NL9200329A - Method and apparatus for reading in line-wise image information - Google Patents

Abstract

The invention relates to a method and an apparatus for reading in line-wise image information composed of defined characters, such as text, by moving a scanner in the line direction across the information carrier and feeding the image signals obtained in the process to a computer into which a recognition programme has been loaded. The special feature of the method and apparatus proposed by the invention is that scanning takes place in accordance with information blocks which are consecutive in the line direction and whose height is substantially greater than the (greatest) height of a character and whose length (measured in the scanning or line direction) covers a plurality of characters, images being recorded of these blocks successively at times determined by the scan rate, so that a certain overlap occurs between successive images. <IMAGE>

Description

Short indication: Method and device for reading in line-placed image information

The invention relates to a method for reading image information, such as text, arranged on a line, composed of defined characters, by moving a sensor in the control direction over the data carrier and supplying the image signals obtained thereby to a computer loaded with a recognition program .

Such a method is known from WD 88/02586, wherein scanning in the control direction takes place with a scanner operating according to the line scanner type, in other words scanning the image information along successive lines running perpendicular to the scanning direction and the signals obtained thereby. collects for later reconstruction of the recorded image information.

The drawback here is that it is difficult to move the scanner accurately in a straight line and accurately in the control direction, and that as a result, distortions with respect to the original image information take place when reconstructing the scanned image information. Already relatively small deviations can lead to distortions of the unit characters such that recognition thereof becomes problematic.

The object of the invention is to meet this drawback. The method proposed for this purpose by the invention is characterized in that the scanning takes place according to information blocks successive in the control direction, the height of which is substantially greater than the (largest) height of a character and the (measured in the scanning or control direction). length comprises several characters, of which blocks image images are successively made at times determined by the scanning speed, such that a certain overlap takes place between successive images.

In the method according to the invention blocks of signals are thus supplied to the computer for interpretation by successive snapshots of complete parts of a text line to be scanned. The coherence of the signals within each block accurately corresponds to the actual appearance of the set of characters represented by the block.

A scan which is not purely straight or in the correct direction will therefore not lead to distortion of the image information when using the method according to the invention. The application of a certain overlap between each pair of consecutive images also avoids that the computer should interpret incomplete characters occurring on the edges of adjacent blocks and compose them into a complete character. Such incomplete tokens can be easily ignored, while it is otherwise easy for the computer to take into account the presence of an overlap and to determine when even a complete character should be ignored. The latter can occur when the first complete character cp a signal block corresponds to the last complete character on the previous block. The read-in information can thus be easily and accurately reconstructed from the signal blocks produced during the scanning.

The method according to the invention is therefore also particularly suitable for reading music writing. More generally, the method according to the invention is applicable everywhere where small parts of a text or several scattered text parts (e.g. a text line, word or number) must be read.

It should be noted that the term "image information placed on the line" should be broadly encompassed and this includes, inter alia, a text column.

The invention also relates to a device for carrying out the above-described method, which device is provided with a housing with a bearing support surface for placing on the information carrier, a window present in the bearing support surface, and a window via the window light source to be directed, means for recording light reflected from the carrier, and means for converting light signals into signals recognizable for one watt and which device is characterized in that the means for recording light reflected by the carrier are formed by a matrix image sensor.

This means that, in contrast to the so-called line scanners, the device according to the invention in fact scans according to two mutually perpendicular line sections simultaneously. In this case blocks of information are thus always stored, the block size of which is determined by the dimensions of the window present in the housing and by the size of the matrix image sensor.

It is noted that matrix image sensors are known per se with electronic cameras.

According to a further feature of the invention, a means co-operating with the matrix image sensor for measuring the information on the information carrier is present in order to be able to record information in a simple manner and to compose it again into the complete image. distance traveled to deliver an excitation signal to the matrix image sensor when a predetermined distance has been traveled.

