Abstract:
Described is a method and system for authenticating identity of a person using a portable device. The portable device may includes an imager, an image processing unit and a processor. The image processing unit reads encoded data in a first image from an imager of the device. The image processing unit extracts a portion of a second image from the imager to generate extracted portion data. The extracted portion of the second image corresponds to a portion of a person whose identity is to be authenticated. Stored biometric data for a person is located based on the data read from the first image. The processor compares the extracted portion data of the second image to the stored biometric data for a person.

Description:
PRIORITY CLAIM  
       [0001]    This application claims the benefit of U.S. Provisional Patent Application Serial No. 60/347,731 filed on Nov. 7, 2001 and entitled “Mobile Biometric Terminal” the entire disclosure of which is hereby expressly incorporated herein by reference. 
     
    
     
       BACKGROUND INFORMATION  
         [0002]    User authentication is common to the vast majority of secure architectures. Knowledge based user authentication (password/PIN) is the most common authentication mechanism in use today. Such authentication is extremely weak and incurs high maintenance costs. Biometric authentication provides strong mechanisms that meet more stringent security requirements.  
           [0003]    Biometric based authentication has been primarily relegated to fixed-mount systems or desktop/laptop platforms. With the advent of high-powered processing for mobile devices (e.g., PDA, hand-held scanner, etc.), it is now possible to perform biometric authentication on such mobile devices. In many cases the single largest issue is the availability of a sensor in these mobile device to read biometric information.  
         SUMMARY OF THE INVENTION  
         [0004]    The present invention is directed to a method and system for authenticating identity of a person using a portable device. The portable device may includes an imager, an image processing unit and a processor. The image processing unit reads encoded data in a first image from an imager of the device. The image processing unit extracts a portion of a second image from the imager to generate extracted portion data. The extracted portion of the second image corresponds to a portion of a person whose identity is to be authenticated. Stored biometric data for a person is located based on the data read from the first image. The processor compares the extracted portion data of the second image to the stored biometric data for a person. 
       
    
    
     BRIEF DESCRIPTION OF DRAWINGS  
       [0005]    The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute part of the specification, illustrate several embodiments of the invention and, together with the description, serve to explain examples of the present invention. In the drawings:  
         [0006]    [0006]FIG. 1 shows an exemplary embodiment of a mobile device according to the present invention;  
         [0007]    [0007]FIG. 2 shows an exemplary embodiment of a system according to the present invention;  
         [0008]    [0008]FIG. 3 shows another exemplary embodiment of a system according to the present invention;  
         [0009]    [0009]FIG. 4 shows an exemplary embodiment of a mobile device which is obtaining biometric data of a user; and  
         [0010]    [0010]FIG. 5 shows an exemplary embodiment of a method according to the present invention. 
     
