DE2633125A1 - Colour density measurement of chromatograms - using opto-electric conversion and line-by-line resolution of video signal (HU 28.12.76) - Google Patents

Abstract

The colour density of an image is measured by first converting the image into an electrical video signal. This is then resolved line-by-line; each line sampled and its signal level compared with standards. By digital conversion the signal level at each point (which is proportional to, the colour density) is counted up, displayed and printed. Used for the quantitative analysis of chromatograms, elphograms, autoradiogrames, photographic reproductions or copies. The analysis method is much more rapidly than the time-consuming use of densitometers.

Description

Method and device for measuring discoloration

The invention relates to a method and an automatic device for the quantitative evaluation, especially of chromatograms, elphograms, autoradiograms or slides and photographs of the same.

The determination of a discoloration proportional to the amount of material is used -given great importance in practice. gaping and I) layer chromatography or the evaluation of the earomatograms obtained in the course of electrophoresis and Electrophoreograms are based on this principle. There are methods and devices known, which are based on the measurement of the intensity of the light that passes through a plate exposed to visible or ultraviolet light passes or where the intensity of the reflected light is measured. When x-raying the As with the measurement of the reflected light, the lighting is plates possible with a point-like light; For the quantitative evaluation of the chromatograms a densitometer is usually used. The disadvantage of the densiometer is there that the test can only be carried out slowly.

On a chromatogram, elphogram, autoradiograph, gel electrophoreogram is the degree of discoloration of the stains in relation to the amount of matter excreted there proportional. Within the stain, the fabric shows a normal distribution - bell curve -, with the stain getting darker and darker from the edge inwards.

For example, in protein structure research, the number required is Amino acid analyzes to elucidate the perfect amino acid sequence in a Normal molecular weight protein about three bits four thousand. Likewise are numerous tests in plant grafting research, in the elaboration to carry out a single plant genus, especially if the aim is plant grafting the achievement of a high protein content or a certain lysine methionine content is.

In addition, amino acid analysis, for example, is useful in clinical practice a serial examination character. The evaluation of the numerous measurement results with the known methods and devices is quite expensive and stressful much time.

The invention is based on the object, on the one hand, on the disadvantages to eliminate the known solutions and on the other hand a method and an apparatus to create, with the help of which also mass examinations in a short time and can be valued at a relatively low cost.

The object set is achieved according to the invention in that in Automatic evaluation of chromatograms, Elpho gray, autoradiograms, Gel electrophoreograms the sample with visible, ultraviolet, or infrared Light beam illuminated or transilluminated and the image on the signal plate of the opto-electrical converter is mapped. The one that appears on the signal plate Image is resolved in lines and scanned with the electron beam and the density of the discolored areas are converted into video signals. The video signal becomes ever Line a sample is taken in front of the specific point to be measured, after which the Signal level corresponding to the density of the sampling point until the next sampling is saved.

The signal range between the stored level - as the upper level - and the black level - as the lower level - is divided into levels. With stains with low density the lower level can be increased above the black level, whereby the resolving power of the device is improved.

After the examination has started, the video signal will be displayed as the first image with the first level, when running the second image with the second Level, etc. compared. As long as the voltage of the video signal has the given level falls below, we can count pulses of constant frequency; the frequency of the Pulses is the product of the line frequency and the number of generating the image Lines the same. After the comparison had also taken place with the last level, becomes the amount of substance present on the evaluated area of the tested sample proportional sum of the impulses determined.

The device according to the invention contains a camera, a sampling storage circuit, a comparator, a chain circuit, a composite gate circuit, an oscillator, a counter, a monitor, a display unit and one too arithmetic operations exiting line printer; the device is also with a unit for determining the sampling position and the image section as well as provided with a level advancement unit.

The video signal output of the camera closes the sampling input the obeentnahmespeicher circuit, one input of the comparator and the monitor at. The output of the sampling storage circuit is the analog input of the Chain connection, the output of the chain connection to the other input of the comparator connected. The image synchronous output of the camera closes the one input the unit for determining the sampling point and the image section and the input of the level advancement unit. The outputs of the level control unit are connected to the control inputs of the derailleur. The line sync output the camera is at the other entrance of the unit for determining the sampling position and of the image section switched on. The first output of the unit for determination the sampling position and the image section is the first input of the gate circuit connected, the second output closes to the monitor and the third output the control input of the sampling storage circuit. At the second entrance of the gate circuit is the output of the comparator and at the third input connected to the output of the oscillator. The output of the gate circuit is connected to the input of the counter, the output of the counter closes Display unit or the line printer.

The method and the apparatus of the invention are based on a advantageous embodiment example based on the accompanying drawing showing the block diagram represents the device, explained in more detail.

The sample 1 to be evaluated is in a closed chamber with the with the aid of the light sources 2 and color filters 3 produced homogeneous monochromatic Illuminated or transilluminated light. The image of the sample 1 is taken with the camera 4 recorded.

The point-like scanning in the camera 4 is controlled by the control of the electron beam of the image pickup tube ensured.

The recorded image becomes visible with the help of the monitor made. The focus setting and the setting of the image section can be done on the monitor be made.

The amplitude of the delivered video signal is with the discoloration proportional to the plate; accordingly, the video signal is quantitative for the Assessment of the amount of material excreted on the discolored areas is well suited.

The video signal output of the camera 4 closes the sampling input of the sampling storage circuit 5. The sampling storage circuit 5 the line takes a sample in front of the specific point to be measured, the signal level corresponding to the density of the sampling point up to the next Sampling is saved.

