Abstract:
A method of forming symbols, characters, and other images from a light polarizing material including machine readable indicia enabling automated identification of articles is disclosed. A light polarizing material is applied over a reflective layer in a machine readable pattern. The material may be an image imprinted on a label with a light polarizing material on a substrate such as a transparent oriented film. In one aspect, a mail processing system includes a computer including a database of destination codes corresponding to a plurality of mail pieces for delivery to at least some of the destination codes. A media applicator utilizes the database for generating and applying a light polarizing material to a label or article to form a machine readable indicia, including the destination code for each of the plurality of mail pieces. A mail sorting system utilizing the label includes a camera with polarized lenses for filtering light reflected from indicia formed from a light polarizing material on the label. A detector associated with each of the lenses for detecting reflected light and generating a signal in response thereto. Signals from the detector are compared by a computer that produces an electronic image or pattern corresponding to the machine readable indicia and generates a sorting signal based upon the indicia which is transmitted to a mail sorter where the mail pieces are sorted.

Description:
[0001]     This application is a division of U.S. patent application Ser. No. 10/033,735, filed Dec. 20, 2001 which claims priority based on U.S. Provisional Patent Application Ser. No. 60/258,986, filed Dec. 29, 2000. 
     
    
     TECHNICAL FIELD  
       [0002]     The present invention relates to the field of article identification methods and systems, and particularly to a label, system and method that provides a means of coding articles for identification, sorting and processing with minimal visual impact.  
       BACKGROUND OF THE INVENTION  
       [0003]     The system and method according to the invention may be advantageously applied in a variety of contexts where it is desired to label articles for identification with minimal impact on the appearance of the articles, for example items that have been specially wrapped for presentation, articles having critical information printed on an exterior surface, decorative items and the like. Another application in which the system and method of the invention may be advantageously utilized is in connection with mail piece labeling for automated processing.  
         [0004]     Modem postal services, for example, the U.S. Postal Service, handle massive volumes of mail pieces on a daily basis. Consequently, automated handling and sorting equipment is employed whenever and wherever possible to facilitate the sorting, processing and distribution of mail pieces. Such systems have been proven extremely effective in sorting large volume mail flows, but these systems have limitations. These systems may use either optical character recognition (OCR) technology to recognize the addresses or codes placed on the envelopes, or may use relatively simple scanners to scan a machine readable code such as a bar code which has been recorded or applied to each mail piece. The OCR/CS system often includes a printer for printing bar-code formatted ZIP codes (or similar codes) on envelopes or on labels applied to mail pieces so that each mail piece might be further sorted at local stations more efficiently. Typically, the mail pieces are coded and sorted according to a sort scheme into numerous groups (e.g. a range of ZIP codes, ZIP code (5 digits), ZIP code (9 digits), etc.).  
         [0005]     Facilitating the delivery of certain types of mass mailings is the process of presorting. A substantial percentage of the mail the USPS delivers on a regular basis consists of mass mailings. These mass mailings typically consist of advertisements, promotional materials, solicitations, bills and similar materials. Such mailings are printed, addressed or labeled in accordance with a presort scheme to aid in delivery of the mailings and/or presorted in some cases down to the delivery point. The presort scheme is normally by destination address and the mailings are presented to the national postal service accordingly. In many cases, the presort operation includes labeling or addressing the mail pieces with bar coded information such as the ZIP plus four code to facilitate down stream processing. Presort mailing often includes catalogues, brochures, magazines and similar items.  
         [0006]     Automated processing of presorted flats, such as magazines and catalogues presents certain mechanical and imaging problems not encountered in connection with automated processing of letters. Although in many cases these mail pieces will have a user-applied postnet bar code, problems are often encountered in locating the coded region of interest (ROI) on the cover of the flat. These problems include poor contrast ratios and partial obscuration due to printed backgrounds, label skew (rotation from horizontal or vertical alignment), and the large amount of printed information which often appears on the covers, including text and other bar codes, which tends to confuse high-speed algorithmic approaches to ROI finding.  
         [0007]     A solution for a portion of the mail stream is for the postal service to apply conventional paper labels on which a conventional bar code is then printed, thus ensuring consistent placement and, if necessary, the use of visual keys. However, a large percentage of the volume of flat mail consists of magazines and catalogues for which this is not a good solution.  
