WO2001018765A2 - Positioning system and method for determining a position - Google Patents

Abstract

The invention relates to a positioning system and a method for determining the position of moving objects and persons using a GSM network, whereby: a) a GSM mobile radio unit is used to determine available stations and stationary (GSM) radio stations in the receiving point, the cell data thereof and the Ta-values being determined at least three times, b) Ta values are compared with each other to check reproducibility and are rejected when a tolerance threshold is exceeded, c) Ta values, which lie within the tolerance threshold, and their cell values representing position information data for updating a reference databank are fed to an evaluation and processing unit; d) and/or using the evaluation and processing unit of the reference data updateable position data is converted into position coordinates of the GSM mobile radio unit and applied.

Description

Location system and location determination method

The invention relates to a location system and a method for determining the location of movable goods and people using a GSM network.

Location systems and methods are known in which the position of one or more satellites is aimed by means of GPS and the position position is calculated from the data. On the one hand, this enables a very precise location position to be determined, on the other hand, GPS requires a relatively high cost and energy expenditure. GSM systems are also known, but too imprecise.

DE 38 37 633 AI contains a location and navigation system for mobile radio stations, in which location information is formed from mobile fixed radio stations, which corresponds to the approximate location of the radio mobile stations. The system has the disadvantage that only the individual base station number and possibly also field strength information of the fixed radio stations are used and further processed to determine the position.

DE 37 16 320 AI contains a method for determining the approximate location of a mobile radio station for the C network. The base station number of the base station in question is evaluated and stored in the voice network as location information and forwarded to a central evaluation point for evaluation. The method according to DE 37 16 320 AI is not suitable for GSM.

DE 196 51 110 AI describes a USSD positioning. A location information display device identifies a cell identifier of a cell within which the mobile station moves in the digital cellular communication network. The mobile station outputs the cell identifier via the device for unstructured additional service data. However, cell labeling of a cell alone only provides an unsharp position of the mobile station. Furthermore, not all GSM mobile stations support USSD. DE 195 28 616 AI describes a method for radio location of a mobile station and an arrangement for carrying out the method. In this case, a direction finder is set up in each GSM cell in which location is to be carried out, preferably in the vicinity of each base station. For a wide range of applications, this requires an enormous amount of additional technical work and is not relevant in practice.

DE 197 21 504 C1 relates to a method and a device for determining position, in which the position of the mobile station is calculated from the distances between the mobile station and the base stations and the information is made available at least at the mobile station for display. The mobile station contains a device for calculating its position from the distances to the base stations and GPS receivers in the base stations for determining the position. According to DE 197 21 504 Cl, the current specification of the location coordinates with GPS is particularly advantageous for location-variable base stations, for example special events. This solution is not required for fixed base stations since the location of the base station is known. The calculation with the parameters mentioned here is too

There is still a great need for facilities for determining the location of moving goods or people. No technical mass application is known because the calculations are either too imprecise, technical retrofits are necessary or the subsequent integration is too complex.

The object of the invention is therefore to provide a method and location system for determining the location of moving goods or people without additional technical effort and using existing GSM standards.

According to the invention, the object is achieved by a method using a GSM network, in which a) by means of a GSM mobile radio unit from all stationary, stationary (GSM) radio stations available at the receiving location, whose cell data and the Ta value are determined at least three times

b) the Ta values are compared with one another, checked for repeatability and rejected if a tolerance limit is exceeded,

c) the Ta values, which are within the tolerance limit, and whose cell values are supplied as location information data for updating a reference database to an evaluation and processing device

d) and / or by means of the evaluation and processing device reference database are converted from updatable location data into location coordinates of the GSM mobile radio unit and brought to the application.

The system according to the invention uses the infrastructure of radio and mobile radio telephone systems which is already available across a wide area and is known as GSM (= D / E network) systems. In particular, the digital mobile radio system designated with GSM is particularly suitable for the intended application because it already has its own data channels or standardized protocol data (GSM 03/71) for the transmission of data.