The image and line sync output of camera 4 closes Inputs of the unit 9 for determining the sampling position and the image section at. The unit 9 for determining the sampling position and the image section contains monostable multivibrators. With its treatment organs, the The test area of the chromatogram can be determined The second output of the unit 9 for the determination of the sampling position and the image section is to be sent to Monitor 15 switched, on which the specific area can be checked. The third output ~ of the unit 9 for determining the sampling position and of the image section is connected to the control input of the sampling storage circuit 5 connected and delivers the signal for each line, which the sampling storage circuit 5 controls.

The first output of the unit 9 for determining the sampling position and the image section is connected to the first input of the gate circuit 10; the logic "l1" level arrives at the first input of the gate circuit 10 only after scanning the specific area to be checked.

The output of the sampling storage circuit 5 is analog Input of the chain circuit 6 connected. So between - two samples are taken, i.e. for one line each, -in corresponding to the density of the sampling point electrical signal level to the mentioned input. The derailleur 6-divides the Signal range between the signal level corresponding to the density of the sampling point and the black level. The lower limit of the area to be divided can Be set above the black level. The division ratio of the derailleur is per image through the from the outputs of the level switching unit 8 to the control inputs The signal switched to the derailleur is gradually reduced.

The level advancement unit 8 is through the image sync signal of Camera 4 controlled; so the chain circuit delivers the same for one image duration each Level at the other input of the comparator 7.

The comparator 7 compares that obtained from the ladder circuit 6 Signal level with the video signal arriving at one input. Should the video signal fall below the signal level received from the Keben circuit 6, i.e. that on The spot on the surface just scanned is darker than the one from the derailleur 6 received signal level corresponding density is at the input of the comparator 7 a logic "1" level is present, this signal being the second input of the gate circuit 10 arrives. The third input of the gate circuit 10 the output of the oscillator 11 follows.

At the output of the gate circuit connected to the counter 12 10, therefore, a signal is present when scanning on the particular area is carried out. In this case, the unit 9 provides for the determination of the sampling position and the image section has an 1 level for the gate circuit 10, with also from the comparator 7 receives an "1" level; in this case the pulses of the oscillator 11 passed through the gate circuit, and these are counted in the counter 12. The result of the counter 12 appears on the display unit 13 or on the line printer 14th

The sample to be tested is to be scanned as often as in how many steps the signal range between the sampling level and e.g.

divided by the black level. From the direction of the lower level progressing in the direction of the upper level, the comparator 7 also delivers the places of ever smaller density a logical "1" level. The frequency of the Oscillator is the product of the line frequency and the number of each resulting image Lines chosen. So the horizontal and vertical resolution of the image is the same.

The number of pulses passed by the gate circuit 10 is while scanning an image with the area of the spot parts, their density exceeds the level determined by the chain connection, proportionally. While the scanning of the individual images, the counter 12 adds up the areas mentioned, whereby a result proportional to the area of the stain and its density is proportional to the Available.

With a view to the fact that the peg and Densiat differ from the on depend on the amount of material excreted on the stain, is the result of the counter with proportional to the amount of material. After each evaluation of a specific image section the device automatically sets the evaluation of the next spot or a group of spots away.

Can be compared with the known methods and devices by the application of the solution according to the invention is an order of magnitude higher Evaluation speed can be achieved. Serial examinations can also be carried out within be carried out in a short time.

L e r s e i t e

Claims (2)

Patent & nprEche 1) Method for measuring discoloration, especially for the quantitative evaluation of earomatograms, gel electrophoreograms, Elphograms, autoradiograms or photographs or slides of the same, characterized in that the sample to be examined with visible, ultraviolet or infrared light beam illuminated or transilluminated and the image on the signal plate of an opto-electrical converter and the one that appears on the signal plate Image resolved into lines is scanned with an electron beam, the density the examined sample is converted into a video signal and from the video signal A sample is taken from the line in front of the specific point to be measured, with the signal level corresponding to the density of the sampling point up to the next Sampling is stored, the signal range between the sampling level and the black level is divided after the start of the test, the video signal during the course of the first image with the first level, during the course of the second image is compared with the second level, etc. until the video signal If the given level falls below, pulses of constant frequency are counted can, where the frequency of the mentioned pulses is the product of the line frequency and the number of lines forming the image is equal and after the comparison of the video signal had taken place with all levels that were evaluated with the Area of the sample examined, the amount of material present proportional to the sum of the counted pulses is determined. 2) Device for the measurement of discoloration, in particular for the quantitative evaluation of chromatograms, elphograms, autoradiograms, Gel electrophoreograms or photographs or slides of the same, which a camera, a monitor, a sampling storage circuit, a chain circuit, a comparator, a gate circuit, an oscillator, a counter, a display unit and includes a line printer also performing arithmetic operations, thereby characterized in that the device with a unit (9) for the Determination of the sampling position and the image section and a level switching unit (8), the video signal output of the camera (4) the sampling input of the sampling memory circuit (5), one input of the comparator (7) and the monitor (15) is connected to the output of the sampling storage circuit (5) the analog input of the chain circuit (6) connects, the output of the The chain circuit (6) is connected to the other input of the comparator (7), the image synchronization signal output of the camera (4) to one input of the unit (9) for the determination of the sampling position and the image section and the entrance the level switching unit (8) is connected, the output of the level switching unit (8) is connected to the control input of the chain circuit (6), the line synchronous output the camera (4) to the second input of the unit (9) for determining the sampling position and the image section is connected, the first output of the unit (9) to the first Input of the gate circuit (10), the second output to the monitor (15) and the third output connected to the input of the sampling memory circuit (5) is, the second input of the gate circuit (10) is the output of the comparator (7), the third input of the output of the oscillator (11) is connected, wherein the output of the gate circuit (10) is connected to the input of the counter (12) is, and the output of the counter (12) is the display unit (13) and the auchqrithmetische Operations extending line printer (14) connects.