CN202632317U - Dark-background optical fingerprint acquisition device - Google Patents
Dark-background optical fingerprint acquisition device Download PDFInfo
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- CN202632317U CN202632317U CN 201220280453 CN201220280453U CN202632317U CN 202632317 U CN202632317 U CN 202632317U CN 201220280453 CN201220280453 CN 201220280453 CN 201220280453 U CN201220280453 U CN 201220280453U CN 202632317 U CN202632317 U CN 202632317U
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Abstract
The utility model relates to a dark-background optical fingerprint acquisition device. The dark-background optical fingerprint acquisition device consists of a dark-background optical fingerprint imaging module and a fingerprint signal processing module with a self-adapting adjustment algorithm. According to the dark-background optical fingerprint acquisition device, an infrared light source, a mono-color visible light source and a light filter layer with a band-pass filtering function are simultaneously adopted in the dark-background optical fingerprint imaging module, so that the interference caused by outside stray light in service environments is greatly reduced; and the optimization on an software algorithm is combined, so that reliable and high-definition fingerprint images can be obtained from an imaging device regardless of dry finger operation or wet finger operation, and the cheating caused by remaining fingerprints can be effectively reduced.
Description
Technical field
The utility model relates to technical field of biometric identification, particularly a kind of dark background optical finger print harvester.
Background technology
Fingerprint acquisition device is the input media of fingerprint recognition system, and can be widely used in fingerprint gate guard control system, fingerprint acquisition instrument, fingerprint attendance machine, fingerprint safe etc. need discern in the product of login with fingerprint.
The optical finger print harvester is to light shine the fingerprint that is placed on the prism to form an image; And read and be formed on the fingerprint image on the imageing sensor according to the shape reflection of the paddy of fingerprint and ridge; To compare with the fingerprint of storage in advance; And then determine whether to be the validated user fingerprint, reach the purpose of security identification.The optical finger print harvester generally is made up of shell, collection prism, monochromatic visible light source, lens combination and imaging device, is widely used fingerprint acquisition device in the existing fingerprint recognition system.Difference according to acquisition principle; The fingerprint image that the optical finger print harvester collects can be divided into two kinds of dark background image and bright background images, thereby the optical finger print harvester can be divided into two types again: dark background optical finger print harvester and bright background optical fingerprint acquisition device.In fingerprint image, the zone of the crestal line valley line texture of performance fingerprint is referred to as prospect, and the serious zone that consequently can't discern fingerprint texture of non-finger-print region or noise is referred to as background.
Bright background optical fingerprint acquisition device also is total reflection absorption-type fingerprint acquisition device, and its adopts the principle of total reflection, and light beam arrives collection face with the incident angle greater than the critical angle of the face of collection; The crestal line of fingerprint closely contacts with Collection prism, and a part of incident ray is by finger, and a part reflects; Lens combination is imaged onto this folded light beam on the imaging device, and crestal line has absorbed part total reflection light, is shown as concealed wire; Valley line does not contact with collection face; Total reflection takes place in incident ray at the valley line place, be shown as bright line, thereby obtain the fingerprint image of bright background.
Dark background optical finger print harvester also is finger face diffuse reflection type fingerprint acquisition device, and it adopts irreflexive principle, and light beam arrives collection face with the incident angle less than the critical angle of gathering face; The crestal line of fingerprint closely contacts with Collection prism, is radiated at the light beam on the crestal line, and a part is by finger; Diffuse reflection takes place in a part; The irreflexive light in fingerprint ridge line contact site is shown as bright line on imaging device, valley line does not contact, and light still transmits Collection prism; So valley line is shown as concealed wire on imaging device, thereby obtain the image of dark background.