         [0008]     Publishers of magazines, catalogues, brochures and similar articles intended for mail delivery often spend large sums on the design, layout and content of the covers of such publications in order to achieve the desired visual impact on the recipient. High quality paper, elaborate design, layout and expensive reproduction techniques escalate the cost of catalogues and brochures that may be summarily discarded by the recipient. In many instances, the initial reaction of the recipient to the cover of a catalogue or similar publication will determine whether the recipient keeps the catalogue for further examination or immediately discards it as he or she sorts through that day&#39;s mail. If the visual appearance is degraded or the publisher&#39;s message is partially obscured by a label, the value of the mailing is reduced. Consequently, there is a great deal of resistance on the part of the distributors of such catalogues and magazines to any printing or labeling of the publications cover that might tend to detract from the cover&#39;s appearance and its visual impact on the consumer. Thus, the publishers and distributors of magazines, catalogues and brochures intended for mail delivery generally object to labeling of the cover of these publications with a typical printed stick-on bar coded label of the type used by postal and delivery services to aid in processing and sorting mailed items.  
         [0009]     Attempts to use fluorescent inks have met with little success due to problems with long drying times for such inks, smearing of the ink and poor contrast ratios with respect to the underlying substrate. The latter problem is associated with papers having high fluorescence, i.e., recycled papers.  
         [0010]     Thus there exists a need for a label and system that allows the use of techniques and processes for automated labeling and identification of articles designed to convey a distinct visual impression. This is particularly true of catalogues, magazines, brochures and similar publications intended for mail delivery where a system and method that allows information to be coded onto the publication with minimal visual impact on the cover of the publication would be highly desirable. The invention addresses this need with a label and labeling system having a minimal optical impact and reading system capable of reliably reading these labels.  
       SUMMARY OF THE INVENTION  
       [0011]     The invention provides a method for identifying articles including labeling the articles with a light polarizing material, the light polarizing material forming a machine readable indicia including a code for automated identification of the article. The light polarizing material is applied over a second, reflective material that reflects light through the light polarizing material to create or form an image from which the machine readable indicia may be reproduced. The image is reproduced by splitting, filtering and transmitting the reflected light to detectors that produce a plurality of electronic images which are compared by subtracting pixels.  
         [0012]     In one aspect, the method further includes utilizing a data base including a plurality of codes to apply a different machine readable indicia to different ones of the plurality of articles. Particular articles may be identified in this manner based upon the machine readable indicia applied to the article which corresponds to one of the plurality of identification codes.  
         [0013]     In another aspect, a machine readable indicia is formed on a plurality of labels from a light polarizing material applied over a reflective material that reflects light through the light polarizing material that can be filtered to produce a plurality of images. The machine readable indicia is reproducible by electronically comparing the images. The labels are applied to articles thereby enabling automated identification of the articles.  
         [0014]     In this respect, automated identification of the articles includes (1) exposing the machine readable indicia to a source of light, (2) dividing light reflected from the indicia into a plurality of beams, (3) filtering each of a plurality of the beams through a polarized filter offset from each of the other filters by a predetermined angle, (4) generating an electronic image from each of the filtered beams with a detector, and (5) comparing at least one of the electronic images to at least one other of the electronic images to reproduce an image corresponding to the indicia. In yet another aspect, the light polarizing material and the reflective material are transparent to visible light to minimize the visual impact of the label on the article.  
         [0015]     In yet another aspect, a labeling system according to the invention includes a plurality of labels including a machine readable indicia representing a unique code formed from a light polarizing material and wherein each of the labels includes a reflective layer and a substrate. The system includes a labeler for applying the labels to each of a plurality of articles whereby articles are uniquely identified with one of the codes. The codes are incorporated into database on a computer that represents the plurality of articles and in which the unique code for each of the labeled articles is stored. In one aspect the system includes a media applicator for applying a light polarizing material in a machine readable format to the substrate. Preferably, the applicator is a printer and the light polarizing material is a dichrotic ink.  
