Classifications

• • H—ELECTRICITY
  • H04—ELECTRIC COMMUNICATION TECHNIQUE
  • H04N—PICTORIAL COMMUNICATION, e.g. TELEVISION
  • H04N1/00—Scanning, transmission or reproduction of documents or the like, e.g. facsimile transmission; Details thereof
  • H04N1/04—Scanning arrangements, i.e. arrangements for the displacement of active reading or reproducing elements relative to the original or reproducing medium, or vice versa
  • H04N1/10—Scanning arrangements, i.e. arrangements for the displacement of active reading or reproducing elements relative to the original or reproducing medium, or vice versa using flat picture-bearing surfaces
• • H—ELECTRICITY
  • H04—ELECTRIC COMMUNICATION TECHNIQUE
  • H04N—PICTORIAL COMMUNICATION, e.g. TELEVISION
  • H04N1/00—Scanning, transmission or reproduction of documents or the like, e.g. facsimile transmission; Details thereof
  • H04N1/04—Scanning arrangements, i.e. arrangements for the displacement of active reading or reproducing elements relative to the original or reproducing medium, or vice versa
  • H04N1/10—Scanning arrangements, i.e. arrangements for the displacement of active reading or reproducing elements relative to the original or reproducing medium, or vice versa using flat picture-bearing surfaces
  • H04N1/107—Scanning arrangements, i.e. arrangements for the displacement of active reading or reproducing elements relative to the original or reproducing medium, or vice versa using flat picture-bearing surfaces with manual scanning
  • H04N1/1075—Arrangements for facilitating holding of the scanner, e.g. shapes, grips
• • G—PHYSICS
  • G06—COMPUTING; CALCULATING OR COUNTING
  • G06K—GRAPHICAL DATA READING; PRESENTATION OF DATA; RECORD CARRIERS; HANDLING RECORD CARRIERS
  • G06K7/00—Methods or arrangements for sensing record carriers, e.g. for reading patterns
  • G06K7/08—Methods or arrangements for sensing record carriers, e.g. for reading patterns by means detecting the change of an electrostatic or magnetic field, e.g. by detecting change of capacitance between electrodes
  • G06K7/089—Methods or arrangements for sensing record carriers, e.g. for reading patterns by means detecting the change of an electrostatic or magnetic field, e.g. by detecting change of capacitance between electrodes hand-held scanners
• • H—ELECTRICITY
  • H04—ELECTRIC COMMUNICATION TECHNIQUE
  • H04N—PICTORIAL COMMUNICATION, e.g. TELEVISION
  • H04N1/00—Scanning, transmission or reproduction of documents or the like, e.g. facsimile transmission; Details thereof
  • H04N1/04—Scanning arrangements, i.e. arrangements for the displacement of active reading or reproducing elements relative to the original or reproducing medium, or vice versa
  • H04N1/10—Scanning arrangements, i.e. arrangements for the displacement of active reading or reproducing elements relative to the original or reproducing medium, or vice versa using flat picture-bearing surfaces
  • H04N1/107—Scanning arrangements, i.e. arrangements for the displacement of active reading or reproducing elements relative to the original or reproducing medium, or vice versa using flat picture-bearing surfaces with manual scanning
• • H—ELECTRICITY
  • H04—ELECTRIC COMMUNICATION TECHNIQUE
  • H04N—PICTORIAL COMMUNICATION, e.g. TELEVISION
  • H04N1/00—Scanning, transmission or reproduction of documents or the like, e.g. facsimile transmission; Details thereof
  • H04N1/04—Scanning arrangements, i.e. arrangements for the displacement of active reading or reproducing elements relative to the original or reproducing medium, or vice versa
  • H04N1/0461—Scanning arrangements, i.e. arrangements for the displacement of active reading or reproducing elements relative to the original or reproducing medium, or vice versa part of the apparatus being used in common for reading and reproducing
• • H—ELECTRICITY
  • H04—ELECTRIC COMMUNICATION TECHNIQUE
  • H04N—PICTORIAL COMMUNICATION, e.g. TELEVISION
  • H04N2201/00—Indexing scheme relating to scanning, transmission or reproduction of documents or the like, and to details thereof
  • H04N2201/04—Scanning arrangements
  • H04N2201/047—Detection, control or error compensation of scanning velocity or position
  • H04N2201/04701—Detection of scanning velocity or position
  • H04N2201/0471—Detection of scanning velocity or position using dedicated detectors
• • H—ELECTRICITY
  • H04—ELECTRIC COMMUNICATION TECHNIQUE
  • H04N—PICTORIAL COMMUNICATION, e.g. TELEVISION
  • H04N2201/00—Indexing scheme relating to scanning, transmission or reproduction of documents or the like, and to details thereof
  • H04N2201/04—Scanning arrangements
  • H04N2201/047—Detection, control or error compensation of scanning velocity or position
  • H04N2201/04701—Detection of scanning velocity or position
  • H04N2201/04734—Detecting at frequent intervals, e.g. once per line for sub-scan control

Definitions

• This device also has serious drawbacks: first, the quality of the reproduction depends on the speed at which the device is moved. The contrast is good when you act slowly, but it becomes more and more pale as you accelerate and goes until it disappears completely. When the speed varies, the quality varies correlatively. Then, the width of the paper is such that one necessarily reproduces several lines of text at the same time, thereby preventing a fine selection from being made as is always desired when choosing quotes, words or important passages from a text.