The GSM network consists of permanently installed transmitting and receiving stations that communicate with each other using directional radio. These transmitting and receiving stations are called cells in the telecommunications area. Each of these cells covers a geographical area and is characterized by specific cell data, such as cell identification (Ci) and a local code (La). In cell phone traffic, the cell phone units establish radio communication with the respective accessible cell and establish the telephone connection to the receiver via this network. The timing advance value (Ta) is determined in the base station and transmitted to the mobile station. The method according to the invention uses the cell information of the permanently installed transmitting and receiving stations, the Ta value and an updatable reference database in order to determine the location of a GSM mobile radio unit with high accuracy for an application.

For this purpose, the Ta value is determined at least three times from all stationary (GSM) radio stations available at the receiving location. The Ta values of a base station are compared with one another, checked for repeatability and rejected if a tolerance limit is exceeded. The Ta values of the fixed radio stations that are within the tolerance limit are processed further. As a result, a significantly better location determination is achieved in the first step.

The values determined in this way (location information) are either sent as SMS or as data information in the data transmission channel or via the standardized protocol data channel, e.g. B. LCS standard GSM 03.71 (Location Services) or via WTAI within WAP to an external evaluation unit, e.g. B. LOC server (Location Server) where the application is executed

or evaluated directly in the cell phone,

or via an interface, e.g. B. (IRData, V.24 or master bus (data bus of the processor) to a connected evaluation and processing unit for evaluation.

The evaluation and processing device receives the location information data, uses it to update a reference database and / or converts it from updatable location data by means of the reference database

Location coordinates of the GSM mobile radio unit and if necessary brings them to the application with temporary storage. Starting from a reference database, the received location information data are used for the update, in that the actual value is corrected to an expected value by plausibility control, preferably on the basis of movement parameters (e.g. direction, speed) and recorded in the database. Fixed measurement errors are thus compensated for.

In order to achieve the highest possible accuracy of the position of the GSM mobile radio unit, it is necessary to carry out a plausibility check of the data. The inaccuracy results from the relatively fuzzy Ta value measurements at the receiving location, since specific reflections of the transmit / receive signal and / or jitter of the signal due to radio interference mean that the values are not always clear or stable. With the help of software that can be learned (e.g. fuzzy logic, neural network, etc.), a permanent correction function can be started based on a commercially available basic reference database (e.g. digital city map, etc.). For this, a z. B. Motorists with a GSM mobile radio unit activated for position determination are tracked over a certain period of time and thus their direction and speed are calculated and correlated with the plausible movement on the reference database and corrected if necessary. Moves z. B. the activated and observed GSM mobile radio unit at a speed of approx. 40 km / h in one direction, it can be assumed that it is a driver or the like that moves on the road. The actual value that is closest to the target value (here the street) can now be defined as a new target value for the reference database, taking into account repetition accuracy, averaging and taking into account distinctive points (curves, street corners, etc.).

In addition to the location information data, identification data of the GSM mobile radio unit or status data such as battery capacity, temperature etc. can also be recorded and transmitted. According to the invention, the location system using a GSM network consists of at least one GSM mobile radio unit and an evaluation and processing device.

The GSM mobile radio unit is suitable for reading out the location information data that can be mapped from a radio connection with the GSM network, for selecting them if necessary, and for forwarding them to the evaluation and processing device. The GSM mobile radio unit consists at least of parts of a radio or mobile radio device which enable data transmission. In a standardized embodiment of the invention, the GSM mobile radio unit contains all the elements necessary for recording and selecting the location information data. In one embodiment of the invention, the microprocessor of the GSM mobile radio unit via an interface, for. B. (IRData, V.24 or MasterBus (data bus of the processor) connected to an evaluation and processing device.

The GSM mobile radio unit is connected to the person or the movable good whose position is to be determined.

