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Claims  |
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What is claimed is:
1. A copying system modified to selectively control the reproduction of
information contained on an information bearing member comprising in
combination,
a copying device responsive to radiation within a predetermined region of
the spectrum,
an information bearing member having information and a first code formed
thereon,
means for generating radiation of a first wavelength and directing said
radiation to said information bearing member,
a reference transparency positioned in the path of the radiation
transmitted from said information bearing member, said reference
transparency comprising a second code which is correlated with a
predetermined code,
means responsive to the radiation transmitted through said reference
transparency for generating a control signal when said first code is said
predetermined code and not generating a signal when said first code is not
said predetermined code, and
means coupled to said responsive means and operatively associated with said
copying device for enabling said copying device to reproduce the
information on said information bearing member when said control signal is
generated by said responsive means and for inhibiting said copying device
from reproducing said information when a control signal is not generated
by said responsive means.
2. The system defined in claim 1 wherein said first and second codes
comprise a random, high resolution diffraction pattern of transparent and
opaque areas.
3. The system as defined in claim 1 wherein said first code comprises a
random, high resolution diffraction pattern of reflective and
non-reflective areas and said second code comprises a random, high
resolution diffraction pattern of transparent and opaque areas.
4. The system as defined in claim 1 wherein said information receiving
member has a coded portion thereon.
5. The system as defined in claim 1 further including means for exposing
said information bearing member to radiation which is different than said
first wavelength when said copying device is enabled, said copying device
being responsive to said different radiation, whereby said information is
copied onto said information receiving member.
6. The system as defined in claim 5 wherein said first code is not
reproduced on said image receiving member.
7. The system as defined in claim 1 wherein said first code comprises a
plurality of indentical random patterns.
8. The system as defined in claim 1 wherein said responsive means comprises
a radiation sensitive device responsive to the radiation transmitted
through said reference transparency and incident on a selected area in a
correlation plane and which generates an electrical signal the magnitude
of which is proportional to the intensity of the transmitted radiation and
logic means coupled to said radiation sensitive device for genenrating
said control signal only when said second code is correlated with said
first code and not generating a control signal if correlation is not
present.
9. The system as defined in claim 8 wherein said control signal is
operatively coupled to interlock means within the copying device, the
absence of said control signal inhibiting operation of said copying
device.
10. A method for controlling a copying device whereby the reproduction of
information contained on an information bearing member is selectively
controlled comprising the steps of:
providing an information bearing member having information and a first code
formed thereon,
generating radiation of a first wavelength and directing said radiation to
said information bearing member,
positioning a reference transparency in the path of the radiation
transmitted from said information bearing member, said reference
transparency comprising a second code which is correlated with a
predetermined code,
generatng a control signal in response to the radiation transmitted through
said reference transparency when said first code is said predetermined
code and not generating a control signal when said first code is not said
predetermined code, and
enabling said copying device to reproduce the information on said
information bearing member when said control signal is generated and for
inhibiting said copying device from reproducing said information when said
control signal is not generated.
11. The method as defined in claim 10 wherein said first and second codes
comprise a random, high resolution diffraction pattern of transparent and
opaque areas.
12. The method as defined in claim 10 wherein said first code comprises a
random, high resolution diffraction pattern of reflective and
non-reflective areas and said second code comprises a random, high
resolution diffraction pattern of transparent and opaque areas.
13. The method as defined in claim 10 further including the step of
reproducing said information on an information receiving member.
14. The method as defined in claim 13 further including the step of
exposing said information bearing member to radiation having a wavelength
which is different than said first wavelength when said copying device is
enabled, said copying device being responsive to said different radiation,
whereby said information is copied onto said information receiving member.
15. The method as defined in claim 14 wherein said first code is not
reproduced on said image receiving member.
16. The method as defined in claim 10 wherein said first code comprises a
plurality of identical random patterns.
17. The method as defined in claim 10 wherein said control signal is
operatively coupled to interlock means within the copying device, the
absence of said control signal inhibiting operation of said copying
device.
18. The systems as defined in claim 1 wherein said copying device
reproduces the information contained on said information bearing member
onto an information receiving member.
19. The method as defined in claim 13 wherein said information receiving
member has a coded portion thereon.