• the reproduction capacity depends on the length of the paper and as soon as the paper runs out, the machine is unusable. Now this length being of the order of ten meters, its reproduction capacity is of the order of fifty widths of standard A4 format sheets, which is very insufficient for professional uses.
• the use of the device requires that we have a stable, rigid and flat support, that is to say a table or at least a tablet like those of trains or planes. You cannot use the device in a waiting room or while leaning against a wall or working on your knees since you need both hands.
• the reproduced graphics are found on four-centimeter strips of paper which are only seriously usable if they have been glued onto sheets or index cards.
• the principle of reproduction is such that the information cannot be entered into computer memory.
• the price of the device is high and that if it can be qualified as "portable, it is because of the fact that it can be put in a briefcase or a case and that it works. with autonomous energy: batteries or accumulator, but it cannot be carried on your person, like a pen, and it constitutes a heavy device, inconvenient to handle.
• Fax machines which include optical sensors combined with transcoders intended to transform the graphic signs carried by a moving sheet into usable electrical signals.
• the signals as soon as they are created are sent to a remote transmitter, usually a telephone system.
• This document does not describe a portable and autonomous device, capable of collecting at different times, graphic data appearing on any media, not necessarily placed on a flat support, and of memorizing them for possible subsequent processing and also possible transfer. : Everything that has been recorded must be reproduced because it is a photocopier. The device itself always remains fixed but is connected by flexible electrical cords to the reading and printing heads which have been made mobile with respect to the paper, whereas traditional copiers and fax machines have fixed heads and provide for the movement of the paper. In addition, nothing is provided for the protection of the data stored between their capture and their return, so that the device is in no way autonomous and portable.
• EP-A-0 146 472 which relates to improvements to the invention described in the preceding document and which proposes an apparatus guided by running gear, thus making compulsory the presence of a plane support for the document to be scanned, this apparatus being connected by a flexible electrical cord (figure 2) to a separate external device, in particular a memory 53 such as a disk or a magnetic tape (page 11, lines 1 to 6).
• a separate external device in particular a memory 53 such as a disk or a magnetic tape (page 11, lines 1 to 6).
• This separate external device is also required for the display of entered data and nothing teaches close coordination between entry and posting. On the contrary, it is specified that a separate printer must be provided (page 17, lines 4 to 8).
• the present invention is quite different from the inventions described in these documents because it relates to an autonomous, effectively portable assembly, which can be placed in a clothing pocket, manoeuvrable like a pen, that is to say "on the fly", without guide or plane support.
• An assembly produced according to the invention is capable of memorizing a graphic of very low height, of the order of a standard line of text, in order to be able to select, in the case of texts, only one line at a time. , or even a single word or group of words or a single ideogram, in order to restore what has been memorized as it is after processing, by graphic reproduction,
• the invention relates to a method for entering graphic signs, words, ideograms or drawings, appearing on a first non-specific support by moving a mobile assembly manually and without a material guide, with a view to transferring it to another.
• non-specific support for previously entered graphic signs method of the type according to which a mobile assembly comprising a sensor and a print head is used and according to which, in addition:
• the autonomous portable assembly is moved in one direction only, either in a direction called “forward”, or in the opposite direction known as “reverse”, at any speed,
• the transcoded data from the sensor is introduced into the memory as a function of the extent of the displacement of the autonomous portable assembly
• the autonomous portable assembly is optionally placed opposite said other support,
• the autonomous portable assembly having to be placed on a support, the operation in progress, entered or postponed, is interrupted as soon as the autonomous portable assembly is no longer in contact with said support;
• the autonomous portable assembly being able to remain at a distance from a support, the operation in progress, entry or postponement, is interrupted as soon as the autonomous portable assembly is removed from said support by a distance greater than a pre-established maximum; -to coordinate the entry and transfer speeds on the one hand and the movement of the autonomous portable assembly on the other hand, either the storage of data or the extraction of data out of the memory is carried out.
