NO774431L - DEVICE FOR OPTICAL DRAWING RECOGNITION - Google Patents

Abstract

Optical, character recognition system

Description

The invention relates to optical character recognition equipment

and in particular a complete data entry system used in a hand-held optical character reader.

A small hand-held optical character recognition device capable of manually scanning alphanumeric characters is shown in US Patent No. 3,947,817 entitled "Hand Operated Optical Character Recognition Wand". An optical character recognition unit that can be used in a portable system is shown in US Patent Application No. 505,931 of September 13, 1974, entitled "Character Recognition Unit". The handheld device shown in the above patent application has been used

in a portable optical character recognition system shown in US Patent Application No. 729,530 dated October 4, 1976, entitled "Portable OCR Wand System". The portable system shown in the latter patent application is light in weight and can be carried from one place to another. other for such purposes as recording product lists or reading labels on stored goods, in order to determine the number of goods in stock. One disadvantage of the system is that it is in the form of a briefcase or briefcase, and the user usually has to stop and place the briefcase on a table or floor while using the wand unit (English: "wand"), if it is desired to enter data into the system manually using the keyboard in cases where the data on the document or label is such that it cannot be read by the optical character reader. It is also inconvenient to view the information displayed on the console indicator unless it is resting flat on a table or other surface.

In accordance with the present invention, an optical character recognition stick unit with complete data entry and having both a keyboard and a display device mounted on the optical character unit is used in connection with a portable character recognition unit which is light in weight and which can be carried over the shoulder of in a similar way as a ladies' bag or handbag. The system is battery powered, very light in weight and can be moved from one place to another without difficulty.

In the event that the optical character recognition device cannot read the data on a label or document, the user simply enters the information via the keyboard on the pen device and verifies correct input via the display device also located on the pen device.

Another feature of the complete data entry wand unit is that it is convenient for use with either the right or left hand. The wand unit's optical character reading head is adjustable or reversible as it can be turned 180° for convenient right- or left-handed use.

The basic reading, input and display features of the pen unit are entirely contained within the hand-held unit. The optically read or keyboard-entered information is transferred to a lightweight processing unit, where it is processed and recorded on magnetic tape for future use.

When the information has been correctly read, it is recorded on the cassette tape for further processing at a later point in time. If a record to be read is torn and soiled, or is in such a state that the information cannot be read by the optical unit, but can still be read by a person, the information is entered into the system using the keyboard, and this input can be verified directly using the display device immediately above the keyboard.

Another feature of the invention is that when the wand unit is to be used, for example, in the left hand, the wand unit's reading head can be rotated 180°. This is achieved by lifting the head and rotating it, then allowing the head to be positioned against the top of the casing in which the keyboard and display device resides. A strain-relieving, rotating connection is formed inside the reader body so that the head can be turned through the 180° without unnecessary wear or damage to the connection between the display device, the keyboard and the rest of the electronics in the system.

The optical character recognition unit comprises lighting lamps in its nose section, which lamps are used to illuminate the material to be read. A switch-on control is also built into the head, which switches off the power supply to the basic electronic recognition system when the reader unit is not in use. It is necessary for an infrared signal to travel from a transmitter sensor unit to the document and back to the transmitter sensor unit. To achieve this, a light guide is used in the reader's nose. This light guide makes it possible to remove the nose section to change the lighting lamps in it without having electrical connections between the nose section and the rest of the reading head. Without the use of the light conductor, the transmitter sensor unit would have to be in the nose area and thus require electrical connections between the body and the nose area. by the reader.

For a complete understanding of the invention and the technical progress it represents, the invention shall be described in more detail below with reference to the drawings, where fig. 1 shows a perspective view of the hand-held unit with complete data entry and. the portable generator, fig. 2 shows a plan view of the hand-held unit, fig. 3 shows a block diagram of the basic electronics in the head part of the hand-held unit, fig. 4 shows a block diagram of the keyboard and display unit, fig. 5 shows a sectional view of the hand-held unit and illustrates the rotary connection inside the body of the hand-held unit, fig. 6 shows a side view of the hand-held unit, fig. 7 shows a diagram of the rotary unit and illustrates the connection between the rotary unit, the portable recognition unit and internal circuits of the hand-held unit, fig. 8 shows a perspective view of the light guide which is used to transmit the control signal to and from the written document, and fig. 9a and 9b show top and side views of the light guide in fig. 8.

In fig. 1 shows an embodiment of an optical character recognition spelling unit with complete data entry and a data entry unit according to the invention. The hand-held unit is connected to the recognition electronics unit 2 by means of a cable 3. The unit includes a provision for a magnetic tape cassette at 4. Switches 5 and 6 are used to turn on the device and to control other functions in the system. The unit 2 can be provided with a strap which is connected to connecting pieces 7 of which one. is shown.