         [0016]     In yet another aspect, an automated article sorting system according to the invention includes a plurality of polarized lenses for filtering polarized light reflected from a label including machine readable indicia comprising a polarized material on the surface of an article conveyed past the lenses. A detector is provided for each of the lenses to detect reflected light transmitted through the polarized lens, creating an electronic image. The detector sends the signal to a computer that compares the signals from the detectors to reproduce a pattern corresponding to the machine readable indicia. The computer generates a sorting signal corresponding to the indicia that is transmitted to a sorter that sorts the articles based upon the signal received from the computer.  
         [0017]     In a preferred embodiment, each of the detectors is a charged coupled array that generates a digitalized electronic image from reflected light passing through one of the filters. Each of the digitalized images are compared by the computer on a pixel-by-pixel basis to at least one other different digitalized image to reproduce the machine readable indicia.  
         [0018]     The invention is particularly applicable to mail piece identification and handling. In this regard, the invention provides a method for identifying a mail piece by applying a machine readable indicia to the mail piece, the indicia including a destination or other code and optionally other printed information. The machine readable indicia is formed from a polarizing material with a reflective layer provided beneath the polarizing material to reflect polarized light back through the indicia, the reflected light comprising a machine detectable pattern including the printed code and/or other information. The method may also include the steps of (a) utilizing a data base including destination codes to apply the machine readable indicia to a plurality of mail pieces (b) preprinting a plurality of labels with a light polarizing material utilizing the database, the labels including a reflective layer for reflecting polarized light and wherein the reflected light comprises a machine detectable pattern corresponding to an entry in the data base and thus inferentially to the destination code of a mail piece.  
         [0019]     In this regard, the labels are exposed to a light source and the reflected light is separated with a beam splitter into a plurality of beams. Each of the plurality of beams is directed through a polarized filter and each filter is rotated with respect to each of the other filters by a predetermined angle, for example 60°. A detector such as a charged coupled array is used to generate an electronic image from each of the filtered beams and the electronic images are then compared to each of the other electronic images to isolate the image reflected from the indicia. In mail processing applications, the machine readable indicia may be a bar code such as Post Net code or a similar code including destination information for the mail piece. The system may also utilize materials which function as indicated only in infra-red or ultra-violet light so that the indicia and/or the substrate may be transparent to visible light, further reducing the visual impact of the indicia relative to the cover of the mail piece.  
         [0020]     In yet another aspect, the invention provides a mail processing system comprising a computer including a database of destination codes corresponding to a plurality of mail pieces for delivery to at least some of the destination codes. A media applicator coupled to the computer utilizes the database for generating machine readable indicia in the form of a light polarizing material, including the destination code for each of the plurality of mail pieces. The media applicator may be a printer wherein the machine readable indicia is imprinted with a dichroic ink on a label. The indicia may be also preprinted on labels which are then applied to the mail pieces with a label applicator. Alternatively, the label may be applied to the mail piece prior to printing.  
         [0021]     The invention also provides a mail sorting system including a plurality of polarized lenses for filtering polarized light reflected from a machine readable indicia formed from a light polarizing material. A detector, such as a charge coupled array, is associated with each of the lenses for detecting reflected light and generating a signal in response thereto. The signal is an electronic image of the mail piece using a selected bandwidth of light as viewed through the associated polarizing filter in the form of digitized electronic pixels. The signals from the charge coupled array are transmitted to a computer which compares the electronic images to detect a pattern corresponding to the machine readable indicia. In one embodiment, the computer creates three different images by subtracting the electronic pixels forming each image from the electronic pixels forming each of the other images. The clearest differential image may then be selected. Based upon the image of the indicia produced by the subtraction, the computer then generates a sorting signal corresponding to the indicia which is transmitted to a mail sorter where the mail pieces are sorted based upon the information contained in the indicia, for example, by destination code.  
         [0022]     These and other advantages and features of the invention will be readily apparent from the following Detailed Description and Drawings. 
