CN105640507A - High definition dermatopathology analyzer and imaging method thereof - Google Patents

Abstract

The invention relates to a high definition dermatopathology analyzer and an imaging method thereof, and belongs to the technical field of medical equipment. The analyzer comprises display equipment, a processor and imaging equipment, wherein the display equipment is connected with the processor; the imaging equipment adopts a handheld detector; a camera, a polarizing film I, an optical lens, a light source, a polarizing film II and a light intensity sensor are arranged at the head of the handheld detector from the upper part to the lower part in sequence; a DSP controller is arranged inside the handheld detector; the DSP controller is respectively connected with the light intensity sensor, the light source and the camera; the light source comprises an LED red light lamp, an LED green light lamp, an LED blue light lamp, an LED white light lamp and an LED infrared light lamp; the DSP controller is connected with the processor; the method mainly comprises steps of imaging calibration, image gathering, image processing and image display. The analyzer is simple in structure, reasonable in design, convenient to operate and low in cost, and provides accurate and objective high definition skin detection information for users.

Description

A kind of fine definition dermal pathology analyser and formation method thereof

Technical field

The present invention relates to a kind of fine definition dermal pathology analyser and formation method thereof, be mainly used in pathological analysis and the detection of skin, belong to technical field of medical instruments.

Background technology

Along with the raising of people's living standard, beautiful and healthy requirement is also increased by people therewith, and skin is the important step that relation people are beautiful with healthy.

Skin refers to that body surface wraps in the tissue outside muscle, is the maximum organ of human body, mainly carries protection health, perspires, feels the functions such as cold and hot and pressure. Skin covers whole body, and it makes internal various tissue and organ from the invasion and attack of physical property, mechanicalness, chemical and pathogenic microorganism. The skin of people is by epidermis, corium (mesoderm), subcutaneous tissue up of three layers; High-precision dermal pathology analysis carries out pathological analysis typically by the index such as blood capillary of the melanin of epidermal area, the haemachrome of skin corium and hypodermis layer.

Under normal circumstances, people observe the state of skin typically via two ways: one is directly to detect by an unaided eye, and this method, when bigger skin problem, can recognize the health status of skin to a certain extent; Another kind of method is then observe skin by skin detection instrument, and traditional skin detection instrument is, by optical lens, the apparent condition of skin is amplified to certain multiple, and people understand the health status of skin by observing the skin after amplifying. But both approaches all existing defects, naked eyes are difficult to observe by trickle structure, traditional skin detection instrument is then only capable of observing the pathologic condition of epiderm skin, skin corium and hypodermis layer are all difficult to detection, and traditional skin detection instrument is frequently present of the not fogging clear problem produced because of factors such as light interference, people is understood skin health details and causes obstruction.

Prior art also there is part to be based on the detection method of multi-optical spectrum imaging technology for the skin detection of high-precision requirement, in order to obtain multispectral information, multispectral system generally adopts the following two kinds mode to obtain: a class is to obtain the image under different spectral band respectively, usually narrow band pass filter is utilized to realize, the operation of such method is cumbersome, it is not suitable for for quick skin detection, another kind of is obtain multispectral image continuously, usually utilize spectrogrph point by point scanning, apparatus expensive involved by such method and consuming time longer, the detection of therapeutic medical fast skin it is not suitable for yet.

Summary of the invention

The technical problem to be solved is to overcome above-mentioned deficiency existing in prior art, and provides a kind of fine definition dermal pathology analyser and formation method thereof.

This invention address that the problems referred to above be the technical scheme is that a kind of fine definition dermal pathology analyser, including display device, processor and imaging device, described display device is connected with described processor, described imaging device is a hand-held tester, and the head at described hand-held tester is sequentially provided with camera from top to bottom, the polaroid one that thoroughly shakes upwardly directed, optical lens, light source, thoroughly shake polaroid two downwardly and light intensity induction apparatus; Be provided with dsp controller in the inside of described hand-held tester, described dsp controller is connected with light intensity induction apparatus, light source, camera respectively; Described light source includes LED red globe lamp, LED green light lamp, LED blue-ray light, LED white light and LED infrared lamp; Described dsp controller is connected with described processor. Imaging device is arranged to hand-held tester by the present invention, it is simple to the manual operation of doctor; The polaroid two shaken downwardly is set between light source and detected skin, so that the light that light source sends is with vertical direction directive skin, and the polaroid one shaking upwardly directed is set between camera and optical lens, so that the light gone out from skin reflex is with vertical direction directive camera, used by the combination of polaroid one and polaroid two, eliminate the impact that light source incidence makes shooting effect poor due to refraction or diffuse-reflectance to skin surface; The light source of the present invention adopts LED red globe lamp, LED green light lamp, LED blue-ray light, LED white light and the combination of LED infrared lamp to constitute, each lamp all adopts LED, LED environmental protection and energy saving, long service life, and LED is all higher relative to the luminous flux of the lamps such as Halogen light and luminous efficiency, in skin detection process, camera can obtain the individual color channel component image of better quality.