A more detailed drawing of the hand-held unit 1 is shown in fig. 2. The device consists of a reading head 13 with a nose part 14 which is attached by means of a rotating screw 15. Data is entered on a keyboard 11 using keys or keys 16. Information entered into the system is displayed on an indicator 12. When the unit is in the process of reading or processing data, an indicator lamp 17 lights up, which shows that the system is busy.

The reading head electronics 13 is shown in more detail in fig. 3. The read head comprises a 12 x 38 self-scanning,

electronic arrangement on which, with the help of a lens, information is focused that is read from the medium, which can be in the form of a document or any printed material, such as price tags, labels etc. Lamps DS1 and DS2 illuminate the document for reading. In order to save power and turn off the power of the majority of the system while the reading head is not actually reading a document, a control circuit is used. The transmitter-sensor for the control circuit is shown at 19. An infrared signal is emitted from the device 19, transmitted through a light guide 18 to the document and reflected back through the light guide to the device 19 if a document is read. However, if no document is in the immediate vicinity of the reading head, the infrared signal is not reflected and the device is not switched on. Such a control system is shown in US patent application no.

729 531 of 4 October 19 76.

During a read cycle, the array is scanned continuously and driven by means of a cell clock driver and an array clock driver via the x and y registers shown. To synchronize the system, an end-of-frame (EOF) signal and an end-of-line (EOL) signal enter a buffer synchronization logic unit and are sent back to the recognition electronics unit. The video output signal from the array is also sent back to the recognition unit. A status light LED 17 is on when the system is in use and data is being processed. The sending-signal line and the receiving-signal line are connected to the sending-receiving unit 19 to send out signals and receive reflections on them to tell the unit to switch on when a document is read or comes near the reading unit's nose or front part.

The keyboard and indicator circuits are shown in block form in fig. 4. A 4-bit microprocessor is used to take the information entered from the keyboard, and forward this back to the recognition unit electronics, and in turn transfer to the indicator the information that has been entered into the keyboard, read by the reading head and processed by the recognition unit. Five wires are required to enter the keyboard and indicator unit, namely for battery power and ground and three wires communicating between the 4-bit microprocessor and the electronics in the recognition unit.

The indicator and the keyboard are standard units that are commonly used in, for example, handheld calculators. The 4-bit microprocessor can be, for example, a Texas Instruments TMS 1200 microprocessor chip.

Communication between the keyboard and indicator unit and the recognition unit 2 is achieved with a serial message format. The recognition unit 2 contains a microprocessor of the Fairchild F-8 type as shown in US Patent Application No. 729,530 of October 4, 1976. The transfer of data from the recognition unit to the keyboard and indicator unit is initiated by raising the data lines to logic "one"- level. The microprocessor in the keyboard and indicator unit generates eight clock pulses having a period of 6 ms to strobe data from the recognition unit to the keyboard and indicator unit. Table 1 below indicates the message codes that are transmitted to the 4-bit microprocessor.

Keystroke data is transferred in interrupted mode to the recognition unit, with the most significant bit (MSB) being transferred first. The "ATTN" keycode consists of "ones" only and is used to "wake up" the system during power save cycles. The strobe interrupt initiates a power-on cycle that maintains power for 2 seconds after the last keystroke. Table 2 indicates them. different key codes which are transferred to the recognized Ise senhet.

To provide a universal handheld device that can be operated with one or the other hand, the reading head 13 can be rotated 180° so that it will point in one direction or the other, to the left as shown in fig. 5 or to the right (not shown). In order to provide a flexible connection between the keyboard and indicator unit and the rotation shaft through which the cable 3 passes for connection of the reading head with the recognition unit, it is necessary that the connection with the rotation unit is flexible to survive the 180° rotation. This is achieved by using a plug or plug 22 which is connected to a socket 28 (fig. 7) on the rotation shaft in its recessed area. As shown in fig. 5, wires 23 are connected to the plug 22, laid in a loop around the rotary shaft and connected to contact points on the circuit board on which the keyboard and indicator components are mounted. Five wires are required for the battery connection (positive and ground) and the three wires for input, output and data clock which are used to communicate between the keyboard indicator and the recognition unit 2. On the upper part of the shaft 3 rotation unit there is a spring that holds the read head 13 in contact with the upper part of the body 20. To rotate the reading head, the reading head is pulled away from the body 20 and rotated. As soon as the rotation is complete, the spring will pull the reading head back into place and keep it in contact with the body 20. Accidental rotation of the reading head is avoided by means of the indicator cover which extends up towards one side of the reading head when it is in its lower position score.' The reading head is now pulled over the indicator housing before it can be rotated.

A more detailed view of the rotation unit is shown in fig. 7 where the plug 22 is shown to fit together with the plug contact 28 in a recess 30. The spring, not shown, is arranged around the shaft at 25, the connection wires 27 extending up into the reading head and are connected to the electronics therein, and extends from the other end for connection with the recognition unit 2 via the cable 3 and the plug 26.