20. For use with a copying device which is responsive to radiation within a
predetermined region of the spectrum, said copying device reproducing
information contained on an information bearing member onto an information
receiving member, apparatus for selectively controlling the operation of
said copying device comprising:
means for generating radiation of a first wavelength and directing said
radiation to said information bearing member, said information bearing
member having information and a first code thereon,
a reference transparency positioned in the path of the radiation
transmitted from said information bearing member, said reference
transparency comprising a second code which is correlated with a
predetermined code,
means responsive to the radiation transmitted through said reference
transparency for generating a control signal when said first code is said
predetermined code and not generating a control signal when said first
code is not said predetermined code, and
means responsive to said control signal and operatively associated with the
copying device whereby the operation thereof is controlled, the copying
device being enabled to reproduce the information on said information
bearing member when said control signal is generated by said radiation
responsive means and said copy device being inhibited from reproducing
said information when a control signal is not generated by said radiation
responsive means.
21. The apparatus as defined in claim 20 wherein said radiation responsive
means comprises a radiation sensitive device responsive to the radiation
transmitted through said reference transparency and incident on a selected
area in a correlation plane and which generates an electrical signal the
magnitude of which is proportional to the intensity of the transmitted
radiation and logic means coupled to said radiation sensitive device for
generating said control signal only when said second code is correlated
with said first code and not generating a control signal if correlation is
not present.
22. The apparatus as defined in claim 21 wherein said means operatively
associated with said copying device comprises interlock means. |
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Claims |
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Description |
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BACKGROUND OF THE INVENTION
The widespread use of copier/duplication machines in recent years has
caused obvious problems associated with the ease and convenience of making
copies of documents with these machines. For example, situations arise
wherein it is desired that particular documents should not be reproduced
or should be reproduced only by members of a defined control group. In
particular, a document may contain information of a confidential or
classified nature, the contents of which are meant to be restricted to a
few individuals or only one individual. Further, the problem of
unauthorized copying of copyrighted materials has not, at this date, been
successfully addressed.
The prior art has generated various techniques which have sought to prevent
unauthorized copying of documents, particularly in view of the
proliferation of copying machines which makes it extremely easy to
reproduce almost any document. One prior art technique relies on reducing
the spectral contrast of the information on the selected document when it
is being copied while maintaining the readability of the document without
utilizing peripheral equipment. In particular, U.S. Pat. No. 3,713,861
discloses a technique wherein light emanating from the exposure source is
directed to the surface of a document, the surface having been overcoated
with a selected fluorescent film, the entire document fluorescing when
irradiated by the light thereby eliminating contrast (and therefore no
image impression) on the copy. The disadvantage to this technique is that
a fluorescent coating must be selected and applied to each document to be
made copy-proof, the attendant handling procedures causing obvious
problems. Further, the fluorescent coating must be selected to absorb most
of the radiation emitted from the exposure light source. In this case, if
a document is coated with a fluorescent material which absorbs radiation
in the region between 5100-5350 and the light emitted by the exposure
light source is in the region between 5100-5500A., the disclosed system
would be effective. However, if the copying device utilizes an exposure
source emitting radiation in a region greater than 6000A., the system
would be ineffective.
Another prior art technique prints specularly reflective patterns or
spectral background on a document with a particularly colored ink (i.e.,
blue or yellow). However, this technique is only effective with copying
machines having a limited spectral response.
In general, however, as the spectral response of copying machines improves,
it becomes increasingly difficult to produce non-copyable documents which
can be easily read without peripheral equipment.
Another solution to the problems suggested by the aforementioned patent is
to make the master copy on an outsized paper, thereby making it difficult
to reproduce master copies because they would not conform easily to the
exposure station of conventional copying machines. The solution is
impractical from a handling and expense point of view since special paper
will have to be cut and images enlarged or reduced for placement on the
copier, and copying is not prevented but only made inconvenient.