Further, the described light source of the present invention includes LED red globe lamp, LED green light lamp, LED blue-ray light, LED white light and LED infrared lamp, and each lamp illumination intensity is identical and is uniformly distributed by circle, and the number of each lamp is than for 4:3:3:4:4. When LED red globe lamp, LED green light lamp, LED blue-ray light press the ratio setting of 4:3:3, by the coloured image of these three kinds of Color Channel components synthesis closer to the image adopted captured by LED white light.

Further, the lamp holder at the described LED red globe lamp of the present invention is provided with HONGGUANG optical filter, and the lamp holder of described LED green light lamp is provided with green glow optical filter, and the lamp holder of described LED blue-ray light is provided with blue filter. LED red globe lamp, LED green light lamp, LED blue-ray light lamp holder be respectively provided with correspondence optical filter, make the light that these three kinds of light sources send purer, it is prevented that the shooting effect of other light disturbance camera.

Further, the described light intensity induction apparatus of the present invention adopts silicon cell sensor.

Further, the optical-electrical converter of the described camera of the present invention adopts COMS chip or CCD chip.

Further, adopting USB interface to be connected between the described dsp controller of the present invention and described processor, described USB interface is located at the afterbody of described hand-held tester.

A kind of formation method of fine definition dermal pathology analyser, it is characterised in that: comprise the steps,

(1) imaging calibration: processor is connected with hand-held tester, the each lamp controlling light source is opened in order respectively, and the output brightness of each light source is controlled respectively through dsp controller, the brightness making light intensity induction apparatus place is not less than 30, simultaneously less than 255, and DSP controlling value is kept, in order to call when gathering image.

(2) image acquisition: open camera, dsp controller controls LED red globe lamp, LED green light lamp, LED blue-ray light, LED white light and LED infrared lamp successively and opens respectively in order, while turning on each lamp, the corresponding DSP controlling value calling in each lamp respectively, carry out image acquisition, each image acquisition data exports respectively to processor, treats that the later stage processes.

(3) image procossing: each image collected is overlapped fusion treatment by processor.

(4) image shows: shown with the form of color three dimensional image at display device by the image after additive fusion in above-mentioned steps (3).

The present invention is compared with the prior art, have the advantages that present configuration is simple, reasonable in design, the photo of the RGB three primary colours shooting of hinge structure, present invention also adds LED white light and LED infrared lamp, LED white light can make up the deficiency of RGB tri-coloured light, LED infrared lamp is for the blood capillary index of capturing skin hypodermis layer, and for multi-optical spectrum imaging technology, present configuration is simple, small and exquisite, easy to operate, less costly, provide the user accurately objectively skin detection information.

Accompanying drawing explanation

Fig. 1 is each structure connection diagram of the present invention.

Fig. 2 is the structural representation of the hand-held tester of the present invention.

Fig. 3 is the A portion structure enlarged diagram in Fig. 2.

Fig. 4 is the imaging schematic diagram of the present invention.

Fig. 5 is each lamp scattergram of light source of the present invention.

The principle of reflection figure of light source when Fig. 6 is do not adopt polaroid.

Fig. 7 is the schematic diagram of the polaroid two of the present invention.

Fig. 8 is the schematic diagram of the polaroid one of the present invention.

Fig. 9 is the spectral response curve figure of the LED red globe lamp of the present invention, LED green light lamp, LED blue-ray light and LED white light.

