AT404763B - Device for detecting animals crossing a passage - Google Patents

Abstract

The invention relates to a device for detecting amphibians crossing a passage. The device firstly detects all small animals crossing this passage by means of a microwave transceiver 1 with the aid of the Doppler effect, and the warm blooded animals crossing the passage by means of an infrared transceiver 2. The number of all the animals and of the warm blooded animals is counted in counting devices 3, 4. The difference between the number of all the animals and the number of the warm blooded ones is used in an evaluation device 5 to determine the number of the amphibians and display it in a display device 8. The evaluating device 5 expediently comprises a selection circuit. <IMAGE>

Description

AT 404 763 B

The invention relates to a device for the detection of animals crossing a passage, using a microwave transmitter / receiver device which uses the Doppler effect and an infrared transmitter / receiver device.

In the spring, a large number of amphibians, such as frogs and toads, migrate to their spawning grounds on the banks of stagnant water, such as ponds, lakes, bogs or the like. Roads are often to be crossed and the vehicles kill a large number of amphibians. For this reason, where the amphibian hiking trails cross the streets, aids are installed that enable the amphibians to walk safely. These aids mostly consist of pipes with a diameter between 20 cm and 50 cm, which are embedded below the road.

The installation of such aids is of course costly and only makes sense if the number of amphibians crossing the street on their way to the spawning grounds is correspondingly large. It is therefore necessary to determine this number of amphibians before applying such aids.

The counting can, for example, be carried out by auxiliary staff. Such a procedure is not only very expensive, but also problematic when you consider that the migration time of the amphibians lasts only a few weeks a year and the animals are disturbed at night by unnatural light sources such as flashlights.

The present invention has for its object to provide a device of the type described in the introduction with which the animals crossing a passage, for example crossing a street, can be counted. In order to be able to clearly determine the effectiveness of the structures to be built, it is also necessary to differentiate between warm-blooded animals and amphibians when counting.

From US 5,196,826 A a device for the detection of people or animals passing through a passage has become known using a microwave transceiver which uses the double effect. In such a device, a high-frequency oscillator generates electromagnetic vibrations in the microwave range, which are emitted in a certain direction. As soon as an object moves in the radiation cone, the high-frequency vibrations are reflected, and the original signal undergoes a frequency shift due to the Doppler effect. The difference between the emitted frequency and the reflected frequency is detected in a receiving device and generates a signal by which an automatic gate opener is actuated in the known device. In order to avoid that when the person moving in the direction of the closed gate is at a standstill, the microwave transceiver is no longer effective and therefore the already opening gate is undesirably closed again before the person has passed this gate is directly in the gate area In this known device, an infrared transceiver is provided, the transmitter of which emits infrared rays which are detected by an opposite receiver. The presence of a person in the radiation area interrupts the infrared radiation and thereby also detects a person who is standing still. Counting of people or animals crossing a passage is not possible with this known device.

The present invention has for its object to provide a device with which the number of animals crossing a passage, etc. in particular the number of amphibians crossing this passage can be recorded. It should be noted that special detectors that only respond to amphibians are not known. To achieve this object, the invention proposes that for determining the number of amphibians crossing the passage, counting devices for determining the number of small animals detected by the transceiver and an evaluation device for determining the difference between the number of small animals detected by the microwave transceiver and the number of warm-blooded animals detected by the infrared transmission-receiving device is provided, the difference in number corresponds to the number of amphibians crossing the passage, and that at least one display device is arranged for the determined numbers of amphibians and possibly the warm-blooded animals and the entirety of small animals. It will thus mark the way in the device according to the invention that the total number of small animals is determined by means of the microwave transceiver, that the number of warm-blooded animals is determined by means of the infrared transceiver, which responds when the temperature of the detected animal is different from the ambient temperature, and that the number of amphibians crossing the passage is then determined from the difference between the total number of small animals and the number of warm-blooded animals. The devices required for this purpose are commercially available and functionally reliable, and the transceiver devices can also be mounted on the top of a channel, which has a positive effect with regard to contamination. The animals are neither negatively influenced by the electromagnetic waves emitted by the microwave transceiver, nor by the infrared waves. Furthermore, the sensitivity of the facilities is high, since 2

Claims (6)