The evaluation and processing device is suitable for exchanging data with the GSM mobile radio unit and for data received from the GSM mobile radio unit in connection with movement parameters (ie tracking the position of the GSM mobile radio unit, updating the reference database and / or using the reference database from updatable location data in location coordinates of the Convert GSM mobile unit and bring it to the application.

In one embodiment of the invention, the evaluation and processing unit is separated from the GSM mobile radio unit and, for this purpose, has a GSM reception unit for establishing a radio connection with the GSM mobile radio unit.

In a further embodiment of the invention, the evaluation and processing unit is integrated in the GSM network; the LOC server (location server), which according to the GSM standard 03/71 is already used by some, is particularly suitable for this Network operators exist. This has the option of exchanging information with all GSM base stations and has the design of a powerful computer.

A mobile radio telephone device, a so-called cell phone, can advantageously be used for the method according to the invention and the location system. The necessary additions can be integrated into this cell phone. Furthermore, it is possible to use this part with the z. For example, to connect parts permanently installed in a vehicle via a data interface. In the vehicles themselves, the installation spaces and antenna locations provided by the vehicle manufacturers for mobile radio can be used.

If no mobile phone is required, the parts required for voice transmission can be omitted.

In one embodiment of the invention, the microcontroller unit (MCU) of the GSM mobile radio unit is switched so that it can be programmed and configured when it comes into contact with the evaluation and processing device.

Using the method according to the invention, position determination with an accuracy of up to 2 m is possible within well-developed GSM networks without a satellite. Locating is not only possible outdoors, but everywhere where a GSM network is available, i.e. also in warehouses, parking garages, etc. The position determination can advantageously also be achieved by pure control and is therefore independent of the actuation of the GSM mobile radio unit.

The locations of several GSM mobile radio units can be determined by means of the method according to the invention. For this purpose, the respective identification data of the GSM mobile radio unit are used and exchanged with the evaluation and processing unit.

Depending on requirements, the location data can be actively transmitted or transmitted by the GSM mobile radio unit at fixed times or in freely selectable time periods o be called up passively. This also makes it possible to determine the location and location of the mobile radio unit.

By coupling the GSM mobile radio unit with suitable sensors, other information can also be acquired and transmitted. For this purpose, the GSM mobile unit is switched and programmed in such a way that it can receive and evaluate configuration data from the receiving end.

Exemplary embodiments of the invention are explained in more detail with reference to the attached drawings. Show:

Fig. 1 block diagram GSM mobile radio unit with connected evaluation and

Processing unit Fig. 2 Block diagram of an evaluation and processing unit

Fig. 3 application for a swap body

Fig. 4 block diagram expanded mobile phone

Fig. 5 block diagram mobile phone with integrated evaluation and

processing unit

1 shows a block diagram of a GSM mobile radio unit in the form of a so-called “cell phone” (portable part of the mobile radio telephone device, here a Siemens M20 device) with which communication can take place via GSM. Via the interface for data and fax communication (V. 24, MAX 232) is a microcontroller unit consisting of a microcontroller (MCU (AT 89C55, ATMEL)) with assigned fixed program memory (ROM), dynamic memory (RAM (64Kx8, 6424-100)) and real-time clock (RTC (PCF8583, Phillips) ) connected to the microprocessor of the mobile phone and integrated in the housing of the mobile phone. The voltage regulator supplies the circuits with the necessary operating voltage. Via the interface for data and fax communication, the microcontroller unit (MCU) communicates with the microprocessor of the mobile phone and can provide information such as data query a cell and its Ta value of the GSM network. Fig. 2 shows a block diagram of a possible embodiment of an evaluation and processing device, the z. B. is supplied with data via a GSM radio link, or corresponds to the LOC server in a standard GSM network. The evaluation and processing device consists of a GSM receiving unit, a cell phone including SIM card, a navigation computer (PC) and a storage device (DB) with fixed data of the GSM network and the corresponding GSM mobile radio units. The evaluation and

An input and output device is assigned to the processing device. The process can also be run in a LOC server.

