DE4306660A1 - System for locating and identifying vehicles on an airfield - Google Patents

Abstract

A so-called mobile radio system or trunking system which normally already exists on an airfield is used both for transmitting location data from the vehicle (5) to the central monitoring station (10) and for vehicle identification which is carried out automatically during each call set-up between the central monitoring station and the vehicle, the vehicles being located with the aid of passive location landmarks (guides, beacons) which have been set up at a multiplicity of different points of the airfield in the form of radio-frequency reflectors (1), preferably so-called acoustic surface-wave-ID-tags (SAW-ID-tags) which are interrogated by the passing vehicles with the aid of an interrogation device (11) and whose response signals (4) correspond to the coordinates of the location of the landmark. The invention is used for locating vehicles on airfields. <IMAGE>

Description

The invention relates to a system according to the Oberbe handle of claim 1.

In connection with the location and identification of driving witness on the movement surfaces of an airfield it is knows, related information by querying the driver witness control over the radio telephone from the side of the surveillance headquarters to acquire. Proposals known so far the following principles are used to locate the vehicle pielle procedures.

The vehicles are located using the satellite-based system GPS (Global Positioning System) or DGPS navigation system (differential GPS). The location information is then via a radio link to a monitoring center given. A second option is to set it up active radio beacon at the airport, the local area then mood in the vehicle and the location information via a radio link to a monitoring center be finished.

A third possibility is the pseudo-random Ab radiation of vehicle identity from the vehicle, the reception the signal by a multilateral receiving device and in a subsequent determination of the local information mation and identity in a surveillance center.

In the case of pseudo-random radiation of the vehicle identity from The vehicle can also be located using multiple direction finders take place, then determining the location information is also carried out in a monitoring center.  

The future need for improved vehicle tracking and -identification is explained by the requirements of Flugsi insurance, airlines and airport companies after effective control and monitoring of airport services with the aim of increasing capacity while maintaining the same security.

The invention is based, in this regard improved system for vehicle location and identification to create on airfields, but not worth mentioning Extends the existing infrastructure should have.

This task is carried out in a system according to the preamble of Claim 1 by the in the characterizing part of the patent solved 1 specified characteristics. Vehicle tracking and -Identification is thus done based on existing vehicle communication devices on airfields. As communication devices at airports are namely Mobile radio systems, mostly so-called trunked radio systems, be already spread worldwide.

The location and identification system according to the invention offers a number of advantages. Since it is passive Or beacon is not a power supply and therefore not a power supply additional wiring required at the airport. It there are also no disturbing emissions. The additional Chen radio field pollution due to the query activity, the larger only a transmission power of approx. 1 mW required can be neglected. Neither is created additional radio field exposure through the transmission of the Or tion data because there is already an existing communication direction is used. With each connection establishment between a vehicle and the monitoring center is running automatic vehicle identification. In contrast to the Proposals mentioned so far are playing Ab  shading does not matter because the passive location beacons everywhere can be easily attached, which is important for the termi nal and handling area of an airport. Changes and extensions of the beacon system are easy to carry out. The system for locating and identifying vehicles the invention can be implemented very inexpensively and is extremely robust and weatherproof, d. H. even when it’s raining, Snow and icing fully functional.

By using two independent systems at an airport, namely the system with the passive Or tion beacons for vehicle location according to the invention and a common ground surveillance radar for locating the Ge velvet traffic, can by correlating the location data of both Systems a reliable distinction between vehicle and Airplane destinations are done.

The system according to the invention for location and identification is in principle also applicable to aircraft in taxi traffic, but not opportune for two reasons. For one thing new location and navigation procedures for aircraft influence on their onboard equipment and require prior to introduction a mostly lengthy international standardization work. To the others intend to use existing on-board structures armor also for location and identification on the ground use.

Appropriate further developments of the system according to the invention are specified in the subclaims.

In connection with the use in the system according to the invention The trunked radio system is based on a contribution in time writing "Funkschau", Issue 3, 1992, pages 44-48 hinewie sen.

The invention with appropriately trained locating beacons explained below with reference to two figures. Show it:

Fig. 1 is an illustration of a device for locating vehicles,

Fig. 2 is an oblique view of a Hochfre frequency reflector used in the system according to the inven tion appropriately.

The location of the vehicles on the movement surfaces of a flight place in the system according to the invention takes place with the help of passi ver locating beacons located at various points of the airport are set up and by passing vehicles with the help be queried by an interrogation device. The answer of the Location beacon corresponds to the coordinates of the beacon location, thereby are not detailed coordinates, but numbers drawings used. Implementation of the beacon numbers in Beacon coordinates then take place in the monitoring center.