A proposed technique to solve the aforementioned problem would be to modify
existing copying machines whereby an event would be triggered when a
sensitive document is to be copied. This sytem requires that the original
documents have a code, or signature, which the modified copy machine can
recognize. Typical codes include either visible or invisible codes,
patterns, or marks written with materials that can be identified by any of
the following characteristics: ultraviolet or infrared radiation, visual
reflective or transmissive, magnetic, electrostatic or chemical. For
example, a chemical additive could be added to the sensitive document
paper which could be chemically "sniffed" by apparatus in the copying
machine. A drawback in the use of a code recognition copying system as
proposed in the prior art would be that the system would be complex and
expensive to make.
Therefore, copying machine inexpensively modified to optically respond to
codes on a sensitive document would be desirable. In particular, a
technique which optically correlates an image from an optically patterned
document with a comparison image, and detects a correlation signal which
is used to inhibit and/or control copying of a non-conforming document and
would be simply incorporated in existing copying machines would be an
advance in the prior art.
SUMMARY OF THE PRESENT INVENTION
The present invention provides a simple optical correlation system for
preventing unauthorized copying of selected documents which overcomes the
problems of the prior art described hereinabove. In particular, the
documents (and copy paper) comprise paper having coded information thereon
(visible or invisible) which is optically correlated with a protection
device within the copying machine. When light emanating from the exposure
light source is directed to the document, light transmitted from the coded
area of the document is sensed by optical detectors within the machine. A
reference pattern is positioned between the document and the optical
detectors. When the document code and the reference pattern are
correlated, the output signal from the reference document is detected and
coupled to an appropriate logic circuitry wherein the copying machine is
allowed to initiate a copying sequence. If the code on the document and
the pattern on the reference document are not correlated, the copying
machine is inhibited from operation.
The present system is thus distinct from copy prevention techniques wherein
special features are added only to the documents to be protected thereby
preventing only copying of these documents. The special feature additions
to the copiers allows for a higher control including accountability for
royalty payments, executive override, etc. albeit the system disclosed is
only effective when copiers are modified in accordance with the system
described. This is particularly suitable for those areas wherein a measure
of administrative control is essential and where limited access to copy
areas may be acceptable or is required.
OBJECTS OF THE INVENTION
It is an object of the present invention to provide method and apparatus
for inhibiting copying of documents which are not coded in a predetermined
manner.
It is a further object of the present invention to provide a copying
machine which utilizes optical correlation techniques to prevent copying
of predetermined documents.
It is still a further object of the present invention to provide apparatus
which utilizes optical correlation techniques to prevent copying of
document originals and copies thereof which are not coded in a
predetermined manner.
It is still a further object of the present invention to provide copying
apparatus modified to incorporate optical correlation techniques therein,
a coded document being exposed to light from an exposure source, the light
emanating from the coded portions of the document being directed to an
optical reference having a pattern optically correlated to the document
code. If correlation is present, an optical signal is transmitted by the
reference and detected, the detected output signal being processed by
electronic techniques to allow copying of the document.
DESCRIPTION OF THE DRAWINGS
For a better understanding of the invention as well as other objects and
further features thereof, reference is made to the following description
which is to be read in conjunction with the following drawing wherein:
FIG. 1 illustrates apparatus for implementing a first embodiment of the
present invention;
FIG. 2a and 2b illustrate a typical code formed on the document and
reference transparency, respectively, the code being shown in detail in
FIG. 2c;
FIG. 3 is a graph illustrating reflectivity characteristics;
FIG. 4 shows a typical output formed at the correlation plane;
FIG. 5 shows apparatus for converting the output at the correlation plane
into a copy enable signal;
FIG. 6 illustrates apparatus for implementing a second embodiment oof th
present invention; and
FIG. 7 schematically illustrates how the copy enable signal generated by
the apparatus shown in FIG. 1 and FIG. 6 controls the operation of a
copying machine.
DESCRIPTION OF THE PREFERRED EMBODIMENTS
Referring now to FIG. 1, a first embodiment of the present invention is
illustrated. A document 10, having a predetermined code, or signature,
such as a watermark, thereon is placed on the exposure plates of the
copying machine to be utilized and is exposed to radiation from exposure
sources 12 and 14. Although in the embodiment illustrated document 10 is
substantially opaque, document 10 obviously may comprise a transparancy
(in this case, the radiation emanating from the exposure sources would be
transmitted through the document for further processing). The radiation
reflected from document 10 (and the code thereon) is imaged by imaging
lens 16 through a spectral filter 18 which only passes radiation of a
predetermined spectral content. The radiation transmitted through lens 16
and spectral filter 18 forms a virtual image of document 10 at plane P1.
