NL2000949C2 - Tracking system for moving objects, usually animals, especially migratory birds and in particular carrier pigeons. - Google Patents

Description

Tracking system for moving objects, usually animals, especially migratory birds and in particular carrier pigeons.

The present invention relates to tracking systems for moving objects, usually animals, especially migratory birds and in particular carrier pigeons. There is a strong need for systems in which the position of moving objects, usually animals, especially migratory birds and in particular carrier pigeons can be monitored remotely. Remotely monitoring the position of migratory birds is of great importance when one considers that migratory birds can spread bird flu, which is the case from time to time. If it is possible to determine the position of 10 migratory birds in time, the required measures can be taken before the migratory birds have arrived in certain countries, for example the rearing of animals.

Focused on the pigeon sport, it can be said that this sport has developed strongly in recent years, 15 continuously looking for a system to be able to follow the racing pigeons during their flight. The currently available tracking systems are unacceptable due to the high costs, large volume, weight and unreliable performance.

US patent application US 2007/0013526 A1 describes a system for locating a person, animal or movable object, in which use is made of GPS receivers.

A similar system is described in U.S. Pat. No. 7,123,153 B2, which also uses GPS receivers, particularly in animals in a herd such as sheep, where the weight of the device is not so critical.

Both systems use GPS receivers for positioning purposes. A disadvantage of such receivers is the high weight and the fact that the GPS signals come from satellites that are above the moving objects, so that the receiver must be placed on top of the birds, because GPS signals cannot move by water.

In both patent documents the tracking of migratory birds or racing pigeons is understandably not necessary because these GPS receivers would have to be mounted on the back in order to be able to receive the signals from the satellite, which is unacceptable with 2000949 '2 in particular in pigeon sport because of the negative influence on speed performance. Another disadvantage of GPS receivers is that they are relatively expensive and require a lot of energy.

Carrier pigeons, other than animals in a herd, are individual animals that must be followed during their flight.

It is an object of the invention to provide a tracking system which lacks the disadvantages of the known GPS-based systems.

To this end, the present invention provides a tracking system for moving objects, usually animals, especially migratory birds, in particular carrier pigeons, using an electronic object, the electronic object being provided with a radio transceiver operating in the GSM network, which electronic object the moving object is attached.

The GSM-based tracking system according to the present invention is in fact based on the well-known GSM telephones, which are electronic transceivers, provided with a display, keyboard, microphone and speaker and related electronics. GSM stands for Global System for Mobile communications and is the most common communication protocol in the world for mobile telephony. 82% of the market uses the GSM standard. This serves more than two billion customers in more than two hundred countries. GSM is a network of 25 cells around radio masts with which mobile phones that search for cells in their environment make contact. Most GSM networks operate on a frequency of 900 or 1800 MHz.

The present tracking system is particularly suitable for following the flight routes of carrier pigeons and migratory birds or the movement of other mobile objects.

The electronic tracking system according to the invention is easy and economical to use and works with a cheap, small and light transceiver, which is attached to, for example, the pigeon.

The present tracking system is capable of presenting the location data to the user digitally and graphically.

The electronic object is preferably ring-shaped and as such can easily be arranged around the leg of the bird to be followed.

The electronic object in the tracking system according to the invention is provided with a unique identification code, such as telephone number or registration number of the ring, the position of the ring and the time for which the position has been determined, which information is transmitted via a GSM network to a server can be passed.

It is noted that the server can be provided with an application that makes it possible to change setting parameters, including the communication interval, on the ring with a server administrator.

In the tracking system of the present invention, GPRS is used for data communication over the GSM network.

The determination of the position of, for example, a carrier pigeon takes place on the basis of GSM signals by means of "triangulation". An accurate location determination is hereby obtained.

As a source of energy for the electronic object in the tracking system according to the invention, a zinc-air battery is used, which can be easily clicked on or detached from the electronic object without further aids.

The electronic object can easily be switched on and off with the aid of a built-in RFID chip when it is activated by an RFID scanner.

It is advantageous if the electronic object in the tracking system according to the invention comprises a microprocessor with memories on which a certain amount of position data can be stored in order to be able to determine the route of the carrier pigeon.

For controlling the process in the electronic object, the microprocessor in the electronic object contains specially developed software.

To obtain an as light as possible electronic object so that the carrier pigeon is not hindered during the flight, use is made of chips which are connected to each other by "wafer-level packaging" method.

Surprisingly, it has been found that the electronic object according to the invention weighs less than 10 grams, so that, for example, the carrier pigeon is hardly weighted, whereby the speed of the birds is not or hardly influenced.

It is noted that GPRS is a way to send data via GSM in an efficient manner, whereby GPRS stands for General Packet Radio Service. GPRS makes it possible for multiple 4 users to use the space at the same time.

"Wafer-level packaging" is a method for storing multiple electronic components in a chip. This means that electronics can be integrated and very small in design and can be produced more efficiently. In general, chips are made from silicon, but recently also from hafnium. Lighter and smaller chips can be made by using hafnium.

The tracking system of the invention uses zinc air batteries, being battery types with a very high specific mass (quotient of energy content and mass) of approximately 400 Wh / kg. This is possible because oxygen is used as an oxidant. Duracell produces zinc-air batteries for use in hearing aids.