Because catoptrical amount is relevant with the degree of depth and grease and the moisture between skin and the surface of contact of ridge that is pressed in Collection prism surface of contact fingerprint and paddy.Generally believe; Dark background optical finger print harvester is clear inadequately for the image that wet finger collection arrives; The optical finger print harvester of bright background is clear inadequately for the image that dried finger collection arrives, and its reason is: for dark background optical finger print harvester, because the grease and the washiness of wet finger skin; The fingerprint valley line also can comparatively be pressed close to the Collection prism surface of contact; Diffuse reflection also can take place at the valley line place in most of incident ray, and is few with the luminance difference of crestal line on imaging device, can't obtain fingerprint image clearly.
For bright background optical fingerprint acquisition device; The fingerprint ridge line of doing finger can't closely contact with the Collection prism surface of contact; Cause having only a spot of light to be absorbed; And most of incident light generation total reflection and being imaged onto on the imaging device is shown as the bright line identical with valley line, can't obtain fingerprint image clearly.
Existing bright background optical fingerprint acquisition device; In order to strengthen doing the adaptability of finger, particularly under winter cold, dry climatic environment, fingerprint collecting is difficulty relatively; Image quality is not high, often need on the collection face of Collection prism, stick one deck reinforcing membrane and improve this type of problem.But because this layer reinforcing membrane be thinner, hardness is not high yet, wearing quality is good inadequately, is scratched and damages by sharp-pointed article easily, and also quick-wearing very when being used for a long time by coarse finger is influenced by foul such as dust also can and be difficult for cleaning, causes image quality variation gradually.Thereby this kind reinforcing membrane life-span is not long, needs the user to regularly replace, and brings inconvenience for actual use operation.
Because the optical imagery acquisition principle is to utilize the difference of fingerprint ridge line valley line and optical prism surface exposure level to gather, also there is the shortcoming that is subject to the fingerprint residues deception in the optical imagery collection of optical fingerprint acquisition instrument.When fingerprint residues is meant finger contact Collection prism surface, the oil stain corresponding that stays with crestal line.Because the reflected light absorptivity that fingerprint residues causes contacts much smaller than fingerprint; Under the dark background pattern; The fingerprint residues place of optics has only a spot of light to be absorbed; The then whole transmissions of remaining light generation diffuse reflection, non-fingerprint residues are gone out, so fingerprint residues just forms width of cloth dark background fingerprint texture image comparatively clearly.
For existing dark background optical finger print harvester; Adopt visible light such as ruddiness, blue light or green glow as light source mostly; Residual when fingerprint trace is arranged clearly on the collection face of Collection prism; If the light source brightness of backlight is too small, fingerprint collecting and image quality just receive the interference of extraneous veiling glare easily.When extraneous natural light, sunlight or light just may produce automatic collection phenomenon during according to certain angular illumination fingerprint acquisition instrument prism, the degree of gathering automatically depends on the contrast of background light brightness and outer luminance brightness.This identification that just leads to errors easily causes maloperation.
Summary of the invention
The purpose of the utility model is to provide a kind of dark background optical finger print harvester, and this fingerprint acquisition device antijamming capability is strong, and the fingerprint imaging quality is good, and is low to the rate of false alarm of residual fingerprint, and can adapt to the operation of doing finger and wet finger preferably.
The technical solution that the utility model proposed is such:
A kind of dark background optical finger print harvester, this device comprises:
---dark background optical finger print image-forming module 1, it adopts infrared light supply and monochromatic visible light source simultaneously, and jamproof worry photosphere, is used to obtain clear, reliable fingerprint image;
---have the fingerprint signal processing module 2 that self-adaptation is regulated algorithm 2-1; Can be to dried finger or the wet fingerprint image signal that is collected of pointing in various degree; Regulate algorithm through self-adaptation and automatically adjust, obtain high-quality, high definition, reliable fingerprint image.
Said dark background optical finger print image-forming module 1 is provided with Collection prism 4, light source board 5, shadow shield 7, big lens 6, lenslet 8 and the imaging device 9 that is installed in the shell 3 and arranges in proper order by front and back; Between Collection prism 4 and imaging device 9, be provided with filter layer 10, said imaging device 9 is provided with the imageing sensor 1-1 that can carry out opto-electronic conversion.Said light source board 5 is provided with one group of LED infrared lamp 5-1 and one group of LED visible lamp 5-2, and every group of LED infrared lamp 5-1 and every group of LED visible lamp 5-2 homonymy on light source board 5 are arranged or intersected each other and arrange.