Optical energy from the virtual image at P1 in turn is redirected by field
lens 20 through a reference transparency 22, which forms a correlation
pattern at plane P2 by introducing a transform of the code as an optical
transparency. When optical correlation is present, this correlation
pattern will be characterized by an intense point of radiation (a point of
light if the exposure radiation was visible light) on a uniform / / / / /
background of lower brightness. A photodetector array 24 is positioned at
plane P2 and generates an electrical output signal which is proportional
to the intensity distribution of the radiation incident thereupon. The
output of the photodetector is coupled to logic circuitry 26 which
generates an output signal on lead 28 when it determines that correlation
exists between the coded document 10 and the reference transparency 22. As
set forth hereinafter, the signal on lead 28 is utilized to enable the
copying machine embodying the apparatus of FIG. 1 if the information on
document 10 is correlated with the information on reference transparency
22. The apparatus shown in the figure is adapted for use in those copying
machines in which light exposure is required such as in those machines
using the xerographic process. The apparatus shown in the figure should be
positioned in a manner whereby the actual copying process can proceed
without interference with the additional apparatus illustrated.
An appropriately positioned photodetector array along the plane P2 can be
utilized to detect the presence of a pattern on document 10 and also to
indicate its location thereon. When the pattern on document 10 is
equivalent to the pattern on reference transparency 22, a signal above a
predetermined threshold is detected by the array 24 and transmitted via
logic circuitry 26 and lead 28 to the copy enable system with the copying
machine. The detected signal is of greater intensity at the optical axis
of the photodetector elements. Since the system is shift invariant, there
is no need to align the pattern on document 10 and reference transparency
22 as long as they are within the defined optical system.
The photodetector array comprises a plurality of photodetectors, or
photodiodes, which convert an optical signal into an electrical signal on
lead 25 for identification by logic circuitry 26. The number of
photodetectors depends on the correlogram resolution required which in
turn is dependent upon security requirements. As will be explained
hereinafter with reference to FIG. 2a and 2b, if five reference patterns
are included on the document (and reference transparency), five
photodetectors should be provided. A simplified embodiment of the logic
circuitry which may be utilized is shown in FIG. 5 although more complex
means such as a digital computer programmed to recognize when the desired
pattern has been identified may be utilized. The individual photodetectors
may be interrogated in a conventional manner in a timewise or stepwise
sequence to determine the presence or absence of an electrical signal
which in turn indicates whether a particular pattern has been identified.
In summary, the reference transparency 22 is a minified copy of the pattern
to be recognized. If the reference transparency 22 contains the pattern to
be recognized, light exceeding some predetermined threshold value will be
projected upon the output plane P2. If the pattern is not included on the
reference transparency 22, the light projected therethrough will be so
dispersed as to have an intensity that remains below the predetermined
threshold.
FIG. 2a illustrates a pattern 29 which may be formed on document 10 for
identification purposes.
Pattern 29, shown in detail in FIG. 2c, comprises a random, high resolution
diffraction pattern of black and white areas which may be produced by
focusing a laser spot onto a ground glass screen, the laser light being
allowed to diverge onto the screen, the resultant pattern thereafter being
photographed. The pattern is subsequently printed on paper stock, the
paper stock being utilized for documents which are to be controlled in
accordance with the teachings of the present invention. The photographed
pattern is, by standard techniques, utilized to form the reference
transparency 22 wherein opaque and transparent areas corresponding to the
pattern are formed. In a preferred embodiment, the random pattern is
printed on the paper stock in an ink which appears black and white in the
near infrared spectral region but which appears white through out the
visible spectral region for the reasons set forth hereinbelow with
reference to FIG. 5.
FIG. 2b shows pattern 29 formed along a single row, five column array on
reference transparency 22 although various other pattern configurations
may be utilized.
Random pattern 29 alternately may be produced by displaying white noise
generated by a computer program on a cathode ray tube and then
photographing the displayed pattern or by photographing sandpaper
illuminated by light having a relatively small (shallow) angle of
incidence.
