station system connected, which preferably also a GPS navigation system and is a fixed GPS receiver for those of satellites data and information sent. The reference system stem REF-GPS also includes a central control unit direction GPSKR on the exact location of the GPS receiver knows, errors in the positions transmitted by the satellites ons data determined in a certain area, and from it Correction data GKV calculated. To determine the position ei An evaluation of the receiver on the earth's surface is sufficient the signals from a small number of satellites - e.g. B. from three or four satellites - which all information about ih Send current position. There is a GPS navigation system Usually designed so that at any time at any point  the earth receives the signals from six satellites simultaneously can be caught.

The central control device GPSKR, which the correction data GKV in the REF-GPS reference system is on the base station controller BSC turned on by her calculated correction data GKV in one of the mobile network Message NA used with PLMN and associated message format insert and with the help of the short message service SMS-CB (Short Message Service Cell Broadcast) automatically from the mobile radio network PLMN and their facilities to be transmitted. The message NA with the correction data GKV is from the for the relevant area GEOG responsible base stations BTS1, BTS2 as a broadcast message - like a point-to-multi point connection - transmitted in parallel. The central tax device GPSKR generates the message NA repeatedly, see above soon they are due again to a new set of correction data who has continuously calculated incoming data. The Cor GKV correction data is preferably from her as useful information embedded in the message NA.

The receiving device EE - übli located in the GEOG area Usually exists in multiple numbers - indicates a GPS receiver GPSE for those transmitted by the satellites Position data GPD and a GSM receiver GSME for that of the message NA transmitted to the base stations BTS1, BTS2 the correction data GKV. The GSM receiver GSME, because of the broadcast transmission does not need to be addressed, extracts the correction data GKV from the incoming one NA news. Both receivers GPS, GSME are with one Verar processing unit RE connected, the data GPD, GKV from the GPSE, GSME receivers available for further processing be put. Calculated using the GKV correction data the processing unit RE the exact location coordinates GEOKO to define the current position of the receiving device EE in the geographic area GEOG. Over one to the processors unit RE switched on display unit AE can  GEOKO location coordinates are displayed. As an alternative or an additional measure is the transfer of the local coordinates GEOKO - for example for external processing - by the receiving device EE via a to the processing unit RE connected interface SYS possible.

The block diagram according to FIG. 2 shows, based on FIG. 1, the same facilities of the satellite-based navigation system GPS, the reference system REF-GPS, which, for example, operates according to the GSM standard (Global System for Mobile Communication) and the cellular network PLMN and the receiving device EE located in the geographic area GEOG. The arrangement is supplemented by devices GGSN (Gateway GPRS Support Node) and SGSN (Serving GPRS Support Node), of which the device SGSN is arranged at the interface to the base station system BSS and the device GGSN at the interface to the reference system REF-GPS. This means that in the present example the device SGSN is connected to the base station controller BSC and the device GGSN is connected to the central control device GPSKR, which provides the correction data GKV in the reference system REF-GPS. The device GGSN can either belong to the switching system of the cellular network PLMN or effect access to it. Your task is the transmission of data packets in accordance with the packet data service GPRS (General Packet Radio System) in the cellular network PLMN.

As soon as the central control device GPSKR a new set of correction data GKV has calculated, it generates the after judge NA, binds the correction data GKV in this message and causes the message NA to be sent out with the on embedded correction data GKV via the facilities GGSN and SGSN according to the GPRS packet data service. This way the correction data GKV in the message NA to the base state tion system BSS and from there to the receiving device EE is currently in the GEOG area. The message is NA using the GPRS method as a broadcast message  transmitted by the base stations BTS1, BTS2. Any reception device EE, the receiver GPSE for the position data GPD and the recipient GSME for the message NA with the cor correction data GKV and the processing unit RE, determines the exact after processing and analysis of the data Location coordinates GEOKO, at which the receiving device EE is currently located. A display of the location coordinates GEOKO by the display means AE and / or further processing the location coordinates GEOKO at the SYS interface is given see.