As shown in Fig. 1, be used as a passive locating beacons RF reflectors 1, the means in accordance with the holding devices at fixed facilities at the airport, for example. B. attached to buildings. The high-frequency reflectors 1 have an antenna 2 for receiving a pulse-shaped query signal 3 and sending out a response signal 4 in the form of a pulse-shaped code word, as well as an acoustic surface waveguide (ID tag) shown in detail in FIG. 2 for the implementation of the query signal 3 in the response signal 4 . The interrogation pulse 3 comes from a passing vehicle 5 , which has an interrogation device 11 and an antenna 6 for its transmission. The response signal 4 arrives via the antenna 6 in the interrogation device 11 and from there to a mobile radio or trunked radio terminal 7 which is also brought in the vehicle 5 . The transmission of the response signal 4 present in code word form of the high-frequency reflector 1 , which forms the passive locating beacon, from the vehicle 5 to a monitoring center 10 and the transmission of the vehicle identification, which is carried out automatically each time a connection is established between the monitoring center 10 and the vehicle 5 , via the mobile radio or trunked radio terminal 7 in the vehicle 5 and the antenna 8 connected to it . The monitoring center 10 also contains a mobile radio or trunk radio terminal. The radio transmission path is designated 9 .

An alternative arrangement 12 is that 13 high-frequency reflectors 14 with acoustic upper surface waveguide (SAW-ID tag) are embedded in the road surface 13 , which then cooperate with facilities mounted on the underside 15 of the interrogators 16 .

Fig. 2 shows an embodiment for the assembly is an oblique view of a radio frequency reflector 1, which serves as a passive Ortungsbake. The electromagnetic high-frequency pulse emitted by the interrogation device 11 (see FIG. 1) in the vehicle 5 , ie the interrogation signal 3 , is picked up by the antenna 2 of the high-frequency reflector 1 and triggers 17 surface acoustic waves (SAW) on an interdigital transducer 18 of a piezoelectric surface wave chip. out. These surface waves, which are about 10 ⁵ times slower than electromagnetic waves, are reflected on partial reflectors 19 , which - as with a bar code - are set on the acoustic route according to an individual code word, which then forms the response signal 4 . The high-frequency reflector 1 equipped with the surface-wave chip 17 thus responds after a short dead time to the interrogation pulse 3 with a binary high-frequency identification code that forms the response signal 4 , which is converted in the interdigital transducer 18 into electromagnetic high-frequency pulses and by the interrogator 11 is received again in the vehicle 5 and evaluated. The high-frequency reflectors 1 (SAW ID tags) work passively due to the piezoelectric substrate material, that is to say without a battery. At the ends of the surface acoustic wave chips 17 , acoustic absorbers 20 and 21 are provided.

Claims (9)

1. System for locating and identifying vehicles on the movement surfaces of an airfield by radio connection to a monitoring center, characterized in that for the radio connection between the vehicles and the monitoring center communication devices of an existing NEN or trunked radio system, ie a system for voice communication within the Airfield site with a single, managed by a computer-controlled organizational channel and assigned to the respective conversation partners, if necessary, used that these communication facilities are used twice, on the one hand for the transmission of location data from the vehicle to the monitoring center and on the other hand for each connection establishment between the control center and the vehicle automatically running vehicle identification, and that the location of the vehicles with the help of passive, at a variety of different places on the flight plate zeländes placed and / or in the pavement locating beacons is carried out, which are queried by passing vehicles with the help of an interrogation device and the answer corresponds to the coordinates of the respective beacon installation site. 2. System according to claim 1, characterized, that the coordinates representing the answers of the location baken number designations are the same, and that the implementation of these number designations in the respective bakenkoor in the monitoring center. 3. System according to claim 1 or 2, characterized, that the vehicles with simply trained follow-up navigation facilities are provided, and that the Ortungsbakenkoordi  naten as a base for these follow-up navigation devices to serve. 4. System according to one of the preceding claims, characterized, that high-frequency reflectors are provided as passive locating beacons hen are attached to corresponding holding devices are. 5. System according to one of claims 1 to 3, characterized, that high-frequency reflectors are provided as passive locating beacons are in the road surface of the airfield area are left with on the underside of the vehicle brought together interrogators. 6. System according to claim 4 or 5, characterized in that the high-frequency reflectors ( 1 ) an antenna ( 2 ) for receiving the query signal ( 3 ) and sending out the response signal ( 4 ) and an acoustic surface waveguide for the implementation of the query signal in have the response signal. 7. System according to claim 6, characterized in that each of the high-frequency reflectors ( 1 ) is designed as a structural unit (SAW ID tag) on which the antenna ( 2 ) and the surface waveguide designed as a chip ( 17 ) are arranged, and that the surface waveguide on the chip consists of an interdigital transducer ( 18 ), by means of which the high-frequency pulse ( 3 ) arriving from the antenna triggers acoustic surface waves (SAW), and barcode-like partial reflectors ( 19 ), which correspond to the acoustic route an individual response code word are set, and that on the interdigital transducer the reflected surface acoustic waves are converted into high-frequency signals that contain the response code word ( 4 ) and are sent back via the antenna to the interrogation device ( 11 ) of a vehicle ( 5 ). 8. System according to claim 7, characterized in that acoustic absorbers ( 20 , 21 ) are provided in the surface waveguide chips ( 17 ) at the ends. 9. System according to one of the preceding claims, marked by the connection with a common ground surveillance radarsy system for locating all traffic on an airfield and by correlating the location data of both systems, so that a distinction between vehicle and aircraft aiming is possible.