The small cup number of every group of LED infrared lamp 5-1 is 1-3, and its infrared light wavelength scope is 0.76-1.5um; The small cup number of every group of LED visible lamp 5-2 is 1-3, and it adopts any LED mono-chromatic lamp in LED red globe lamp or LED green glow lamp or the LED blue-ray light.Collection prism 4 adopts pentaprism; Be provided with fingerprint collecting face 4-4, black substrate surface 4-2, light source plane of incidence 4-3, optical transmission face 4-5 and be positioned at the shading face 4-1 of pentaprism both sides; One group of LED infrared lamp 5-1 of said light source board 5 and one group of LED visible lamp 5-2 and said light source plane of incidence 4-3 relatively and remain on certain incident angle, said optical lens face 4-5 is adjacent relative with said big lens 6.
The bandpass filter of said filter layer 10 for letting infrared light pass through, said bandpass filter 10 are arranged in said optical transmission face 4-5, big lens 6, lenslet 8, the imaging device 9 between the two adjacent arbitrarily.The band logical filter coating of said filter layer 10 for letting infrared light pass through, the logical filter coating 10 of said band are coated in the exit facet of the plane of incidence, lenslet 8 of exit facet, the lenslet 8 of the plane of incidence of said optical transmission face 4-5, big lens 6, big lens 6 on arbitrary.Preferential mode is that said filter layer 10 is arranged between lens 8 and the imaging device 9.
Compared with prior art; The utlity model has following beneficial effect: the utility model has adopted visible light source and invisible light source infrared light simultaneously in the light path system of dark background optical finger print collection; And the logical filter layer of jamproof band; Reduced the interference of extraneous veiling glare in the environment for use greatly; In conjunction with the optimization on the software algorithm,, and can reduce the deception of residual fingerprint effectively no matter with doing finger or wet finger manipulation can both obtain reliably, fingerprint image clearly on imaging device.
This dark background optical finger print harvester is mainly used in Fingerprint Lock, fingerprint acquisition instrument, fingerprint safe, fingerprint attendance machine etc. and need discerns on the product of login with fingerprint.
Description of drawings
Fig. 1 is the system block diagram of a kind of dark background optical finger print harvester of an embodiment of the utility model.
Fig. 2 is the STRUCTURE DECOMPOSITION synoptic diagram of dark background optical finger print image-forming module shown in Figure 1.
Fig. 3 is the structural representation of Collection prism shown in Figure 2.
Label declaration among the figure: 1, dark background optical finger print image-forming module; 1-1, imageing sensor; 2, the fingerprint signal processing module; 2-1, self-adaptation is regulated algorithm; 3, shell; 4, Collection prism; 4-1, shading face; 4-2, the black substrate surface; 4-3, the light source plane of incidence; 4-4, the fingerprint collecting face; 4-5, the optical transmission face; 5, light source board; 5-1, infrared light supply; 5-2, visible light source; 6, big lens; 7, shadow shield; 8, lenslet; 9, imaging device; 10, filter layer (optical filter or filter coating).
Embodiment
Through following embodiment the utility model is done further to set forth in detail.
Referring to shown in Figure 1, a kind of dark background optical finger print harvester is made up of dark background optical finger print image-forming module 1 and fingerprint signal processing module 2.Said dark background optical finger print image-forming module 1 includes Collection prism 4, light source board 5, shadow shield 7, big lens 6, lenslet 8, filter layer 10, the imaging device 9 of arranging by forward and backward order; This imaging device 9 includes the imageing sensor 1-1 that realizes opto-electronic conversion, and described dark background optical finger print harvester also comprises the shell 3 that installs and fixes these parts.