• the entered signs are displayed in plain text as the corresponding data are either entered into the memory or extracted from the memory; the previously stored data is processed: change, displacement, erasure, before transfer to a medium, the transferred signs then comprising differences with respect to the entered signs; -
• the data is processed by entering data either created by the user of the autonomous portable assembly, or supplied automatically by a device integrated into the autonomous portable assembly: computer, clock and others.
• Stored data is erased either by acting on a command, or automatically after one or more transfer operations.
• the subject of the invention is also a mobile assembly for the implementation of the above method, characterized in that it consists of an oblong autonomous portable box, of the instrument to be traced type, which has an optical sensor and at least one print head functionally independent of each other, and which contains at least one memory, an independent energy source, battery or the like, as well as possibly other active components such as computer, clock, control keys control and the like, a first circuit incorporating the sensor, a transcoder and the memory, a second circuit incorporating the memory, a transcoder and the print head, as well as at least one contactor intended to selectively establish either the first circuit in view entering the signs and storing the corresponding data, i.e.
• the autonomous portable assembly comprising furthermore at least one member which is sensitive to the relative displacement of the autonomous portable assembly and of a support opposite which said autonomous portable assembly must be placed, and which is intended on the one hand to generate enabling signals for the activation of either the first or the second circuit, depending on the number of units of distance traveled by the portable assembly and not depending on the speed at which it is moved and, on the other hand, to be prohibited access to the memory, input and output, as soon as the autonomous portable assembly is either stopped or moved in the opposite direction to that originally selected.
• the member which is sensitive to the relative displacement of the autonomous portable assembly and of a support is circular, such as a wheel or a sphere, is rotatably mounted and must be maintained at the contact of said support so that it is rotated during said displacement and that it can then generate enabling signals at a rate which is directly proportional to the number of units of distance traveled by said rotary member during the displacement of the autonomous portable assembly;
• the rotary circular member carries bars each composed of at least one sensitive element and spaced apart from each other according to the value of the unit of distance, this value possibly being such that the bars are placed against each other;
• the rotating circular member carries multiple sensitive elements distributed in a fine network such as a frame;
• the member sensitive to the relative displacement of the autonomous portable assembly and of a support is a detector without material contact with a support, such as a Doppler effect probe, a laser beam assembly, an accelerometer and the like;
• the member sensitive to the relative displacement of the autonomous portable assembly and of a support is constituted by the sensor itself, which is associated with a circuit capable of detecting and memorizing signs reported by the head of printing in order to determine the unit of distance and, accordingly, the rate of the postponement;
• the autonomous portable assembly comprises a detector of correct position of itself with respect to a support, detector which is part of a circuit on which it must act according to whether the autonomous portable assembly is or is not in position correct in relation to a support;
• the position detector is sensitive to the effective contact between the autonomous portable assembly and a support
• the position detector is a proximity detector
• the position detector consists of a contactor which is constantly urged towards an inactive position, that is to say a position in which it opens the circuit, and which must be placed in an active position, that is to say a position in which it closes a circuit, by means of a feeler external to the autonomous portable assembly and sensitive to the actual presence of a support with respect to the part of said autonomous portable assembly which has the sensor and the print head;
• the circuit comprises at least one warning device such as an indicator light;
• the circuit comprises an access to the memory, both at the input for storing data from the sensor and at the output for extracting data intended for the print head from the memory, said access, entry and exit, being automatically established as soon as the position detector is in the state which corresponds to a correct effective position of the autonomous portable assembly with respect to a support and automatically locked as soon as the detector is in the reverse state which corresponds to an incorrect position of the self-contained portable assembly in relation to a support.
• the useful width of the sensor and the useful width of the print head can be adjusted in a coordinated manner according to at least two minimum (Hl) and maximum (H3) values;
• the sensor is associated with a radiation emitter capable of accentuating the contrast between the graphic signs and the support;
• the autonomous portable assembly has a display which has a useful display height at least equal to the useful width of the sensor and of the print head, that is to say, the minimum of which is of the order of the smallest dimension of a standard line of words or ideograms and on which signs must appear in clear;
• the autonomous portable assembly comprises a circuit including the display so that the signs appear in clear on the display by chronological scrolling, simultaneously with the movement of the portable assembly, these signs being either the signs entered, as soon as they are transcoded, or the signs transcoded from the data extracted from the memory;
• the autonomous portable assembly comprises a circuit controlled by at least one key accessible from outside said portable assembly, which circuit includes the display and at least one other active component in order to be able to display in clear, when the
• FIG. 1 is a schematic view illustrating the exploration of a support by using a plurality of sensitive elements juxtaposed along a straight line and which are moved together perpendicularly to said straight line.