1 and 2 works as follows:

When a radio connection is established between the GSM mobile radio unit and the GSM network, the microcontroller unit (MCU) reads the location information data of the cell with which there is radio contact via the microprocessor of the GSM mobile radio unit and stores it until it is transferred to the evaluation and processing device. The Ta values are evaluated either in the MCU or in the evaluation and processing device. H. At least 3 values are determined, checked for repeatability and discarded if tolerance values are exceeded. These values filtered in this way can then be passed on for updating the reference database and for referencing.

The GSM receiving unit accepts the evaluated or unrated location information data and forwards them to the navigation computer (PC) or LOC server for processing. Using this, the received location information data are used for updating, starting from a reference database, in that the actual value is corrected to an expected value by plausibility control, preferably based on movement parameters (e.g. direction, speed) and recorded in the database. Then the Direction of movement and the speed of the GSM mobile radio unit tracked, compared for plausibility and, if necessary, updated the reference database. Then they can be converted into standard coordinates

The location coordinates can be stored temporarily or given immediately to the output device or to the application.

3 shows a further exemplary embodiment with a GSM mobile radio unit connected to an interchangeable container for trucks. The GSM mobile radio unit is constructed analogously to FIG. 1. An extension of the control program is stored in the ROM of the microprocessor unit (MCU) in such a way that the GSM mobile radio unit switches on at fixed times and the data exchanged with the cell that can be exchanged when the mobile radio telephone is switched on is temporarily stored or transmitted to the evaluation and processing unit. The swap body has a unique identifier, which is stored in the RAM of the GSM modem and can be called up by the evaluation and processing unit. The swap body can be transported by different trucks.

When a radio connection is established between the GSM mobile radio unit of the swap body and the GSM network, the microprocessor unit (MCU) reads out the data Ci, La and Ta of the cell with which there is radio contact, evaluates it according to the already described 1st step and saves it in RAM until transmission to an evaluation and processing device, as shown in FIG. 2. When the cell data is transmitted, the identification number of the swap body is also transmitted to the evaluation and processing device. The identification number is recorded on the receiving side and linked to the phone number of the GSM modem. The GSM receiving unit takes over the cell data and the identification number and forwards this data to the navigation computer (PC) for processing. Using a navigation computer (PC)

Reference database updated if necessary and the referencing takes place Location information data in a global coordinate system and the determination of the location coordinates. The location coordinates can be temporarily stored or given to the output device immediately. The link with the identification number enables an exact assignment of the searched object and its tracing or location determination is possible.

If it is desired at a certain point in time to know where the swap body is at the moment (regardless of the time message), the evaluation and processing device establishes a radio connection to the GSM mobile radio unit and the GSM mobile radio unit for query and transmission the line and identification data causes.

By coupling the GSM mobile radio unit with suitable sensors, other information can also be recorded and transmitted, e.g. B.

battery capacity

Opening the tail lift / gates

Temperature inside and outside

Brightness inside and outside the relative humidity

volume utilization

For this purpose, the GSM mobile unit is switched and programmed in such a way that it can receive and evaluate configuration data from the receiving end. The configuration parameters are saved in RAM. If, for example, an hourly location determination is desired, the mobile unit waits 1 hour and then starts the evaluation of the GSM network information. This and any other (temperature, sensors) information is then packed into an SMS message and sent to the control center. The process is then repeated according to the specified time interval. If the GSM mobile radio unit receives the request to report immediately, the information is queried and sent immediately.

4 shows a further exemplary embodiment for locating people. One person is equipped with a portable mobile phone. The microprocessor is connected via an interface to another microcontroller unit (MCU) with RAM, ROM and RTC. A program extension is stored in the RAM of the MCU, which causes the cell data to be recorded and exchanged with the emergency control center when the mobile phone's emergency signal is activated. For this purpose, the emergency control center has an evaluation and processing device according to FIG. 2. The emergency call center is thus able to locate the person making the emergency call.