    
     DETAILED DESCRIPTION  
       [0011]    The present invention may be further understood with reference to the following description of preferred exemplary embodiments and the related appended drawings, wherein like elements are provided with the same reference numerals. It should be understood that, although the preferred embodiment of the present invention will be described with reference to a handheld bar code scanner, the present invention may be implemented on a wide range of mobile devices including, for example, Personal Digital Assistants (PDAs), cellular telephones, etc., and the term “mobile device” will be used throughout this description to generically refer to all such devices.  
         [0012]    [0012]FIG. 1 shows an exemplary embodiment of a mobile device  10  which may, for example, be a PDA, a hand-held imager, etc. The mobile device  10  includes an imager  12  for obtaining data from a surface, e.g., a bar code  15  and/or biometric data. The imager  12  may, for example, include a digital camera. The bar code  15  may, e.g, be a one-dimensional bar code  15   a  or a two-dimensional bar code  15   b  (e.g., PDF  417 ) as shown in FIGS. 2 and 3. Furthermore, the imager  12  obtains certain biometric data (e.g., a facial recognition data  20 , an iris data  25 , an image data  30 , etc.) from a subject to be authenticated—e.g., to verify the identity of a person requesting access to a restricted area or device.  
         [0013]    As described above, the mobile device  10  may be used for authentication purposes. For example, the system  1   a  of FIG.  2  may be used to authenticate the identity of the person of an identification card including bar code data  15 . As shown in FIG. 2, the system  1   a  includes the mobile device  10  in communication with a server  40  via a communications network  50 , where the server  40  may be a conventional computing arrangement including and/or connected to a database  42  including records for a plurality of people including the authorized person of the identification card. The record would include biometric and other data regarding the authorized person to aid in authentication. The communication network  50  may a wired network, a wireless network or a combination of both networks.  
         [0014]    When the identification card is presented to the mobile device  10 , the imager  12  first images the bar code data  15  and accesses the corresponding person record from the database  42 . The mobile device  10  is then aimed at a selected biometric feature of the person presenting the identification card and this feature is imaged. The imaged biometric is compared to the stored data by a processor which may be included in either the mobile device  10  or the server  40  and, based on the comparison, a determination is made as to whether the person presenting the identification card is the authorized person.  
         [0015]    One biometric feature which may be scanned for identification purposes is the iris of the presenter&#39;s eye. In this case, the imager  12  will include two separate light sources—a first visible light source for imaging the bar code data  15  and a near infrared light source for imaging the iris. As described in more detail below, this reduces reactions of the eye to the light making the reading of the biometric data more accurate and avoids irritating the subject&#39;s eye.  
         [0016]    [0016]FIG. 3 shows another exemplary system  1   b  according to the present invention. The system  1   b  includes a mobile device  10  including an imager  12  which is capable of reading a two-dimensional bar code. Furthermore, the mobile device  10  of the system  1   b  stores a database  45  storing records for a plurality of people. As the two-dimensional bar codes to be read by the mobile device  10  of the system  1   b,  may store the biometric data for the authorized user as well as other identification data, the mobile device  10  need not be connected to a server  40 . However, by connecting such a mobile device  10  to a remote server  40 , the system might be able to handle both identifications including one-dimensional and two-dimensional bar code data.  
         [0017]    [0017]FIG. 5 shows an exemplary embodiment of a method according to the present invention which will be explained below with reference to the system  1   a  of FIG. 2. In step  100 , the mobile device  10  scans bar code data  15   a  to obtain identification data corresponding to the authorized person of the identification including the bar code data  15   a . Once the identification data has been obtained, the mobile device  10  contacts the server  40  via the communications network  50  to obtain a record for the authorized person. As described above, the record stored in the database  42  may include prestored biometric data as well as other identification for the authorized person (step  102 ).  
         [0018]    In step  104 , the biometric data of the person presenting the identification is obtained using the same mobile unit  10 . In particular, the mobile unit  10  is aimed at a specific facial feature corresponding to the stored biometric data recognition data  20  and this feature of the person presenting the identification is imaged. For example, where the record for the authorized person includes biometric data on the iris, the mobile device  10  is aimed at the iris of the person presenting the identification and the iris is imaged using near infrared illumination. A selected portion of this image  25  corresponding to the biometric data stored in the record is then lifted from the entire image  30  or from a plurality of images  30 .  
         [0019]    As mentioned above, the mobile device  10  may include a dual-illumination system which allows operation of the mobile device  10  in a first mode to obtain the iris data  25  using illumination from outside the visible spectrum (e.g., near infrared) and in a second mode using visible light for reading the bar code data  15 . More specifically, in the first mode when obtaining iris data  25 , the mobile device may use a broadband near infrared spectrum (e.g., between 740 nm and 880 nm) to illuminate the iris of the person.  
         [0020]    One of the advantages of using the near infrared spectrum over the visible light for obtaining the iris data  25  is that the near infrared spectrum does not cause the pupil of the person being imaged to contract. Such contraction can degrade the quality of an iris scan. In addition, visible light directly aimed a person&#39;s iris is irritating. Near infrared spectrum light aimed in this manner is not unpleasant to the person being imaged. On the other hand, using visible light is preferred for reading the bar code  15  as the visible light produces a higher quality image of the data, while the near infrared light may not be able to read some inks that are used to generate bar code data  15 . Of course, if desired a single near infrared illumination source could be used for both iris and bar code imaging.  
         [0021]    [0021]FIG. 4 shows a mobile device  10  scanning an iris  28 . The mobile device  10  may be situated a particular distance d from the iris  28 . A separation S may be determined as a function of the distance d and a field of view (FoV) α which preferably should be approximately 12 degrees of offset (i.e., for a total of 24 degrees). When the mobile device  10  takes an image, this image includes relevant and irrelevant data. In particular, the relevant data may be at least a portion of the iris and the irrelevant data may be a region surrounding the iris. An image processing unit of the mobile device  10  would process the image and separate the relevant and irrelevant data.  
         [0022]    Table A, illustrated below, lists several options to obtain various resolutions using the mobile device  10 .  
                                                                                                                     TABLE A                                       Horizontal Pixels   640   800   1024   1280                        Iris Scanning                               Max Rd Distance   3.5″   4″   4.5″   5″           FoV   22.4   24.4   27.7   31       Barcode Scanning           Minimum 3.5″ Obj Rd Distance″   8.8″   8.1″   ″7.1   6.3″           Pixel Density (Pixels/Inch)   183   229   293   366                        Vertical Pixels   480   600   768   1024                        Facial Recognition                               Minimum read distance (7″ vertical)   24″   22″    19″    16″           max read distance (@ 20 dpi)   60″   92″   104″   115″                  
 