In a practical embodiment, this means is constituted by a measuring wheel carried by the housing, in use rolling over the information carrier, which has substantially radially extending through slots and is arranged between a lidit source and a receiver for detecting light falling through the slots . The measuring wheel can be retractably mounted in the housing against spring action. When the scanner is placed on the data carrier, the measuring wheel will thereby be pushed back into the cpleg support surface of the housing to an active position in which an electrical contact is closed, which supplies the power of an electrical control circuit containing the matrix image sensor. turns on and, if desired, outputs the first signal for taking an image.

The device according to the invention is easy to handle, and offers, in addition to the advantage, that no distortions occur when scanning the image information and converting it into electrical signals, in particular the advantage that it is possible to work with considerably higher scanning speeds compared to the known line values. scanners.

The invention is explained in more detail below with reference to the drawing with an exemplary embodiment.

Fig. IA and 1B show resp. a side view and a front view of a hand scanner according to the invention in a version as a reading pen; Fig. 2 shows a block diagram with the hand scanner according to Fig. 1; and Figures 3A and 3B show on an enlarged scale three successive image recordings of a text line made according to the method according to the invention, in which Figure 3A shows the image recordings in overlapping context, while the three recordings in Figure 3B are side by side without overlapping. are displayed.

In Fig. 1A-B, 1 denotes the housing of the hand scanner, within which a light source 2 and a reflector 3 are located. In use, the light emitted by the light source 2 (the power supply of which is not shown in more detail) is received by the reflector 3 and is thrown via a window present in the bottom of the housing 1 on the information carrier located below it. The housing 1 is provided at the front with an aiming nose 4 as an orientation means when the scanner is moved over the information carrier.

A detection element 5 is mounted on the side of the housing 1, with the aid of which the distance traveled by the scanner over the information carrier can be measured. In the exemplary embodiment shown, this detection element is formed by a disc wheel 6, which is rotatably mounted in a holder 7, which in turn is accommodated in a housing part 8, which is located near the lower end of the housing 1, next to the (not visible ) window. The holder 7 is pressed by a leaf spring 9 into an inoperative lower position bounded by stops, in which position the wheel 6 protrudes below the housing part 8 and below the bottom surface of the housing 1 (see Fig. 1).

In one of the two opposite container walls, between which the wheel 6 is mounted, two light sources are arranged, which cooperate with a series of radial slits present in the disc wheel, some of which are just visible in Fig. 1A. The light in use when the wheel is rotating (and thus housing 1 moving over the data carrier) through the radial slits is received, for example, by a receiver mounted in the opposite container wall (not visible in Fig. 1), which is arranged to passing a slit to give a signal to an electric control circuit 12 to be further described, of which Fig. 2 shows a block diagram. The said light source and receiver form a light barrier, which is indicated by 10 in the block diagram according to Fig. 2.

An attachment 13 is placed on the housing, in which there is a matrix image sensor indicated schematically by 14, which forms part of the control circuit 12 already mentioned, which is controlled by a clock generator 12a.

The operation of the described scanner is as follows:

When the scanner is placed on the information carrier to be scanned, the wheel 6 is pushed upwards into the bearing support surface of the housing 1 against spring force, so that an electrical contact indicated by 15 in the diagram of Fig. 2 and the power of the scanner is thereby switched on, while the signal for making the first image recording is also provided therewith, if desired. When the power is switched on, the light source 2 transmits light via the reflector 3 through the window, which is reflected by the information carrier and is received by the matrix image sensor 14, which converts the received light signals into a first block of electrical signals, which is fed to the ccpiter 16 loaded with a recognition program.

The light fading signals produced upon movement of the scanner over the information carrier and the associated rotational movement of the wheel 6 are supplied to the stylus circuit 12, which compares the number of received signals with a preset number of pulses. The preset number of pulses is representative of a certain distance traveled by the scanner over the carrier. This predetermined distance roughly corresponds to the size of the information block measured in the direction of movement of the scanner, which one wants to record with the aid of the matrix image sensor.

As soon as the number of received light-gap signals corresponds to the preset pulse number, a signal is applied to the matrix image sensor, so that it receives the light reflected through the window through the data carrier and thereby displays an image of the current moment through the Information block visible through the window, which image is then supplied to the computer 16 by the control circuit 12 in the form of electrical signals (in a number corresponding to the number of photosensitive cells used in the sensor).