     
    
     BRIEF DESCRIPTION OF THE DRAWINGS  
       [0023]     For a more complete understanding of the features and advantages of the present invention, reference is now made to the detailed description of the invention along with the accompanying figures in which corresponding numerals in the different figures refer to corresponding parts and in which:  
         [0024]      FIG. 1  is a top view of a mail piece bearing a label in accordance with the invention including machine readable indicia in the form of a bar code;  
         [0025]      FIG. 1 ( a ) is a cross section view of the mail piece and label of  FIG. 1  taken along lines a-a of  FIG. 1 ;  
         [0026]      FIG. 2  is a schematic diagram of a system for identifying mail pieces utilizing one embodiment of a method of the invention;  
         [0027]      FIG. 3  is a schematic of a system for sorting mail pieces utilizing the label and method of the invention;  
         [0028]      FIG. 4  is a schematic diagram of an alternate system for identifying mail pieces according to the invention;  
         [0029]      FIG. 5  is an illustration of a magazine cover bearing a label of the type of the invention;  
         [0030]      FIGS. 6   a - 6   c  illustrate images of the magazine cover formed from light reflected from the cover and filtered through polarizing filters;  
         [0031]      FIGS. 7   a - 7   c  illustrate images formed by comparing electronic images corresponding to  FIGS. 6   a - 6   c  and subtracting pixels of the images; and  
         [0032]      FIGS. 8-11  illustrate images of the magazine cover as filtered and compared in which the effect of variations in parameters are shown. 
     
    
     DETAILED DESCRIPTION OF THE INVENTION  
       [0033]     While the making and using of various embodiments of the present invention are discussed in detail below, it should be appreciated that the present invention provides many applicable inventive concepts which can be embodied in a wide variety of specific contexts. The specific embodiments discussed herein are merely illustrative of specific ways to make and use the invention and do not delimit the scope of the invention. In particular, while the invention is described in the context of mail piece identification and processing, it will be appreciated that the method and system described herein may be utilized in numerous other applications where it is desired to label items for the purposed of identification with minimal impact on the appearance of the article.  
         [0034]     Sunlight and most forms of artificial light are electromagnetic waves whose electric field vectors vibrate in all perpendicular planes containing or orthogonal to the vector which indicates the direction of propagation. When the electric field vectors of such radiation are restrained to a single plane, the light is said to be polarized relative to the direction of propagation and the electric field waves vibrate in the same plane. Light may be polarized to a certain degree when it is reflected from a surface such as water or a highway. In this case, light waves that have electric field vectors parallel to the reflecting surface are reflected to a greater degree than those with different orientations. Light may also be polarized through the use of certain filters. In one aspect, the invention takes advantage of the properties of light, in particular polarization, to provide a label and system for coding mail pieces and in particular pieces such as magazines, catalogues, brochures and similar items with a machine-readable code in a form that minimizes the visual impact of the label on the appearance of the cover of the publication.  
         [0035]     Referring now to  FIGS. 1 and 1 ( a ) there is illustrated a portion of a mail piece  10  such as a catalogue or magazine cover with a label  12  according to the invention applied thereto. In one embodiment, the label is formed from a non-opaque material such as a transparent polymer. Preferably, the label is formed from an oriented film such that a dichroic ink will form a polarized image on or in the film. “Dichroic” as used herein refers to the characteristic of differential absorption of incident radiation in the visual, UV, and IR spectrum depending upon the direction of vibration of the electromagnetic waves comprising the radiation. A “Dichroic ink” refers to an ink containing a dye or stain having molecules that tend to align with the molecules of a substrate, such as an oriented film, resulting in a substrate that will selectively absorb differently polarized components of an incident light beam. Such inks and techniques for applying such inks are known, for example U.S. Pat. No. 6,013,123 issued Jan. 11, 2000 to Scarpetti for “Inking Methods and Compositions for Production of Digitized Stereoscopic Polarizing Images” discusses the use and application of inks containing a dichroic dye, water and a humectant. Also, as used herein the term “light” encompasses radiation in the visible spectrum (“visible light”) as well as non-visible UV and IR radiation.  
         [0036]     As illustrated the label comprises a machine-readable indicia  14 , in this case a bar code printed with a dichroic ink. Alternatively, the portion  16  of the label  12  excluding bar code  14  may be printed with a dichroic ink, leaving the bar code as an unpolarized area. Positioned between label  12  and indicia  14  is a reflective layer  18  which as illustrated is coextensive with indicia  14  or, alternatively, with the larger surface  16 .  