In accompanying drawing: 1 is display device, 2 is processor, and 3 is imaging device, and 31 is camera, 32 is polaroid one, and 33 is optical lens, and 34 is light source, and 341 is LED red globe lamp, 342 is LED green light lamp, and 343 is LED blue-ray light, and 344 is LED white light, and 345 is LED infrared lamp, 35 is polaroid two, and 36 is light intensity induction apparatus, and 37 is USB interface, 38 is dsp controller, and 39 is optical filter, and 4 is skin, 41 is epidermis, and 42 is skin corium, and 43 is hypodermis layer.

Detailed description of the invention

Below in conjunction with accompanying drawing and by embodiment, the present invention is described in further detail, and following example are explanation of the invention and the invention is not limited in following example.

Referring to Fig. 1, the present embodiment includes display device 1, processor 2 and imaging device 3, and display device 1 is connected with processor 2.

Referring to Fig. 2-Fig. 4, the imaging device 3 of the present embodiment is a hand-held tester, and the head at hand-held tester is sequentially provided with camera 31 from top to bottom, the polaroid 1 that thoroughly shakes upwardly directed, optical lens 33, light source 34, thoroughly shake polaroid 2 35 downwardly and light intensity induction apparatus 36; Be provided with dsp controller 38 in the inside of hand-held tester, dsp controller 38 is connected with light intensity induction apparatus 36, light source 34, camera 31 respectively; Light source 34 includes LED red globe lamp 341, LED green light lamp 342, LED blue-ray light 343, LED white light 344 and LED infrared lamp 345; Adopting USB interface 37 to be connected between dsp controller 38 with processor 2, USB interface 37 is located at the afterbody of described hand-held tester.

The LED red globe lamp 341 of the present embodiment, LED green light lamp 342, LED blue-ray light 343 lamp holder be equipped with correspondence optical filter 39.

In the present embodiment, light intensity induction apparatus 36 adopts silicon cell sensor, and the optical-electrical converter of camera 31 adopts COMS chip or CCD chip.

Referring to Fig. 5, the LED red globe lamp 341 of the present embodiment, LED green light lamp 342, LED blue-ray light 343, LED white light 344 and LED infrared lamp 345 are respectively by two concentric circular position distribution. LED green light lamp 342 and each three of LED blue-ray light 343, and spaced apart on interior concentric circular position; Each four of LED red globe lamp 341, LED white light 344 and LED infrared light, three is spaced apart on outer concentric circular position.

Referring to Fig. 6-Fig. 8, it is shown that the effect of polaroid 1 and polaroid 2 35 and operation principle. Fig. 6 is that the present embodiment is not when using polaroid 1 and polaroid 2 35, light source 34 is radiated at incidence and the reflection process of the light on skin 4 surface, in this kind of situation, light source 34 is incident to skin 4 surface with uncertain direction, and by direct reflection or irreflexive form, light source 34 is reflected after the epidermis 41 of skin 4 and skin corium 42 or hypodermis layer 43, and carry out image acquisition by camera 31, now, due to the impact diffused, easily there are numerous impacts such as light halation in the image information that camera 31 gathers, image comparatively clearly cannot be obtained, thus the pathologic condition of skin 4 cannot be analyzed accurately. Fig. 7 is the fundamental diagram of the present embodiment polaroid 2 35, the position of the LED red globe lamp 341 of the present embodiment, LED green light lamp 342, LED blue-ray light 343, LED white light 344 and LED infrared lamp 345 is different, the light angle of each lamp is also different, when the light of each lamp exposes to skin 4 respectively through polaroid 2 35, all become direction of illumination straight down so that the direction of illumination of each lamp becomes identical, Fig. 8 is the fundamental diagram of the present embodiment polaroid 1, when the light of each lamp exposes to skin 4, through reflection and by polaroid 1 after all inject inside camera 31 with vertical direction, used by the combination of polaroid 1 and polaroid 2 35, each lamp is made to inject skin 4 all at same direction, strengthen image procossing taken under the irradiation of different lamps, greatly reduce irreflexive to the image contributions captured by camera 31, be integrally improved definition and the degree of being referred to of image.

Referring to Fig. 9, LED red globe lamp 341 for the present embodiment, LED green light lamp 342, the spectral response curve figure of LED blue-ray light 343 and LED white light 344, as shown in the figure, it is different that the light source 34 of different colours irradiates lower accessed picture characteristics, due to LED red globe lamp 341, LED green light lamp 342, the spectral response value difference that LED blue-ray light 343 is corresponding under different wave bands, and it is relatively low to present spectral response value at each adjacent band place, and spectral response value that LED white light 344 goes out in this adjacent band is of a relatively high, by LED red globe lamp 341, LED green light lamp 342, after under the irradiation respectively of LED blue-ray light 343 and LED white light 344, acquired each image is overlapped synthesis process, can obtain each wave band mutually under all higher image of spectral response value, the image higher to obtain definition, it is easy to the pathological analysis of skin 4.