Claims (13)

1. A method for determining the geographical position of a receiving device (EOG) located in a geographical area (GEOG) using a GPS satellite navigation system that delivers position data (GPD) and a reference system that provides correction data (GKV) for influencing the position data (GPD) delivers where

• - The correction data (GKV) from the reference system in a message (NA) of a geographic area (GEOG) serving mobile network (PLMN) inserted and transmitted via a radio interface of the mobile network (PLMN) to the receiving device (EE), and
• - The position data (GPD) transmitted by the GPS satellite navigation system and the correction data (GKV) transmitted by the mobile radio network (PLMN) are evaluated by the receiving device (EE) and location coordinates (GEOKO) for defining the position of the receiving device (EE) in the geographic area (GEOG) can be calculated.

2. The method according to claim 1, wherein a short message for the transmission of the correction data (SHI) service (SMS-CB) of the mobile network (PLMN) used and the Message (NA) with the correction data (GKV) as broadcast Message is sent to the geographic area (GEOG). 3. The method according to claim 1, wherein a parcel data service for the transmission of the correction data (SHI) (GPRS) of the mobile network and the message (NA) with the correction data (GKV) as a broadcast message in the geo graphic area (GEOG) is sent. 4. The method according to any one of the preceding claims, in which the location coordinates (GEOKO) from the receiving device (EE) displayed or for further processing at an interface (SYS) can be made available.   5. The method according to any one of the preceding claims, in which the receiving device (EE) is a mobile station (MS) which Means of reception (GPSE) for GPS satellite navigation system transmitted position data (GPD), receiving means (GSME) for the corrections transmitted by the cellular network (PLMN) tur data (SHI) and a processing unit (RE) for loading calculation of the local coordinates (GEOKO). 6. The method according to any one of claims 1 to 4, in which the receiving device (EE) a telematics device (TE) is the receiving means (GPSE) for those from the GPS satellite navigation system transmitted position data (GPD), Em pfangsmittel (GSME) for those from the cellular network (PLMN) corrective data (SHI) and a processing unit (RE) for calculating the location coordinates (GEOKO). 7. Arrangement for determining the geographical position of a receiving device (EOG) located in a geographical area (GEOG) using a GPS satellite navigation system that delivers position data (GPD), and a reference system that provides correction data (GKV) for influencing the position data (GPD) delivers, with

• Means (GPSKR) in the reference system for inserting the correction data (GKV) into a message (NA) of a mobile radio network (PLMN) serving the geographic area (GEOG),
• - Means (BSS) in the mobile radio network (PLMN) for sending the message (NA) with the correction data (GKV) via a radio interface of the mobile radio network (PLMN) to the receiving device (EE), and
• - Means (GPSE, GSME, RE) in the receiving device (EE) for evaluating the position data (GPD) transmitted by the GPS satellite navigation system and the correction data (GKV) transmitted by the mobile network (PLMN) and for calculating location coordinates (GEOKO) for definition the position of the receiving device (EE) in the geographical area (GEOG).

8. Arrangement according to claim 7, in which the means (GPSKR) for inserting the correction data (GKV) with a base station system (BSS) of the mobile radio network (PLMN) connected and for the transmission of the correction data (GKV) use a short message service (SMS-CB), in which the Ba sisstation system (BSS) the message (NA) with the correction data (GKV) as a broadcast message in the geographical ge offers (GEOG). 9. Arrangement according to claim 7, in which the means (GPSKR) for inserting the correction data (GKV) with at least one service facility (GGSN, SGSN) for use a packet data service (GPRS) in the cellular network (PLMN) ver are bound, and the service facility (GGSN, SGSN) to one Base station system (BSS) connected that the message (NA) with the correction data (GKV) as a broadcast message in sends out the geographic area (GEOG). 10. Arrangement according to one of claims 7 to 9, in which the receiving device (EE) receiving means (GPSE) for the positions transmitted by the GPS satellite navigation system data (GPD), receiving means (GSME) for those of the mobile network (PLMN) transmitted correction data (GKV) and a processing processing unit (RE) for calculating the location coordinates (GEOKO). 11. Arrangement according to one of claims 7 to 10, in which the receiving device (EE) is a mobile station (MS). 12. Arrangement according to one of claims 7 to 10, in which the receiving device (EE) a telematics device (TE) is. 13. receiving device (EE) for performing the method according to one of claims 1 to 6, with

• Receiving means (GPSE) for the position data (GPD) transmitted by the GPS satellite navigation system,
• - Receiving means (GSME) for the correction data (GKV) transmitted by the mobile radio network (PLMN) and
• - A processing unit (RE) for calculating the coordinates (GEOKO).