         [0037]     The purpose of reflective layer  18  is to reflect incident light so as to provide sufficient contrast for the machine readable indicia  14 . The degree of opaqueness of reflective layer  18  is preferably maintained at a level sufficient to reflect enough light to contrast bar code  14  for the purpose of scanning as hereinafter described, while transmitting as much light as possible to minimize the visual impact of the label. Depending upon the particular application, reflective layer  18  may be formed from a number of known materials capable of reflecting light in the spectrum of interest, including light in the visible spectrum, infrared or near infrared and ultraviolet. For example, the reflective layer may be a plastic film including one or more additives that modify the optical properties of the film such that the desired spectrum is reflected from the film. In other applications, a metalized layer formed with known methods of applying an extremely thin layer of metal to a substrate such as plastic may be used. A metalized layer would be particularly suitable for labeling gift and decorative items covered with a metallic foil or where a metallic foil is used to protect an item from sunlight. In other applications the reflective layer may be silica or a similar material incorporated into a plastic film  
         [0038]     In one preferred embodiment, reflective layer  18  is partially transparent to visible light, thereby minimizing the visual impact of the label. The term “partially transparent” as used herein refers to the capability of a material to pass sufficient visible light to enable normal visual recognition of an underlying image. Thus, “partially transparent” may encompass materials allowing differing degrees of light transmission depending upon the particular application. While a translucent or partially transparent reflective layer  18  is preferable, it is not required for all applications. In some applications it may be desirable for reflective layer  18  to be opaque and colored to match an underlying surface and/or be coextensive with the entire area of label  12 .  
         [0039]     In one preferred embodiment, label  12  is formed from an oriented transparent plastic film with a transparent or translucent reflective layer  18  printed or applied to the label  12 . Machine readable indicia  14  is formed from a dichroic dye which is preferable fully transparent to visible light and constitutes a polarizing filter in the UV or IR wavelengths of light. In this case, the reflective layer  18  is formed from a material that is transparent to light in the visible spectrum (“visible light”) while reflecting light in the non-visible UV or IR spectrum. In this embodiment the visual impact of the label  12  upon the overall appearance of the labeled article is minimized.  
         [0040]     Referring now to  FIG. 2 , an apparatus  20  for preparing and applying labels according to the invention includes an applicator  22  which applies a reflective layer  18  ( FIGS. 1 and 1   a ) onto an oriented film  26  fed from roll  28 . In one embodiment, film  26  has been perforated along lines defining individual labels and an adhesive coating or layer has been applied to one side of the film for adhering the labels to an item or article to be labeled. After reflective layer  18  has been applied to the film, the film is then conveyed through a printer  30  that applies a bar code or other machine readable indicia  14  ( FIGS. 1 and 1   a ) representing a unique numeric or alpha numeric code to the label using a dichroic ink. One or more heaters  25  may be used to dry or cure the reflective layer as well as the ink. Heaters  25  may be forced air or radiant heaters depending upon the particular design and application. After printing and curing, the preprinted labels are re-wound into a roll  32  on winder  33  for subsequent use.  
         [0041]     Film  26  comprising preprinted labels  34  is fed to a labeling machine  36  from roll  32  along with a singulated stream of mail pieces  10 . Destination information for each of mail pieces  10  has been acquired by reference to a mailing list for the mail pieces, scanning the mail pieces for previously applied destination information, manual input of destination information or a combination of thereof and stored on computer  40 . The codes previously applied to labels  34  have also been transferred to and stored on computer  40 . As the mail pieces  10  are fed through labeling machine  36  a label having a unique code as previously described is applied to the mail piece and the code is associated with the record stored in computer  40  for that particular mail piece. Thus, the mail pieces can subsequently be identified, sorted and processed using the code imprinted on labels  34  along with the record of the mail piece stored on computer  40 . As will be appreciated, in this respect the invention may be particularly advantageous for use by mailers and/or presorters of magazines, brochures, catalogues and similar items having covers designed to convey a distinct visual impact.  