The imaging process that the present embodiment carries out skin detection is adopted to comprise the steps:

(1) imaging calibration: processor 2 is connected with hand-held tester, the each lamp controlling light source 34 is opened in order respectively, and the output brightness of each light source 34 is controlled respectively through dsp controller 38, the brightness making light intensity induction apparatus 36 place is not less than 30, simultaneously less than 255, and DSP controlling value is kept, in order to call when gathering image.

(2) image acquisition: open camera 31, dsp controller 38 controls LED red globe lamp 341, LED green light lamp 342, LED blue-ray light 343, LED white light 344 and LED infrared lamp 345 successively and opens respectively in order, while turning on each lamp, the corresponding DSP controlling value calling in each lamp respectively, carry out image acquisition, each image acquisition data exports respectively to processor 2, treats that the later stage processes.

(3) image procossing: each image collected is overlapped fusion treatment by processor 2.

(4) image shows: shown with the form of color three dimensional image at display device 1 by the image after additive fusion in above-mentioned steps (3).

The present invention has been made more detailed description by above example, but these descriptions are not limitations of the present invention, namely the invention is not limited in the concrete structure of above-described embodiment and description. Protection scope of the present invention includes those apparent conversion or replacement and remodeling to those skilled in the art.

Claims (7)

1. a fine definition dermal pathology analyser, including display device, processor and imaging device, described display device is connected with described processor, it is characterized in that: described imaging device is a hand-held tester, the head at described hand-held tester is sequentially provided with camera from top to bottom, the polaroid one that thoroughly shakes upwardly directed, optical lens, light source, thoroughly shake polaroid two downwardly and light intensity induction apparatus; Be provided with dsp controller in the inside of described hand-held tester, described dsp controller is connected with light intensity induction apparatus, light source, camera respectively; Described light source includes LED red globe lamp, LED green light lamp, LED blue-ray light, LED white light and LED infrared lamp; Described dsp controller is connected with described processor.

2. fine definition dermal pathology analyser according to claim 1, it is characterized in that: described light source includes LED red globe lamp, LED green light lamp, LED blue-ray light, LED white light and LED infrared lamp, each lamp illumination intensity is identical and is uniformly distributed by circle, and the number of each lamp is than for 4:3:3:4:4.

3. fine definition dermal pathology analyser according to claim 1, it is characterized in that: the lamp holder at described LED red globe lamp is provided with HONGGUANG optical filter, the lamp holder of described LED green light lamp is provided with green glow optical filter, and the lamp holder of described LED blue-ray light is provided with blue filter.

4. fine definition dermal pathology analyser according to claim 1, it is characterised in that: described light intensity induction apparatus adopts silicon cell.

5. fine definition dermal pathology analyser according to claim 1, it is characterised in that: the optical-electrical converter of described camera adopts COMS chip or CCD chip.

6. fine definition dermal pathology analyser according to claim 1, it is characterised in that: adopting USB interface to be connected between described dsp controller with described processor, described USB interface is located at the afterbody of described hand-held tester.

7. the formation method of fine definition dermal pathology analyser according to claim 1, it is characterised in that: comprise the steps,

(1) imaging calibration: processor is connected with hand-held tester, the each lamp controlling light source is opened in order respectively, and the output brightness of each light source is controlled respectively through dsp controller, the brightness making light intensity induction apparatus place is not less than 30, simultaneously less than 255, and DSP controlling value is kept, in order to call when gathering image;

(2) image acquisition: open camera, dsp controller controls LED red globe lamp, LED green light lamp, LED blue-ray light, LED white light and LED infrared lamp successively and opens respectively in order, while turning on each lamp, the corresponding DSP controlling value calling in each lamp respectively, carry out image acquisition, each image acquisition data exports respectively to processor, treats that the later stage processes;

(3) image procossing: each image collected is overlapped fusion treatment by processor;

(4) image shows: shown with the form of color three dimensional image at display device by the image after additive fusion in above-mentioned steps (3).