         [0023]    For example, the mobile deice  10  may include a VGA resolution sensor which may include a short range focus (e.g., 3.5″) and an FoV α of 22.4 degrees and a long range focus. This setup provides adequate pixel density across the small target. The long range focus may, e.g., be from 8.8″ out to infinity. Keeping the same FoV α simplifies the dual focus selection and allows a 3.5″ wide bar code  15  to be read using the 8.8″ focus. The facial recognition data  20 , which generally requires approximately 20 pixels per inch across 7 inches, may be obtained at a distance d ranging between 24″ and 60″ using the far focus.  
         [0024]    Once the image data corresponding to the stored biometric data has been obtained using the mobile device  10 , the image data is compared to the biometric data obtained form the database  42  to generate a deviation value (step  106 ). The deviation value is indicative of similarity of the biometric data and the image data. It is important to allow for a certain degree of deviation between these data sets as scans of the same biometric feature may result in slightly deviated data.  
         [0025]    The deviation value is then compared to a predetermined deviation value (step  108 ). For example, the system  1   a  may be set to authenticate the person only if the deviation data is less 2 on a scale between 1 and 10 where 1 indicates the biometric and the further biometric data is identical. If the predetermined deviation value is greater than the predetermined deviation value, the person is not authenticated (step  112 ). Otherwise, the person is authenticated (step  110 ).  
         [0026]    The method for the system  1   b  shown in FIG. 3 is substantially similar to the method described above with the exception of step  102 . The system  1   b  utilizes the two-dimensional bar code data  15   b  which can store biometric data of the person on the identification itself. This stored data can then be compared with data from an image of the person presenting the identification with no need to access the server  40  and the database  42 . In step  102 , the biometric data is extracted from the two-dimensional bar code  15   b  and is stored in the database  45  for comparing it with the further biometric data. The bar code  15   b  may, for example, be secured using a digital signature (e.g., a public/private key structure) and/or a conventional encryption system.  
         [0027]    Finally, it may happen that individuals requiring eyeglasses may be unable to focus on the aiming mechanism when their glasses have been removed. To allow for this, a display showing the area within the field of view of the imager  12  may be included in the mobile device  10 . This display may, for example, be an LCD screen or other know display. Furthermore, as would be understood by those skilled in the art, the device may include a distance sensor with audio or visual cues indicating when the subject is too close, too far, or properly positioned for the imaging process.  
         [0028]    There are many modifications to the present invention which will be apparent to those skilled in the art without departing form the teaching of the present invention. The embodiments disclosed herein are for illustrative purposes only and are not intended to describe the bounds of the present invention which is to be limited only by the scope of the claims appended hereto.