         [0042]     Turning now to  FIG. 3 , a sorting apparatus  41  for scanning and sorting mail pieces labeled as described above is illustrated. A stream of singulated mail pieces is fed from feeder  42  to conveyor  44  for processing in accordance with the invention. The location of the mail pieces on the conveyor may be monitored with one or more photocells (not shown) or by other conventional means so as to produce a signal for transmission to computer  40  for use in further processing of the mail stream. Additionally, an edger (not shown) may be incorporated into the apparatus  41  to ensure proper placement of the mail piece to enable scanning as hereinafter described.  
         [0043]     Singulated mail pieces  10  pass under light source  46  which directs a beam  48  of non-polarized visible or invisible, e.g., near-infrared light onto the mail piece  10 . Depending upon the reflective nature of the substrate, the illumination is chosen to be diffuse or beamed. Reflected light  50  from the mail piece  10  travels to camera  52  which includes one or more dividers such as beam splitters to generate three machine detectable beams  54  which are each directed to polarized filters  56 . The axis of each of polarized filters  56  is rotated sixty degrees (60°) relative to the axes of each of the other filters. The filtered beams  58  are directed to impinge upon a detector  60  such as a charge coupled array (CCD). Each of the charge coupled arrays generates a digitized electrical image of the mail piece  10  from the filtered beam  58  and transmits the electronic image  62  to a computer  64 .  
         [0044]     Computer  64  receives the electronic images  62  from each of the charge coupled arrays and compares the images. In one embodiment, computer  64  compares the images  62  by subtracting one image from another on a pixel-by-pixel basis. Ideally, when an un-polarized image is subtracted from another un-polarized image of the same subject, the resulting image will be completely black. Thus, when an unlabeled mail piece passes under the camera or scanner  52  the resultant electronic images  62  are all identical and the resulting combined electronic images will be entirely black.  
         [0045]     However, when a mail piece bearing a label according to the invention passes under the scanner  52 , the image of the polarized area of the label  12 , as observed via filtered beams  58 , will depend upon the alignment of the polarized portion or indicia  14  with respect to the axis of each of the polarized filters  56 . Computer  64  will therefore generate up to three images from the three electronic images  62  in which the polarized portion of the label  12  will appear white or nearly white, while the remainder of the image will be black. Computer  64  may be programmed to select the better images, combine images or other wise manipulate the images to create a high-contrast image.  
         [0046]     After computer  64  has subtracted the digitalized images, the result is an image in which the barcode or indicia  14  will appear white against a black background. In practice, minor misalignments and variations due to the application procedure, focusing and camera element alignment are observed. However, the high contrast white image against the background of black is sufficient to overcome such variations for the purpose of reading the indicia. Once the machine readable indicia  14  has been isolated as set forth above, the computer  64  may electronically scan or process the indicia using known techniques and read the printed code  14  for the particular mail piece  10 . Computer  64  then uses this information and a data base associating this code with a destination to send a sorting signal or information corresponding to the mail piece to a down stream conventional mail sorter or sorting equipment  66 , where the mail pieces  10  may be sorted by destination code or other criteria, with or without mail pieces originating from other sources, depending upon the particular application.  
         [0047]     Referring now to  FIG. 4 , there is illustrated an alternate system  70  for applying labels in accordance with a method of the invention to a plurality of mail pieces such as magazines, brochures or catalogues. Feeder  72  feeds a stream of singulated mail pieces  10  onto conveyor  74 . The location of the mail pieces on the conveyor may be monitored with one or more photocells (not shown) or by other conventional means so as to produce a signal for transmission to computer  76  which controls the process. A label applicator  78  applies a label, for example a piece of oriented transparent polymer film with a pre-applied adhesive, to each of the mail pieces  10  as the mail pieces are conveyed though the system  70 . In order to ensure placement of the label in the desired position, the mail piece may be edged, as is known in the art with an edger (not shown). As the mail pieces travel down the conveyor  74 , a reflective layer  18  ( FIGS. 1 and 2 ) is applied to the label, by for example, printing the layer  18  onto the label with a first media applicator  78 . As will be appreciated, the reflective layer  18  could have been previously applied to the label film, in which case, this operation could be eliminated.  