Said light source board 5 is provided with two groups of light sources, i.e. infrared light supply 5-1 and visible light source 5-2.Wherein one group of infrared light supply 5-1 is the LED infrared light supply, and its number is the 1-3 small cup, and present embodiment is selected two LED infrared lamp for use, is used to the light that provides fingerprint imaging required.The scope of said LED infrared waves is between 0.76~1.5um.Another group light source 5-2 is the LED visible light source, and its number is the 1-3 small cup, and present embodiment is selected two LED visible lamps for use, the indication when visible light just is used to fingerprint collecting is provided, the position and the residence time of prompting user typing fingerprint.Through the filtration of filter layer 10, the LED visible light is used as veiling glare and filters out, less than reaching picture device 9.Said LED visible light 5-2 can be the LED monochromatic light of arbitrary look in redness, green, the blueness; Said two infrared light supply 5-1 can be placed between two visible light source 5-2; Also can two visible light source 5-2 be put between two infrared light supply 5-1; Also can with every group of LED infrared lamp 5-1 and every group of LED visible lamp 5-2 homonymy on light source board 5 to be arranged or intersect each other and arrange, these arrange the implementation result that mode can not have influence on present embodiment.
Said shadow shield 7 is fixed on the shell 3, is positioned between light source board 5 and the big lens 6, can prevent that two groups of light of light source board 5 from directly arriving big lens 6 and having influence on the fingerprint imaging quality without Collection prism 4.
Said Collection prism 4 is selected pentaprism for use; The shading face 4-1, black substrate surface 4-2, light source plane of incidence 4-3 and the optical transmission face 4-5 that comprise fingerprint collecting face 4-4, both sides; Referring to shown in Figure 2; As optimization, the shading face of both sides 4-1 generally makes frosting, and black substrate surface 4-2 is coated with black to absorb light; Said light source plane of incidence 4-3 makes frosting, so that LED infrared light supply 5-1 can be scattered after through this face more equably; Simultaneously, said light source plane of incidence 4-3 makes frosting and can also weaken the visual impact of LED monochromatic visible light source 5-2 to human eye.
Said Collection prism 4; Other face except light source plane of incidence 4-3, optical transmission face 4-5, fingerprint collecting face 4-4 all can scribble light shield layer 10; Can avoid the veiling glare in the external environment condition to enter into generation imaging interference in the prism, gather image quality to improve.
Said filter layer 10 has the bandpass filtering function; Filter layer 10 can be arranged between lenslet 8 and the imaging device 9 with the mode of optical filter; Or be arranged between big lens 6 and the lenslet 8, can also be arranged between the optical transmission face 4-5 and big lens 6 of Collection prism 4; Said filter layer 10, the mode that can also lead to transition film is arranged on the optical transmission face 4-5 of Collection prism 4, also can be arranged on the plane of incidence or exit facet of big lens 6, can also be arranged on the plane of incidence or exit facet of lenslet 8.Take all factors into consideration the interference that produces in each optic path process and the influence of structural manufacturing process, the filter layer 10 of present embodiment adopts the optical filter modes, with optical filter 10 be arranged on after the lenslet 8, before the imaging device 9.Described filter layer 10 adopts the bandpass filter or the logical filter coating of band that can only filter out other visible light through infrared light, like this, can guarantee to eliminate to greatest extent the influence of veiling glare to image quality, thereby obtain the more fingerprint image of high definition.
The ruddiness or the LED monochromatic sources such as blue light or green glow of the different wave length that can also be adopted according to visible light source 5-2; Filter layer 10 is designed to can not be through the ruddiness of corresponding different wave length or the band resistance optical filter of the unmarried light sources of LED such as blue light or green glow; Also can play the effect of eliminating the maximum veiling glare, thereby obtain reasonable fingerprint imaging quality.
For guaranteeing image quality, a focus control can also be set in housing 3, be used for lenslet 8 positions and imaging focal length are finely tuned, so that on imaging device 9, obtain clear reliable fingerprint image.
Be provided with imageing sensor 1-1 in the said imaging device 9, present embodiment is selected cmos image sensor for use, and this cmos image sensor is connected with fingerprint signal processing module 2, picture signal is handled, to obtain clear reliable image.