In this way, the computer is fed with a series of consecutive information blocks, which can then be composed in the computer into a complete picture, eg into a full line of text or a full staff.

Preferably, a preselection will be chosen such that the distance traveled between two successive image recordings by the scanner is slightly less than the length of the window measured in the direction of movement, so that there will be a certain overlap between the successive information blocks.

Fig. 3A shows how three successive image recordings 21, 22 and 23 overlap in the scanning direction. In this case, this involves reading the middle text line, in which the word "network range" appears. Fig. 3A shows three of the total number of image recordings required for this. The drawn images are each clearly recorded at a time when the scanner and thus the matrix image sensor were in a deviating position from the correct scanning direction (= control direction X). The (average) overlap approximately corresponds to the "pitch distance" between the different characters. The occurrence of an overlap between the successive image recordings is a fact that the recognition program in the computer will take into account.

When the images 21, 22 and 23 are pulled out of their overlapping relationship and placed next to each other, the image according to Fig. 3B is created, which image is representative of the way in which the images are successively interpreted by the computer. From the three images, the computer will recognize the following three character groups.

ETWE ERKRA ANGE.

It is clear that the incomplete characters appearing along the top and bottom edges of the images have been ignored, as have the incomplete characters appearing on the side edges of the images taken and relating to the line of text to be scanned.

Merging the recognized groups of characters would result in the following collection of characters: EIWEERKRAANGE, which would clearly be an incorrect representation of the scanned portion of the text line in question. In the recognition program, however, the aforementioned overlapping of the image recordings will be taken into account, which will lead to the observation that at least one of the two characters "e" in the transition area between images 21 and 22, as well as at least one of the two in the transition area between image recognition 22 and image recording 23 recognized characters "a" falls at least partly in the overlapping area and therefore one of the two recognized characters "e" and "a" should be disregarded.

It is clear that instead of the exemplary reading pen embodiment, scanner embodiments are also conceivable which can cover a larger area with image information, depending on the dimensions in which the matrix image sensor is obtainable. When the device is designed as a reading pen, as in the illustrated exemplary embodiment, a window size of 10 x 10 mm can be considered.

Claims (7)

Method for reading in image-arranged image information composed of defined characters, such as text, by moving an image scanner in the control direction over the data carrier and supplying the image signals obtained thereby to a computer loaded with a recognition program, characterized in that the scanning takes place according to successive information blocks, the height of which is substantially greater than the (largest) height of a character and the length (measured in the scanning or control direction) comprises several characters, of which blocks successive image recordings are made at times determined by the scanning speed, such that a certain overlap takes place between successive images. 2. Device for carrying out the method according to claim 1, provided with a housing with a bearing support surface for placing on the information carrier, a window present in the bearing support surface, a light source to be directed via the window on the carrier, means for recording light reflected from the carrier, as well as means for converting light signals into computer-recognizable signals, characterized in that the means for recording light reflected by the carrier are formed by a matrix image sensor. Device as claimed in claim 2, characterized by a means co-operating with the matrix image sensor for transmitting the distance traveled over the information carrier for supplying an excitation signal to the matrix image sensor when a predetermined distance has been covered. 4. Device as claimed in claim 3, characterized in that the means co-acting with the matrix image sensor is a measuring wheel carried by the housing, in use rolling over the information carrier, which is provided with substantially radially extending through slots and is arranged between at least one light source and associated receiver for detecting light passing through the slots. 5. Device as claimed in claim 4, characterized in that the wheel can be pushed back into the housing against spring action. 6. Device as claimed in claim 5, characterized in that when the scanner is placed on the information carrier, the measuring wheel in the bearing support surface of the housing is pressed back to an active position in which an electrical contact is closed, whereby a signal is generated for taking a first image. 7. Device as claimed in claims 2-6, characterized in that the housing on its front wall pointing in the scanning direction is provided with a ricin nose extending into the cpleg support surface.