         [0048]     As the mail pieces travel further, a second media applicator  80  applies a machine readable indicia  14  ( FIGS. 1 and 2 ), by, for example, printing the indicia  14  over the reflective layer  18  with a dichroic ink. The machine readable indicia may include a destination code for the particular mail piece or some other code, symbols, or text to be used in subsequent handling or processing. A computer  82 , including a database  84  controls the operation of the second media applicator  80 , suppling the destination code from data, for example, a mailing list, stored in database  84 . In an alternative embodiment, second media applicator  80  may comprise a laser or UV light source, the light source imprinting a polarized or non-polarized indicia on a pre-sensitized or treated film label. In the case of a pre-sensitized polarized film, the light source may depolarize an area of the label corresponding to a machine readable indicia. In the alternative, the pre-treatment of the film may allow the laser to selectively polarize areas of the label corresponding to a desired indicia.  
         [0049]     Following application of a machine readable indicia  14  upon the label  12 , the mail pieces  10  are transported for further processing, for example stacking and bundling with stacker  66 . The labeled mail pieces may then be transported to a postal service sorting system which may use a scanning apparatus of the type described herein to readily sort the mail pieces  10  for delivery based upon the destination code printed on the label.  
         [0050]     As will be appreciated, numerous variations and permutations of the above-described process may prove advantageous. In the case where the address of the recipient is printed upon the mail piece, and an optical character scanner (OCR) may be used to read the information which could then be transmitted to the computer  82  for labeling purposes. It is also anticipated that the reflective layer could be pre-applied to the label film, or during production of the film.  
         [0051]     As will be appreciated, variations on the above system may be readily discerned. For example while the system is described as having a light divider that directs beams to a plurality of filters, multiple cameras may be used with different filters and filter configurations to produce the same result. Similarly purpose-built electronics and/or multiple computers or microprocessors may be employed to perform the various functions described above. These and other combinations and permutations are within the scope of the invention.  
         [0052]     In order to fully illustrate the principles of the invention, reference is now made to  FIGS. 5-11 . Turning first to  FIG. 5  there is shown the cover of a popular magazine as would be perceived by the human eye, including label  12 .  FIGS. 6   a,    6   b  and  6   c  correspond to the images as the images are captured by each of three 2048 pixel (from left to right) charge coupled arrays. As shown, the images are nearly identical except that the image of the bar code varies in brightness between the images.  FIGS. 7   a,    7   b  and  7   c  are the result of digitally subtracting each of the images of  FIGS. 6   a,    6   b  and  6   c  from each other, i.e.,  6   a - 6   b,    6   a - 6   c  and  6   b - 6   c.  In each of the images presented in  FIGS. 7   a - 7   c,  the only non-black portion of the image is the bar code and the brightness of the code in each of the images is a function of the brightness of the images in the particular pair of subtracted images. In operation, it is anticipated that all three images will be generated with one being selected for reading based upon its relative brightness.  
         [0053]      FIGS. 8-11  illustrate anticipated deviations from the ideal.  FIG. 8  shows the effect of a one-pixel shift horizontally combined with a one-pixel shift vertically to simulate the translational misalignment of two charge coupled arrays.  FIG. 9  illustrates the anticipated effect of a small rotational misalignment with the arc of the misalignment corresponding to a shift of one pixel at a corner of the image.  FIG. 10  shows the anticipated effect of a possible scaling error resulting from one of the charged coupled arrays observing a slightly larger image, i.e., 2 pixels along the horizontal axis, than observed by the other charge coupled arrays.  FIG. 11  illustrates the image resulting from a combination of the misalignments shown in  FIGS. 8-10 . As illustrated, while some of the background is not entirely black, the degree of contrast is still sufficient to enable scanning and reading the label. Thus, the label and system of the invention are capable of tolerating minor variations that may be encountered in manufacturing, imprinting and scanning operations without affecting the operation of the system.  
         [0054]     While this invention has been described with reference to illustrative embodiments, this description is not intended to be construed in a limiting sense. Various modifications and combinations of the illustrative embodiments, as well as other embodiments of the invention, will be apparent to persons skilled in the art upon reference to the description. It is, therefore, intended that the appended claims encompass any such modifications or embodiments.