The present tracking system can display location data digitally and graphically, which is very beneficial.

It is noted that in various media (GazetteTi-mes.com 16-10-2005, Wired.com 12-09-2005, Mobilecowboys.nl 12-09-2005 and 19-10-2005, Oregonstate.edu) was published in 2005 20 about work by researchers at the University of Oregon to develop a very small GSM device (the size of a little finger and lighter than 3 grams) that is attached to the back of migratory birds and makes contact with GSM masts. On the basis of the contact moment and the location of the GSM mast, the position of the bird can be determined with an accuracy of a few miles. This accuracy is not sufficient for the racing pigeon sport to be able to make a reliable result. The system is also for single use only and is mounted on the back of the bird; both properties are not desirable in the pigeon sport.

The invention will now be explained in more detail with reference to Figures 1 and 2.

Figure 1 shows the functional components in the electronic object and Figure 2 shows a schematic representation of a system architecture.

In Figure 1, ring (1) represents a built-in radio electronics, which is in fact a mobile GSM telephone that has been stripped of unnecessary components such as screen, keyboard, microphone and loudspeaker in order to make the system as light as possible . This ring (1) contains a GSM transceiver (6), a microprocessor with memory (5), an energy source (2) with capacitor (3), a power controller (4), an antenna (7) and an RFID chip (8). A radiation shield (17) shields the GSM transceiver from the other components. The movement of the 5 rings, for example by the carrier pigeon, is followed by a central server (15). At pre-programmed intervals, the GSM transceiver (6) contacts the public GSM network (16). The GSM network (16) identifies the pigeon subscriber number (11). The position of the pigeon is accurately determined by means of "triangulation". Triangulation is possible if the pigeon (11) is within the range of at least 3 GSM masts (12). Position and identification are sent by the telecom service provider (13) via the internet (19) to the server (15). The pigeon holder or other user (14) of the system 15 (hereafter "the user") can log in via the internet, after which the server presents the information to which the user (14) is entitled, directly accessible and visually.

The ring (1) can be activated by the RFID chip (8). When the ringed pigeon (1) moves in the range of an RFID-20 scanner, the RFID chip (8) transmits time and identification to the scanner. At that time, the signal from the RFID chip (8) can activate the microprocessor (5) and turn the system "on" or "off" (18). An RFID chip is mandatory for racing pigeon races and scanned upon arrival.

The energy for the functioning of the electronics (4, 5, 6) in the ring is supplied by a zinc-air battery (2). A small, constant current from the battery (2) fills a capacitor (3). The capacitor (3) supplies a larger (peak) current to the electronic components in the ring (1) at the short moments that the ring is active and makes contact with the GSM network (16). The battery (2) is specially designed for the ring and the shape of the battery depends on the application. It is noted that the battery can be clicked on and off easily and without aids.

The power controller (4) is a separate chip that ensures that the various components are supplied with the correct current and voltage.

The microprocessor (5) controls the communication process in the ring. The microprocessor (5) activates the other components 40 at intervals pre-programmed by the user (14) and stores data.

6

The server administrator can set certain parameters, such as the communication interval. The data is sent via the GSM network (16) to the ring (1, 11) where the settings on and by the microprocessor (5) are changed.

It goes without saying that the invention is not limited to the system described above but extends to other similar systems.

Legend belonging to fig. 1:

Legend t> Signals ——— {> Wireless signals ** <> Energy flow 2000 949 '

Claims (13)

1. Tracking system for moving objects, usually animals, in particular migratory birds and in particular carrier pigeons, using an electronic object, characterized in that the electronic object is provided with a radio transceiver operating in the GSM network, which electronic object then the moving object is attached. 2. Tracking system according to claim 1, characterized in that the electronic object is annular and can be attached to the leg of the migratory bird, in particular the carrier pigeon. 3. Tracking system as claimed in claim 1 or 2, characterized in that the electronic object is provided with a unique identification code, such as telephone number or registration number of the ring, the position of the ring and the time for which the position has been determined, which information is transmitted via the GSM network can be transferred to a server. 4. Tracking system as claimed in claims 1-3, characterized in that the server comprises an application for changing setting parameters, including the communication interval, by the server administrator. Tracking system according to claims 1-4, characterized in that the data communication via the GSM network takes place via GPRS. 6. Tracking system according to claims 1-5, characterized in that the position determination takes place by means of "triangulation" on the basis of GSM signals. Tracking system according to claims 1-6, characterized in that the energy source is a zinc-air battery. 8. Tracking system according to claims 1-7, characterized in that the battery can be clicked on and clicked off on the electric object. 9. Tracking system as claimed in claims 1-8, characterized in that the electronic object can be switched on / off via a built-in RFID chip after activation with an RIFD scanner. A tracking system according to claims 1-9, characterized in that the system is provided with a microprocessor with memory for storing a certain amount of position data. 2000949 11. Tracking system as claimed in claims 1-10, characterized in that the electronic object is provided with specially developed software for controlling the process in the electronic object. 12. A tracking system as claimed in claims 1-11, characterized in that the chips in the electronic object are manufactured on the basis of hafnium, which chips are connected to each other by means of a "wafer-level packaging". 13. A tracking system as claimed in claims 1-12, characterized in that the electronic object weighs less than approximately 10 grams. 2000949