For further promoting the quality of the fingerprint image that is collected; Improve in various degree dried finger or the wet adaptability of pointing; The utility model has comprised that also fingerprint signal processing module 2 these fingerprint signal processing modules 2 have self-adaptation and regulate algorithm 2-1; The fingerprint image signal that can be collected in various degree dried finger or wet finger automatically adjusts with the method for software, with acquisition optimum efficiency, quality fingerprint image more clearly.
In sum, the embodiment of the utility model provides a kind of dark background optical finger print harvester, and it has adopted the invisible light source infrared light; And jamproof optical filter; Reduced the interference of extraneous veiling glare in the environment for use widely, in conjunction with the optimization on the software algorithm, to doing finger or wet finger; The comparison distinct image can both be on imaging device, obtained, and the deception of residual fingerprint can be reduced effectively.
Claims (7)
1. dark background optical finger print harvester, it is characterized in that: this device comprises:
---dark background optical finger print image-forming module (1), it adopts infrared light supply and monochromatic visible light source simultaneously, and jamproof filter layer, is used to obtain clear, reliable fingerprint image;
---have the fingerprint signal processing module (2) that self-adaptation is regulated algorithm (2-1); Can be to dried finger or the wet fingerprint image signal that is collected of pointing in various degree; Regulate algorithm through self-adaptation and automatically adjust, obtain high-quality, high definition, reliable fingerprint image;
Said dark background optical finger print image-forming module (1) is provided with Collection prism (4), light source board (5), shadow shield (7), big lens (6), lenslet (8) and the imaging device (9) that is installed in the shell (3) and arranges in proper order by front and back; Between Collection prism (4) and imaging device (9), be provided with filter layer (10), said imaging device (9) is provided with the imageing sensor (1-1) that can carry out opto-electronic conversion.
2. dark background optical finger print harvester according to claim 1; It is characterized in that: said light source board (5) is provided with one group of LED infrared lamp (5-1) and one group of LED visible lamp (5-2), and every group of LED infrared lamp (5-1) and every group of LED visible lamp (5-2) are arranged or intersected each other at the last homonymy of light source board (5) and arrange.
3. dark background optical finger print harvester according to claim 2 is characterized in that: the small cup number of said every group of LED infrared lamp (5-1) is 1-3, and its infrared light wavelength scope is 0.76-1.5um; The small cup number of said every group of LED visible lamp (5-2) is 1-3, and it adopts any LED mono-chromatic lamp in LED red globe lamp or LED green glow lamp or the LED blue-ray light.
4. dark background optical finger print harvester according to claim 1; It is characterized in that: said Collection prism (4) is a pentaprism; Be provided with fingerprint collecting face (4-4), black substrate surface (4-2), the light source plane of incidence (4-3), optical transmission face (4-5) and be positioned at the shading face (4-1) of pentaprism both sides; One group of LED infrared lamp (5-1) of said light source board (5) and one group of LED visible lamp (5-2) and the said light source plane of incidence (4-3) relatively and remain on certain incident angle, said optical lens face (4-5) is adjacent with said big lens (6) relative.
5. dark background optical finger print harvester according to claim 1; It is characterized in that: the bandpass filter of said filter layer (10) for letting infrared light pass through, said bandpass filter (10) are arranged in said optical transmission face (4-5), big lens (6), lenslet (8), the imaging device (9) between the two adjacent arbitrarily.
6. dark background optical finger print harvester according to claim 1; It is characterized in that: said filter layer (10) be for can only letting the logical filter coating of band that infrared light passes through, said band lead to filter coating (10) be coated in the plane of incidence of said optical transmission face (4-5), big lens (6), greatly in the exit facet of the plane of incidence, the lenslet (8) of exit facet, the lenslet (8) of lens (6) on arbitrary.
7. according to claim 1 or 5 or 6 described dark background optical finger print harvesters, it is characterized in that: said filter layer (10) is arranged between lenslet (8) and the imaging device (9).
