Image input device and method for providing scanning...

Image analysis – Applications – Document or print quality inspection

Reexamination Certificate

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Details

C382S275000, C250S208100, C358S464000

Reexamination Certificate

active

06198835

ABSTRACT:

FIELD OF THE PRESENT INVENTION
The present invention is directed to a system which generally scans original documents and converts these documents into electronic image data which can be utilized by a printing system to render the electronic image on a subsequent recording medium. More particularly, the present invention is directed to a system and method for detecting scanning artifacts which are produced during the conversion of the image on a scanned document into electronic image data.
BACKGROUND OF THE PRESENT INVENTION
In the reproduction of copies of an original document from video image data created, for example, by electronic input scanning from an original document, it is often desirable to provide functions dependent upon determining the exterior edges of the document. Such features include, for example, automatic magnification, automatic two-up copying, deletion of background image data which falls outside the detected exterior edges of the document, to avoid storing a document requiring more space than necessary, automatic location of the document in a scanning system, electronic deskewing of the electronic image, etc. In other words, to provide these features, the exterior edges of the document must somehow be detected by the scanning system.
Conventionally, to achieve this detection of the exterior edges of the original document, a background has been provided, for the original document, in the scanning system wherein the background provides a backdrop for the original document, such that the background has a tendency to be distinguishable from the original document. For example, backgrounds have been provided with a yellow color, a black color or a white color with a whiter than white color, a backing which fluoresces, and various other alternatives.
Although various alternatives have been utilized, it is most desirable to utilize a dark backing when scanning an original document so as to eliminate show through when scanning a double-sided or watermarked document. Thus, utilizing a light absorbing backing such as a black color, the scanning system can both eliminate show through when scanning the document and enable the scanning system or other downstream image processing system to automatically locate the exterior edges of the original document so that the various features discussed above can be readily implemented.
However, an undesirable consequence of using a light absorbing backing is that any defects in the original document; such as holes, rips, dog-ears, etc. or other characteristic properties of the original; such as pre-punched holes, etc.; appear as black objects when they are rendered and printed on a recording medium. In the following description, the defects in the original and the characteristic properties of the original will be generally referred to as defects; however, this notation does not imply that the physical properties of the original are actual defects, just properties that create artifacts in the scanning process which are undesirable. This problem can be readily seen from the explanation of
FIGS. 1 through 6
of the present application as presented below.
FIG. 1
illustrates a conventional platen scanning system wherein an original document
3
has a defect
5
such as a pre-punched hole. In this platen scanning system, an illumination device
9
provides illumination A which passes through platen glass
7
and defect
5
, so that it is reflected off of (or absorbed by) backing
2
of a document cover
1
as reflected light B. This reflected light B is sensed by a photoelectric system
11
comprising electronic sensors which convert the light energy into electronic image data. The photoelectric sensor system (“sensors”)
11
may be a charged couple device (CCD), a full width array sensor (FWA), or other photoelectric device which can operate in a black/white mode or a color mode.
As further illustrated in
FIG. 1
, if the illumination source
9
is moved to position C and the sensors
11
are moved to position D, the light generated from the illumination source
9
is reflected back off the document
3
through the platen glass
7
to the sensors
11
, so that the sensors
11
can create electric image data which represents an electronic version of the actual image on the document
3
.
In another scanning system, a constant velocity transport system (CVT), as illustrated in
FIG. 2
, a document
3
having a defect
5
is scanned by the scanning system. More specifically, as illustrated in
FIG. 2
, a light source
9
generates a light A which passes through a small platen glass
70
and further passes through the defect
5
in the document
3
. This light is reflected off the roller or ski
13
, which supports the document
3
against or in close proximity to the platen glass
70
, as reflected light B which is then received by sensor
11
. The CVT system further includes guides
17
and
19
(or alternatively a pair of rollers forming a drive nip therebetween) to guide the original document past the scanning station of platen glass
70
and roller or ski
13
. The roller or ski
13
is substantially enclosed in a cavity
15
having a particular backing
20
.
As the document is moved past the scanning system, as illustrated in
FIG. 3
, the defect
5
moves outside of the scanning area such that the light A generated from the light source
9
is incident upon the document
3
and the light reflected back as light B to the sensors
11
represents the actual image on document
3
.
In all of the above examples, when the conventional scanning system is scanning the area associated with the defect
5
, the sensors
11
are in actuality detecting light reflected from the object immediately behind the document; in the platen, the backing of the platen cover, and in the CVT case, the roller or ski
13
. However, when the conventional scanning system is scanning a non-defect area of the document
3
, the conventional scanning system is receiving light reflected from the actual image on the document
3
. In other words, the electronic image data produced from scanning the entire document
3
would include image data representing the area behind the document as well as the image itself.
For example, as shown in
FIG. 4
, an original document
3
may consist of an image
4
printed on three-hole pre-punched paper such that the three holes are represented by defect
5
. If this document is scanned by the conventional CVT system, as illustrated in
FIGS. 2 and 3
, wherein the objects and devices behind the document, such as a roller or ski
13
, and the cavity
15
are non-reflective, the recorded image
40
on a recording medium
30
would also include dark or black regions
50
(scanning artifacts) which correspond to the defects
5
in the original document
3
. On the other hand, as illustrated in
FIG. 6
, if the document of
FIG. 4
is scanned by a conventional platen system, as illustrated in
FIG. 1
, wherein the backing of the platen cover is white, but is dirty from use, has scratches or otherwise is not of a reflectance equivalent to the document background, it is conceivable that the original image region
4
is reproduced as image region
40
on a recording or display medium
30
, and that scanning artifacts may still be present in the form of regions
50
corresponding to the defects
5
of the original document
3
. If the platen cover backing was non-reflective, the resulting image would be the same as that illustrated in FIG.
5
.
Therefore, it is desirable to be able to scan in an original document having certain defects, as described above, and to ultimately render the image on a recording or display medium void of any evidence of the original defects. In other words, the rendered scanning artifacts
50
of
FIGS. 5 and 6
would be eliminated, notwithstanding the fact that the original document
3
included defects
5
. Moreover, it is desirable to render or display these images without the scanning artifacts and without sacrificing quality or mis-identifying image areas as scanning artifact areas.
SUMMARY OF THE PRESENT INVEN

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