It is possible to replace the cable 3 with a receive/send unit in the handheld unit and the recognition control unit. Small transceivers for data transfer are well known and need not be described in detail.

A more detailed picture of the optical fiber used in connection with the switch-on/switch-off circuit is shown in fig. 8 and 9. Fig. 8 shows a perspective view of the light guide and fig. 9a and 9b show side and top views.

Optical multi-fibre bundles are normally used in light guides of this type. However, such a light guide is

not suitable for production on a large scale and at low cost. The light guide shown is produced by injection molding with acrylic plastic. The light guide is a homogeneous material in contrast to individual glass fibers. To give the sides of the light guide a mirror finish, the mold has a surface treatment of 0.4 um or better.

An advantage of this type of light guide is that only one cheap part is needed to perform the function.

The surface of the light guide is highly polished to provide substantially total internal reflection. The light energy in the light guide is therefore transferred from the input to the output with relatively little loss. With reference to fig. 3 and 5, energy is transferred from the transmitter/receiver sensor 19 via the light guide to the document and reflected energy is sent back through the light guide to the sensor. The sensor is mounted on the reading head main casing, while the light guide is located in the nose or front part. The light guide allows the removal of the front part without any electrical connection between the front part and the read head main body. The light guide can be used for any non-coherent light where the energy source or receiver is located in a remote location.

In order to mount the light guide without the outer walls coming into contact with a surface that can disturb the wall's internal reflectivity, knobs 29 are formed on the sides of the light guide and are used to prevent unwanted contact between the walls and surrounding parts.

The described invention relates to a hand-held device for complete data entry and which optically reads data. When the data cannot be read optically, the same unit has a keyboard which is used to code data into the system. The coded data is displayed for verification.

To accommodate either left-handed or right-handed use of the device, the read head can be rotated 180° to point either to the right or left of the keyboard indicator body.

A strain-relieving rotation unit is arranged in the body for

to allow internal connections with the keyboard and indicator without destroying the connections.

Although the invention has been described in connection with certain special embodiments, it will be clear that various modifications can be made without going outside the scope of the invention.

Claims (18)

1. The optical character recognition system where data entry is performed with the help of a hand-held device, characterized by a hand-held device comprising an optical scanner, a keyboard and a remote viewing device, and a portable processor for receiving information from the hand-held device, and which is linked to this by using a cable.. 2. System according to claim 1, characterized by a microprocessor which is connected to the keyboard and the remote display device for encoding information entered by the keyboard, forwarding the coded information to the portable processor and transferring the processed information to the display device. 3. System according to claim 1, characterized in that the hand-held unit comprises a head unit and a body unit, and that the head unit is rotatably mounted on the body unit. 4. System according to claim 3, characterized in that the head part comprises the optical scanner and the body part comprises the keyboard and the display device. 5. System according to claim 1, characterized by a device that is used together with the keyboard and the display device for manual input of. data in the system and presentation of the entered data for verification. 6. System according to claim 3, characterized by a coupling device for mechanically and electrically joining the head unit and the body unit in a rotatable connection, comprising a tubular part which is attached to one of the mentioned units and extends through the other of the units, a bias section. which cooperate with the tubular member to hold the units in abutting connections, electrical wires extending through the tubular member into each of the units in a manner that permits rotation of one of the units relative to the other . V. System according to claim 6, characterized in that the tubular part has a central, circumferential depression for receiving the installation of an electrical connecting piece in it. 8. System according to claim 7, characterized in that the connecting piece is connected to a number of electrical wires which are looped around the tubular part and are attached to electrical contact points. 9. System according to claim 6, characterized in that an area is delimited on the tubular part by means of at least one circumferential elevation, and that the elevation forms a boundary for one end of the prestressing part. 10. System according to claim 6, characterized in that the prestressing part is a spring which is wound around the tubular part. 11. System according to claim 6, characterized in that the tubular part extends through the second of the aforementioned bodies in sliding relation to it. 12. System according to claim 3, characterized in that it comprises a detector in the head unit for detecting reflected light which indicates when the optical scanner in the head unit is scanning a document. 13. System according to claim 12, characterized in that light is transmitted to the detector by means of a light guide, which light guide consists of a homogeneous, injection-molded, light-transmitting material, and includes projections that protrude from the sides of the light guide to secure the light guide and prevent objects from coming into contact with its pages. 14. System according to claim 13, characterized in that the material in the light guide is injection molded acrylic plastic. 15. System according to claim 13, characterized in that the sides of the light guide which are parallel to the light path are polished. 16. System according to claim 13, characterized in that the protrusions projecting from the sides of the light guide extend from two opposite sides thereof and are in the form of partial spheres. 17. System according to claim 13, characterized in that the light guide is made of elongated, homogeneous plastic material with an essentially rectangular cross-section. 18. System according to one of claims 13 - 17, characterized in that the protrusions are of the same material as the light guide and are homogeneous with this.