FI79641C - Method and apparatus for producing an error color image. - Google Patents

Description

! 79641

METHOD AND APPARATUS FOR PRODUCING FALSE COLOR IMAGE

The invention relates to a method for producing a false color image 5 according to the preamble of the independent claim. The invention also relates to a device applying the method for producing a false color image.

Semiconductor video cameras have a number of semiconductor detectors, usually silicon-based detectors, arranged in a line or matrix shape. In addition, these detectors 10 are generally connected as CCD detectors. Such CCD detectors are sensitive to both visible light and near-infrared rays, as shown in Figure 1. However, in conventional color video cameras, near-infrared radiation is prevented from entering the detectors by placing a filter that cuts off near-infrared radiation in front of the semiconductor detectors. Picture colors; blue, green, and red are separated by other filters connected in front of the individual detectors in the detector set. However, color-separating filters generally do not filter out near-infrared radiation, which is why the camera requires dual filters to function as a conventional video camera.

It is an object of the invention to provide a new method for producing false color images, which method uses video cameras known per se, most preferably with a number of semiconductor detectors, such as CCD detectors, whose wavelength sensitivity range extends to the near-infrared range. This is achieved by the features of the invention which are set out in the independent claims for the method and in claim 4 for the device.

Previous false color (i.e. color infrared) camcorders are based on tube cameras. The disadvantage of tubular cameras 35 compared to the invention is that they can be damaged by sudden strong light, break easily anyway, and are expensive. It is known that the 2 79641 wool false color video cameras are not equipped with shutters, as it is much more difficult to attach the shutter to a tubular camera than to a CCD camera. The invention is connected to a camera with a shutter, which is a prerequisite for most applications of the invention.

By means of the method and device according to the invention, it is possible to avoid the disadvantages of the above-mentioned false-imaging methods and to carry out the imaging in a considerably simpler manner. The invention will now be described in detail with reference to the accompanying drawings, in which: Figure 1 shows the sensitivity range of a CCD detector commonly used in semiconductor video cameras; Figure 2 schematically shows a device according to the invention for producing a vivid false color image.

In Fig. 2, the video camera 1 comprises a detector set 2 and optics 3 placed in front of it, by means of which an image is formed on the surface of the detector set 2. In front of the semiconductor detector array 2, only the filter 4 cutting the blue light 20 is placed. the wavelength is preferably 500 nm. In this case, only the near-infrared radiation of the blue light detectors B 'of the camcorder, the near-infrared and green light of the green light detectors G', and the near-infrared and red light of the red light * · 25 can be accessed by the red light * · 25. The output terminals B, G, R of the camera 1 or the corresponding detector unit then provide signals representing the respective radiation combinations, i.e. the signal representing the near-infrared-30 radiation intensity ir from the blue-light pole, i.e. the blue terminal B, the near-infrared radiation from the green terminal a and the green the sum signal ir + g representing the intensity and the sum signal ir + r representing the intensity of near-infrared radiation and red light from the red pole R, respectively.

35 Camera 1 is connected to subtractor 5. The color signals ir, ir + g, ir + r received through the camera output terminals B, G, R are applied to the subtractor input terminals Bla, Gla, 3 79641

Rla. In the subtractor 5, the signal containing near-infrared radiation and green light ir + g and the signal containing near-infrared radiation and red light ir + g are subtracted from the signal ir + g containing near-infrared radiation ir. Said processed signals ir, g, r are output from the output terminals B1b, 61b, R1b of the subtractor 5 in the corresponding order.

The signals ir, g, r obtained after the above reduction operation are processed to obtain the desired combined false color signal. This is most preferably implemented by a switch 6. The output terminals B2a, G2a, R2a of this are connected to the output terminals B1b, Glb, R1b of the reducer 5, respectively. The signals ir, g, r coming from the exchanger 5 are exchanged with each other so that the output terminals B2b, 62b, R2b of the exchanger 5 have the desired signals.

The above-mentioned signal processing in the changer 6 can be performed in two ways which produce a different-looking false color image.