AT 404 763 B the sensitivity range resembles a lobe, through which the detection range is completely covered. In addition, the devices used have a low energy requirement, which is important because there is usually no power connection in the field of application and therefore the device according to the invention by batteries must be fed. A simple subtraction of the numbers of all small animals and the number of warm-blooded animals can be carried out in the evaluation device. However, it is expedient if a logic circuit is provided as the evaluation device, to which the count values determined by the two transceiver devices are fed as input signals and whose output signal corresponding to the count value of the amphibians is fed to a counting device for determining the number of amphibians. This logic circuit decides whether the animal crossing the passage is an amphibian or not. Depending on this, an impulse arrives at the counting device, in which the count values for amphibians are thus recorded. In some cases it is desirable to be able to determine the number of all animals, as well as the warm-blooded animals and the amphibians at a glance. In order to find sufficiency with a single display device, the output signals of the counting devices are fed to a selection circuit in this case, which is connected upstream of the display device. This selection circuit can be used to select which values are displayed in the display device. A simply constructed and fail-safe display device is formed by a 7-segment driver. This has seven light segments, the arrangement of which corresponds to an eight. By arranging several connections, each segment can be controlled individually, so that any number can be represented by a corresponding control combination. The brightness of the segments is sufficient to be able to read the count even at dusk. Since the segments only have to light up during the time of reading, the display of the display device can be switched off according to the invention. This significantly reduces energy consumption and conserves the battery that is usually required. It has proven to be advantageous to arrange the transceiver devices separately from the other devices. This makes it possible to use the transceiver inside a channel, pipe or the like. to arrange, the other facilities, however, outside in an easily accessible place where the required space is available. The drawing shows a block diagram of the device according to the invention. 1 designates a microwave transceiver which detects all small animals crossing a passage using the Doppler effect, 2 designates an infrared transceiver which responds to different temperatures of the small animals crossing a passage and therefore detects the warm-blooded animals. The signals from the microwave transceiver 1 are fed to a counting device 3 for all animals and the signals from the infrared transceiver 2 to a counting device 4 for the warm-blooded animals. In addition, the signals of the microwave transceiver 1 and the infrared transceiver 2 are used as input signals of an evaluation device 5, etc. preferably a logic circuit, the output signals of which correspond to the number of amphibians. This number of amphibians is equivalent to the number of all animals minus the number of warm-blooded animals identified. The output signals of the evaluation device 5 are fed to a counting device 6 for determining the number of amphibians. The output signals of all counting devices 3, 4, 6 represent the input signals of a selection circuit 7, in which a selection is made, which count value is displayed, namely the count value for all small animals, the count value for the warm-blooded animals or the count value for the amphibians. The numbers determined are shown on the display of a display device 8, which is formed by a 7-segment driver. The display of this display device 8 can expediently be switched off in order to keep the energy consumption low. All devices are fed in the usual way from a power source, not shown, which is generally formed by a battery. The microwave transceiver 1 and the infrared transceiver 2 are arranged, for example, in a tube or channel that is passed by the small animals to be detected, whereas the other devices are provided outside of this tube or channel at a suitable, easily accessible location. 1. Device for the detection of animals crossing a passage using a Doppler effect utilizing microwave transceiver (1) and an infrared transmitter 3 AT 404 763 B catcher (2), characterized in that for determining the number of amphibians crossing the passage Counting devices (3, 4) for determining the number of small animals detected by the transceiver (1, 2) and an evaluation device (5) for determining the difference between the number of small animals detected by the microwave transceiver (1) and the number of small animals the infrared transceiver (2) detected warm-blooded animals are provided, which difference number corresponds to the number of amphibians crossing the passage, and that at least one display device (8) for the determined numbers of amphibians and possibly the warm-blooded animals and the entirety of the small animals is arranged. 2. Apparatus according to claim 1, characterized in that a logic circuit is provided as the evaluation device (7), to which the count values determined by the two transceiver devices (1, 2) are supplied as input signals and whose output signal corresponding to the count value of the amphibians of a further counting device ( 6) is fed to determine the number of amphibians. 3. Apparatus according to claim 1 or 2, characterized in that the output signals of the counting devices (1, 2, 6) are fed to a selection circuit (7) which is connected upstream of the display device (8). 4. Apparatus according to claim 1, 2 or 3, characterized in that the display device (8) is formed by a 7-segment driver. 5. Device according to one of claims 1 to 4, characterized in that the display of the display device (8) can be switched off. 6. Device according to one of claims 1 to 5, characterized in that the transceiver devices (1,2) are arranged separately from the other devices. Including 1 sheet of drawings 4