A mechanical device may be provided for sequentially moving various
patterns formed on a continuous film in order to form a variable reference
transparency whereby a different pattern (code) can automatically be
inserted into the copying machine. Alternately, the reference transparency
22 can be manually replaced if desired.
The system as set forth in FIG. 1 allows the simultaneous identification of
an input code having a plurality of identical reference patterns.
Alternatively, an input code having difference patterns thereon may be
indentified with a set of transparencies each of which is capable of
recognizing each distinct pattern. This identification procedure would
produce output signals which would permit identification of the complete
pattern. This can be accomplished by sequentially introducing into the
system the proper reference transparency 22 which would be needed to
identify the specified code pattern. In this situation, the photodetector
array could be replaced with a single photodetector.
It should be noted that the pattern may be printed on the document in ink
which is invisible to the exposure light utilized but possessing high
contrast at longer wavelengths. In this regard, FIG. 3 illustrates an
optical reflectivity graph, line curve 40 representing the reflectivity of
ink used to print the pattern (code). The spectral region a (blue through
red) indicates a typical response curve for a xerographic photoreceptor.
Therefore, if ink having the optical reflectivity characteristic
represented by line curve 42 is written on document 10 and a radiation
source which generates radiation in the spectral region b is used to scan
document 10 for correlation purposes, a copy enable signal will appear on
lead 28 if there is optical correlation, the document being copied without
the code visibly appearing. Marking the code with the ink as set forth
hereinabove requires two exposure sources, (or, equivalently, a single
source which generates radiation in both spectral regions a and b), the
first to scan the document with radiation in spectral region b and a
second scan for copying purposes with light in the spectral region a when
a copy enable signal is present on lead 28.
FIG. 4 illustrates the output appearing at plane P2 if correlation has been
detected. In particular, an array of intense points of radiation 50, 52, .
. . 58 on a uniform background of lower brightness is shown, the array of
radiation points corresponding to the array of reference patterns shown in
FIGS. 2a and 2b.
FIG. 5 illustrates a simplified logic circuit arrangement which may be
utilized to generate an electrical output signal on lead 28 (FIG. 1) when
correlation is present. In particular, a vidicon 60, responsive to the
selected exposure radiation, is provided in place of the photodetector
array 24 to scan a portion of correlogram plane P2. If a point of
radiation is present in the scanned portion, the radiation point is
converted to an electrical pulse 62 which is coupled to lead 28 via DC
blocking capacitor 64. The capacitor 64, acting as a logic element, only
passes the electrical pulses which correspond to the scanned points of
radiation while blocking electrical signals, such as noise, in the
portions of the scanned plane P2 which do not contain the points of
radiation.
Referring to FIG. 4, the scanned portion of plane P2 may comprise a
circular area which, as shown, encompasses radiation point 56. Utilizing
an array of reference patterns (and the correspondingly generated array of
light points) allows correlation to be detected although the document and
reference transparency may be misaligned.
FIG. 6 illustrates a second embodiment of the invention wherein lensless
geometrical correlation techniques are utilized to achieve optical
correlation. It should be noted that in lieu of the geometrical
correlation techniques set forth in with reference to FIGS. 1 and 6,
coherent Fourier transform techniques which require relatively complex
optical parameters may be utilized.
The rays of radiation 70 and 72 produced from radiation sources 74 and 76
respectively, are directed to the surface of document 78, the document 78
having a reference pattern, or code, thereon as described hereinabove. The
rays of light which are reflected from the bright areas on the document 78
are transmitted through corresponding transparent areas of the reference
transparency 80, reference transparency 80 being a minified copy of the
code expected on document 78, the rays intersecting at the common point
(actually a line into the paper) 82 for correlation in two dimensions in
correlation plane P2. Reference transparency 80 has regions which are
transparent or opaque and preferably comprises the random pattern shown in
FIG. 2C. A spectral filter 84 may be interposed between the light rays
exiting from reference transparency 80 and the correlogram plane P2. A
linear photo diode detector array 86, or a vidicon as set forth
hereinabove, is positioned adjacent the other side of spectral filter 84
and generates an electrical signal which is proportional to the intensity
of the light incident thereon. When correlation exists, all rays from
points in document 78 which transit corresponding points in reference
transparency 80 will intersect at point 82 in the plane P2. The intensity
at point 82 will be unchanged if reference 80 were removed since reference
80 blocks no rays from document 78. All other points in plane P2 will,
however, be reduced in intensity by the presence of reference transparency
80. Correlation of document 78 with reference 80 will therefore be
indicated by an intensity spike 87 at point 82 (shown at the right-hand
portion of the figure). The optical pattern detected on the linear
detector array 86 is read out in serial fashion subsequent to the initial
exposure of document 78. The relative spike position in the output signal
then drives logic circuitry 88 in a manner as set forth hereinabove above.