First, after the subtraction measures, the order of the signals ir, g, r received from the output terminals B1b, Glb, R1b of the reducer 5 is changed in the exchanger 6 so that the signals g, r, ir are output from the output terminals B2b, G2b, R2b, respectively. That is, the green g, red r, and near-infrared ir signals are converted to blue b, green g, and red r signals, respectively, when comparing the color to the signal sequence in a normal video camera. This is similar to a traditional false color image.

30 Second, the false color image can be realized as follows. After the subtraction measures, the signals ir, g obtained from the terminals B1b, 61b of the subtractor 5 are converted into the corresponding output signals g, ir of the output terminals B2b and R2b of the exchanger 6, respectively. That is, the green 35 and near-infrared signals g, ir are converted to the blue and green signals b, g, respectively, while the red signal r is kept unchanged when compared to the color signal sequence in a normal video camera. In such a false color image, the plant cover is observed to be green, while in a traditional false color image it is observed to be reddish.

The exchanger 6 is connected to the connector 7. The output terminals B2b, G2b, R2b of the exchanger 6 are connected to the input terminals B3a, G3a, R3a of the connector, respectively. The desired combined standard video signal s is obtained from the output S of the connector 7, which can be fed, for example, to a monitor 10 or a suitable image recording device.

The invention has been described above mainly with reference to one preferred embodiment thereof, but it is clear that the invention can be modified in many ways within the scope of the inventive idea defined by the appended claims.

Claims (4)

79641 A method for generating a false color image, the method utilizing a video camera, preferably having a plurality of semiconductor detectors, such as CCD detectors, having a wavelength sensitivity range in the near-infrared range, and placing a high-pass filter in front of the semiconductor detectors, characterized in that - semiconductor air (2) a high-pass filter (4) specifically cutting the blue light is placed in front so that only the near-infrared radiation, the green light detectors (G1) and the near-infrared radiation and the green light (R) can be detected in the blue light detectors (B1). ') both near-infrared radiation and red light, thereby obtaining signals (ir, ir + g, ir + r) representing the respective radiation combinations from the output terminals (B, G, R) of the camera (1) or the like; - the signal representing the intensity of the near-infrared radiation and the intensity of the green light from the camera (1) - (ir + g) and the signal representing the intensity of the near-infrared radiation and the red light (ir + r) are subtracted from the signal representing the intensity of the near-infrared radiation (ir + r), then the output signals indicate the intensities of green and red light (g, r) and the intensity of near-infrared radiation (ir), respectively; - changing the order of the signals (g, r, ir) to obtain the desired combined false color signal. Method according to Claim 1, characterized in that the signals (ir) representing the intensity of green light, red light (R) and near-infrared radiation obtained after the reduction operation are converted into blue (b), green (g) and red (r) signals, respectively. when compared to a signal sequence in a normal video camera and combined into a desired standard format video signal. The method of claim 1. 79641 o characterized in that the signals representing the intensities of green light (g) and near-infrared radiation (ir) obtained after the subtraction measures are converted into blue and green (g) signals, respectively, while the signal representing red light is kept unchanged when compared to the signal sequence in normal a video camera. 4. An apparatus for generating a false color image, the apparatus comprising a video camera and a high-pass filter, wherein the video camera 10 preferably has a plurality of semiconductor detectors, such as CCD detectors, and the high-pass filter is placed in front of the semiconductor detector array, characterized by a high-pass filter 15. a reducer (5), to the input terminals (Bla, Gla Rla) of which the color signals (ir, ir + g, ir + r) obtained from the output terminals (B, G, R) of the camera detectors (2) are applied and in which near-infrared radiation and green from the light-containing signal (ir + g) and the near-infrared radiation and the red-light signal (ir + r) is subtracted from the near-infrared radiation signal (ir), and from the outputs (Blb, Glb, Rlb) of the reducer the actual! the processed signals (ir, g, r) are output; - a switch (6), to the input terminals (B2a, G2a, R2a) of which the output terminals (Bla, Gla, Rla) of the reducer (5) are connected and by means of which the incoming signals (ir, g, r) are exchanged so as to that the output terminals (B2b, G2b, R2b) of the exchanger (4) have the desired signals (g, r, ir; g, ir, r); - a connector (7), the input terminals (B3a, G3a, R3a) of which are connected to the output terminals (B2b, G2b, R2b) of the exchanger (6), and the output (S) of which provides a standard video signal (s) connected to the desired one. 7 79641