JPS59211172A - Rereading control system - Google Patents

Abstract

PURPOSE:To increase the reading accuracy by performing the rereading after loading the recognition processing firmware using another recognition system from a large capacity memory in case the rereading conditions are satisfied for a character with which the reading is impossible by a recognition system of a character recognizer. CONSTITUTION:A character recognizer 1 contains a control memory 2 which stores the recognition processing firmware. A no-read signal (a) actuates a rereading control decision part 4, and at the same time the additional information (b) is also given to the part 4 to decide the rereading action for a no-read character. The part 4 recognizes the rereading conditions from the information (b). When the rereading action is decided, a large capacity memory 3 is actuated by a reread control signal (c). Then the recognition processing firmware using a designated recognition system is loaded to the memory 2 in the form of a read signal (d).

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a rereading control method, and particularly to a rereading control method for controlling the rereading of unreadable characters that occur when characters are read by an optical character reading device.

In general, although the reading performance of optical character reading devices has improved significantly in recent years, it cannot be denied that there are some characters that are illegible due to the habits of the person writing the characters, the pressure of the writing, the writing instrument, etc.

In the conventional rereading control system, in response to such non-reading, rereading is performed by changing the slice level for binarizing the scanning signal by the scanner.

However, in this case, it may be possible to detect changes in the thickness of the character lines, detect missing character lines, or create holes (loops) as loops, but the shape of the entire character will not change. Therefore, it is difficult to deal with irregular characters.

Many recognition methods have been invented to deal with irregular characters, but each recognition method has its strengths and weaknesses, and there are cases where characters that can be read with one recognition method cannot be read with another recognition method. The opposite is also true.

However, it becomes difficult to implement a plurality of recognition methods in one device and use them in a complementary manner from the viewpoint of cost.

On the other hand, in a character recognition device controlled by a microprogram, by replacing the microprogram part, that is, the recognition processing firmware, it is possible to replace the recognition processing with a new recognition method. In particular, as mass storage devices have become available at low prices in recent years,
It has become extremely easy to store firmware related to multiple recognition processes.

The present invention has been made in view of these points.

An object of the present invention is to provide a rereading control method that can improve recognition accuracy.

That is, an object of the present invention is to control a character that is unreadable by one recognition method so that when rereading conditions are met, recognition processing firmware by another recognition method is loaded from a mass storage device and the character is read again. Therefore, it is an object of the present invention to provide a rereading control method that can improve reading accuracy.

The rereading control method of the present invention includes a character recognition device that performs recognition processing using recognition processing firmware stored in a control memory and outputs an unreadable signal and additional information when a character to be recognized becomes illegible; a rereading control determination unit that outputs a rereading control signal instructing another recognition processing firmware using a different recognition method than the recognition processing firmware when the unreadable signal is supplied and the additional information satisfies a rereading condition; and a large-capacity storage device that stores a plurality of recognition processing firmwares and loads the recognition processing firmware instructed by the reread control signal into the control memory.

That is, in the rereading control method of the present invention, in an optical character reading device, a character recognition device under microprogram control is provided with a rereading control determination unit and a mass storage device that stores recognition processing firmware using a plurality of recognition methods. At this time, when an unreadable result occurs in recognition processing using a predetermined recognition method and a rereading condition is satisfied for this unreadable method, recognition processing firmware using another recognition method is loaded from the mass storage device and recognized. Configured to control processing to continue.

Next, embodiments of the present invention will be described in detail using the drawings.

FIG. 1 is a block diagram showing one embodiment of the present invention.

The rereading control system shown in FIG.
It includes a mass storage device 3.

This character recognition device 1 has a control memory 2 that stores recognition processing firmware as its structural element.

The character recognition device l referred to here is, for example, the
-019470, in which the control memory can read/write the read-only memory described in the embodiment.
This can be realized with the same configuration as the one that replaces AM and makes the microprograms replaceable.

The unread signal a shown in FIG. 1 activates the reread control determination section 4. Further, additional information for rereading determination regarding unreadable characters is also provided to the rereading control determination unit 4.

The rereading control determination unit 4 checks the incidental information and the rereading condition, and when rereading is determined, activates the mass storage device 3 by the rereading control signal C, and executes the recognition processing firmware according to the specified recognition method. Control iIl is performed to load through the control memory 2 as the read signal d.

FIG. 2 is a flowchart showing the general flow of rereading control, mainly showing how rereading conditions are used.

Note that the rereading conditions referred to here include uncontested cases, but additional information such as limitation of character types to be rereaded, distance between candidate characters in case of unreadability due to multiple similar characters, and thickness of character lines, etc. It is based on the system and changes depending on the recognition method.

In addition, the mass storage device 3 uses a fixed disk.゛6
- Although it is common to use bubble memory, it can be substituted with bubble memory, etc., and can be changed depending on the allowable cost and expected throughput improvement rate.

Furthermore, some recognition methods require tables and recognition dictionaries, so recognition processing firmware other than microprograms may be configured.
At this time, loading and swapping into the main memory etc. are performed, but it is clear that this can be done in exactly the same way as swapping the control memory.

It is also clear from the configuration 2 function that the rereading control method of the present invention is highly versatile as its essential parts are not affected by differences in recognition methods.

The rereading control method obtained in this manner is extremely useful in terms of cost and system throughput when constructing a character reading device that achieves high-precision reading.

Note that the loading time of the recognition processing firmware is an issue here, but if it remains unreadable, the operator needs to correct it using the keyboard, etc., and normally it takes 2 to 3 times per character.
It takes seconds of correction time. On the other hand, the firmware loading time is at most about 1/10 of the above correction time, and if the rereading probability is above a certain value (about 0.3), the amount of firmware, rereading probability, and large capacity will increase the system throughput. It is possible to choose the speed of the storage device.

According to the present invention, it is possible to improve reading accuracy without significantly increasing costs by using a plurality of recognition methods in a complementary manner, and this invention is extremely useful in realizing high-precision reading.

By adding a rereading control determination section, the rereading control method of the present invention can load recognition processing firmware for another recognition method and continue recognition processing when a character to be recognized becomes illegible. Therefore, it is possible to correct the strengths and weaknesses in recognition due to differences in recognition methods, which has the effect of completely improving reading accuracy.

[Brief explanation of the drawing]

FIG. 1 is a block diagram showing an embodiment of the present invention, and FIG. 2 is a flow chart for explaining the operation of the embodiment shown in FIG. 1...Character recognition device, 2...Control memory, 3...Mass storage device, 4...
...Rereading control determination unit, a...Unreadable signal, b...Additional information, C
...Reread control method, d...Read signal, S1-S5...Operation step. 9- 1 piece *Z'Ui! I

Claims (1)

[Claims] A character recognition device that is stored in a control memory and outputs an illegible signal and additional information when a character to be recognized becomes illegible by performing recognition processing using the 7IC recognition processing firmware, and the unreadable signal is supplied. a rereading control determination unit that outputs a rereading control signal that instructs another recognition processing firmware using a recognition method different from the recognition processing firmware when the incidental information satisfies a rereading condition; and a plurality of recognition processing firmware using different recognition methods. and a mass storage device for storing recognition processing firmware instructed by the rereading control signal into the control memory.