FIG. 5 shows a further exemplary embodiment for determining the position for a person equipped with a mobile radio telephone. For this purpose, a reference database of coordinates of the GSM network is stored in the ROM and the microprocessor unit of the mobile radio telephone is configured so that the location information data exchanged with the GSM network when the radio is recorded, the Ta value evaluation (1st step of increasing the accuracy) and the update of the Reference database is carried out by a plausibility check and used to reference the location information data in a global coordinate system and determine the location coordinates. The location data can be stored temporarily or output immediately on the LCD.

Claims

claims 1. Procedure for determining the location of moving goods or people using a GSM network, in which a) by means of a GSM mobile radio unit from all stationary, fixed (GSM) radio stations available at the receiving location, whose cell data and the Ta value are determined at least three times b) the Ta values are compared with one another, checked for repeatability and rejected if a tolerance limit is exceeded, c) the Ta values, which are within the tolerance limit, and whose cell values are supplied as location information data for updating a reference database to an evaluation and processing device d) and / or by means of the evaluation and processing device of the reference database from updatable location data into location coordinates of the GSM mobile radio unit and converted to the application. 2. The method according to claim 1, characterized in that the data Ci, La and Ta are determined. 3. The method according to claim 1, characterized in that the data determined according to process step a is evaluated directly by the GSM mobile radio unit or via an interface, for. B. (IRData, V.24 or master bus) to a connected evaluation and processing unit. 4. The method according to any one of claims 1 to 3, characterized in that the data determined after process step a) or the location information data to an external evaluation and processing device be transmitted by wireless or wired data transmission or to an internal evaluation and processing device in the GSM mobile radio unit, if necessary with intermediate storage. 5. The method according to claim 1 and 4, characterized in that the data determined according to method step a) or the location information data either as SMS or as data information in the data transmission channel or via a standardized protocol data channel, preferably LCS standard GSM 03.71 (Location Services)) or via WTAI can be routed within WAP to an external evaluation and processing unit, preferably LOC server (location server), where the application is executed. 6. The method according to any one of claims 1 to 5, characterized in that in addition to the data determined according to method step a) or the location information data, identification data of the GSM mobile radio unit or status data are also recorded and transmitted. 7. Location system for determining the location of moving goods or people using a GSM network consisting of from at least one GSM mobile radio unit and an evaluation and processing device with a navigation computer (PC) or LOC server with storage device for GSM network data (DB), at least one GSM mobile radio unit and at least one evaluation and processing device, the GSM mobile radio unit being suitable for reading out the location information data which can be called up from a radio link with the GSM network, for selecting them if necessary and for forwarding them to the evaluation and processing device, and wherein the evaluation and processing device is suitable for exchanging data with the GSM mobile radio unit and updating data received from the GSM mobile radio unit in connection with movement parameters and / or using the data reference bank to convert from updatable location data into location coordinates of the GSM mobile radio unit and to bring to the application. 8. Location system according to claim 7, characterized in that the GSM mobile radio unit consists of a data transmission enabling parts of a radio or mobile radio telephone device and is connected to the person or the movable good, the position of which is to be determined. 9. Location system according to claim 7 or 8, characterized in that the microprocessor of the GSM mobile radio unit via an interface for fax and data communication (e.g. V.24) or another interface (e.g. IRData or MasterBus , which corresponds to the data bus of the microprocessor) is connected to a further microcontroller unit (MCU). 10. Location system according to claim 8 or 9, characterized in that the microprocessor of the GSM mobile radio unit or the further microcontroller unit (MCU) are switched so that the GSM mobile radio unit is programmable and configurable in radio contact with the evaluation and processing device. 11. Location system according to claim 7, characterized in that the evaluation and processing unit is separated from the GSM mobile radio unit and has a GSM receiving unit for establishing a radio connection with the GSM mobile radio unit.