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CN 201220280453 CN202632317U (en) | 2012-06-14 | 2012-06-14 | Dark-background optical fingerprint acquisition device |
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CN 201220280453 CN202632317U (en) | 2012-06-14 | 2012-06-14 | Dark-background optical fingerprint acquisition device |
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Cited By (8)
Publication number | Priority date | Publication date | Assignee | Title |
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TWI575463B (en) * | 2016-01-20 | 2017-03-21 | 友達光電股份有限公司 | Fingerprint identification device |
CN106991366A (en) * | 2016-01-21 | 2017-07-28 | 上海箩箕技术有限公司 | Optical fingerprint sensor |
CN107392148A (en) * | 2017-07-21 | 2017-11-24 | 维沃移动通信有限公司 | A kind of fingerprint detection method and mobile terminal |
CN108256407A (en) * | 2017-01-05 | 2018-07-06 | 广州市晶密电子有限公司 | A kind of method and its device with multiple sensors Collect jointly and identification fingerprint |
WO2019233332A1 (en) * | 2018-06-08 | 2019-12-12 | 维沃移动通信有限公司 | Optical fingerprint recognition assembly and terminal |
US10657347B2 (en) | 2017-05-22 | 2020-05-19 | Guangdong Oppo Mobile Telecommunications Corp., Ltd. | Method for capturing fingerprint and associated products |
US11010586B2 (en) | 2017-05-22 | 2021-05-18 | Guangdong Oppo Mobile Telecommunications Corp., Ltd. | Method for fingerprint collection and related products |
US11048905B2 (en) | 2017-06-20 | 2021-06-29 | Guangdong Oppo Mobile Telecommunications Corp., Ltd. | Method for collecting fingerprint and terminal device |
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2012
- 2012-06-14 CN CN 201220280453 patent/CN202632317U/en not_active Expired - Fee Related
Cited By (12)
Publication number | Priority date | Publication date | Assignee | Title |
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TWI575463B (en) * | 2016-01-20 | 2017-03-21 | 友達光電股份有限公司 | Fingerprint identification device |
US9881199B2 (en) | 2016-01-20 | 2018-01-30 | Au Optronics Corporation | Fingerprint identification device |
CN106991366A (en) * | 2016-01-21 | 2017-07-28 | 上海箩箕技术有限公司 | Optical fingerprint sensor |
CN108256407A (en) * | 2017-01-05 | 2018-07-06 | 广州市晶密电子有限公司 | A kind of method and its device with multiple sensors Collect jointly and identification fingerprint |
US10657347B2 (en) | 2017-05-22 | 2020-05-19 | Guangdong Oppo Mobile Telecommunications Corp., Ltd. | Method for capturing fingerprint and associated products |
US11010586B2 (en) | 2017-05-22 | 2021-05-18 | Guangdong Oppo Mobile Telecommunications Corp., Ltd. | Method for fingerprint collection and related products |
US11048905B2 (en) | 2017-06-20 | 2021-06-29 | Guangdong Oppo Mobile Telecommunications Corp., Ltd. | Method for collecting fingerprint and terminal device |
CN107392148A (en) * | 2017-07-21 | 2017-11-24 | 维沃移动通信有限公司 | A kind of fingerprint detection method and mobile terminal |
CN107392148B (en) * | 2017-07-21 | 2019-01-11 | 维沃移动通信有限公司 | A kind of fingerprint detection method and mobile terminal |
WO2019233332A1 (en) * | 2018-06-08 | 2019-12-12 | 维沃移动通信有限公司 | Optical fingerprint recognition assembly and terminal |
JP2021525432A (en) * | 2018-06-08 | 2021-09-24 | 維沃移動通信有限公司Vivo Mobile Communication Co., Ltd. | Optical fingerprint recognition components and terminals |
US11430251B2 (en) | 2018-06-08 | 2022-08-30 | Vivo Mobile Communication Co., Ltd. | Optical fingerprint identification assembly and terminal |
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