Absence of an output signal on line 90 indicates that the copying machine
is to be disabled and copying inhibited.
Copy lens 94, which is utilized in the machine copying mode, is shown in
the normal copying position. As shown, the light rays reflected from
document 78 are directed below copy lens 94 (off-axis) so that the normal
copying mode of machine operation would not be interfered with when a
signal appears on copy enable line 90.
Image correlation is ideally suited to recognize large area patterns which
may have fine grain detail. Further, image correlation can recognize a
class of variants, as for example, the superposition of two or more
identical codes having relative lateral translation. Further, the code may
itself be masked by superfluous markings without loss of detectability of
the desired code.
Preferably, the code markings should be black and white within the spectral
band being utilized, as set forth hereinabove, and can be located at any
position on the document or copy paper. Further, in order to provide the
feature of attitude insensitivity, the code, or pattern, could be
circularly symmetrical.
One-dimensional patterns offer a potential economy in hardware since only a
single linear array of detectors, in one embodiment, are needed to detect
and identify the pattern, such a pattern taking the form of long, straight
lines extending the width (or length) of the document. Hardware
advantages, however, should be compared with the disadvantage of loss of
attitude insensitivity. Since the pattern is insensitive to the exact
position on the document, more than one pattern may be included on the
paper length (or width) as set forth hereinabove. The number of detector
elements depend on the correlogram resolution required which in turn is
dependent upon security requirements.
The copy enable signal, as set forth hereinabove, determines whether or not
the copying machine is activated for copying. Generally speaking, most
copying machines presently available have interlock systems therein
wherein the copyinng machine is operative only if certain conditions are
present. For example, in U.S. Pat. No. 3,355,236, before the copying
apparatus disclosed therein can be actuated, the doors of the cabinet
enclosing the system must be closed to actuate particular interlock
switches (see FIG. 17 in the U.S. Pat. No. 3,355,236) which are used so
that the machine may be operated only when the doors of the cabinet are
closed. In this patent, a further interlock switch is positioned on the
conveyor lamp housing which can only be actuated by closing the lamp
housing. Therefore, in order to modify the copying apparatus in accordance
with the teachings of the present invention, the copy enable signal is
utilized to operate a relay circuit which includes a relay contact in the
interlock system disclosed in FIG. 17 of U.S. Pat. No. 3,355,236. FIG. 7
is a simplified drawing of a portion of FIG. 17 illustrating how the copy
enable signal generated on leads 28 (FIG. 1) or 90 (FIG. 6) can control
the operation of a copying machine modified in accordancce with the
teachings of the present invention. The relay driver 92 which controls the
operation of relay 95, is energized when a copy enable signal is present
on lead 90 (or lead 28). Relay contact 96 (considered to be an interlock
switch in accordance with the terminology used in the aforementioned
patent) is normally open at position a (the relay 94 is normally
inoperative) thereby inhibiting the operation of the copying apparatus.
When the copy enable signal is present, relay driver 92 is energized,
causing relay contract 96 to move to terminal b, thereby allowing the
copying machine to be operative, assuming that all the other interlock
switches are similarly closed.
Obviously, other copying machines may be similarly modified to be
responsive to the presence or absence of the copy enable signal whereby
control of document copying is obtained.
While the invention has been described with reference to its preferred
embodiment, it will be understood by those skilled in the art that various
changes may be made and equivalents substituted for elements thereof
without departing from the true spirit and scope of the invention. In
addition, many modifications may be made to adapt a particular situation
or material to the teachings of the invention without departing from its
essential teachings.
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