• Figures 2 and 3 are schematic views showing the importance of choosing a unit of distance.
• Figures 4, 5 and 6 are schematic views showing the importance of fine definition of transverse scanning.
• FIG. 7 is a block diagram of a self-contained portable assembly according to the invention.
• FIG. 8 is a schematic view showing a self-contained portable assembly according to the invention in the position of use for exploring a support.
• FIG. 9 is a schematic view showing the same autonomous portable assembly as that of FIG. 8 but in the position of use for the restitution by way of graphic reproduction of previously stored signs.
• FIG. 10 is a schematic view of an embodiment according to which the member sensitive to the relative displacement of the autonomous portable assembly and of a support is made in the form of a sphere.
• Figures 11 and 12 are partial schematic views of the surface of the sphere and showing two possible shapes for reflective facets.
• FIG. 13 is a schematic view of an embodiment according to which the member sensitive to the relative displacement of the autonomous portable assembly and of a support is produced in the form of a Doppler effect probe.
• FIG. 14 is a schematic sectional view showing the production of a rotary member by the combination of strips of sensitive elements and of a wheel.
• FIG. 15 is a schematic view illustrating the possibility of adjusting the width of the active zone of the sensor or of the printhead.
• graphic signs are captured which appear on any medium: text, isolated words, symbols, ideograms or drawings, by moving a sensor "on the fly", that is to say without guide of any kind.
• the aim of the operation is to extract information from a document in order to process it by electronic means.
• graphic signs are optically captured, they are transcoded into electrical signals and the data corresponding to these signals is stored in memory.
• the signs thus reported can be exactly the same as those which have been entered or else exclusively different signs or even a combination of signs originally entered. and signs resulting from the introduction of other data using means of access different from those which were used to enter the signs appearing on a medium.
• the method according to the invention must allow such operations while guaranteeing the integrity of the signs to be entered, of the stored signs and of the signs to be transferred.
• the invention relates to a method which makes it possible to handle an autonomous portable device, in the manner of an instrument to be traced, and which must function both under normal conditions of comfort for a user seated at a desk, as well as in more hazardous conditions as is the case for a user working on his knees, in the car, in a waiting room, etc.
• signals are emitted accordingly and constitute data which are memorized, in order to be able to subsequently read them. recover, either to perform processing, or to reproduce the graphic signs previously entered during the exploration.
• the explored area has a width substantially equal to the height of a standard line of Western text and a width that is all the smaller as one seeks high reproduction fidelity.
• means of visualization or reproduction inkjet or needle-jet print head, definition of a display or a video screen, etc.
• elements sensitive to the contrast between the signs to be reproduced and the medium on which they appear are used. It can be several elements aligned and all active simultaneously. By moving them together, they explore the entire surface of the support having for width the length of their alignment and for length, the distance that these elements are made to travel.
• the zone 100 must be moved transversely to itself, that is to say longitudinally with respect to lines of text of the Western writing type.
• the zone 100 is oriented in height, transversely to the line of text and it is moved along said line. This movement is evoked in FIG. 1 by a dotted line which shows the position 100 ′ occupied by the zone 100 a little before its current position which is represented in solid lines and by another dotted line which shows the position 100 ′′ that zone 100 will occupy after its current position.
• the letter “d” has been shown, which is assumed here to be the first letter of the word "data".
• the sensitive elements 101 to 110 were in front of an unwritten part of the support 200, for example a sheet of white paper.
• the active elements were put into action one after the other, according to a process well known in itself, which caused the activation of the element 101 alone, then the activation of the element 102 and placing the element 101 at rest, then activating the element 103 and placing the element 102 at rest, and so on according to a cycle of this frequency (static scanning).
• the sensitive elements do not transmit any message. As the zone 100 has been moved, it reaches the position 100 'where it is opposite the left part of the letter "d".
• Element 101 is then located above an unwritten part, that is to say clear and, when activated, it does not transmit any signal.
• the element 102 is located above a written part, that is to say dark and transmits a signal whose code means that it is necessary to memorize for the corresponding location, a contrasting point (generally black) which will have, proportionally, the same area as that of element 102.
• Elements 103, 104 and 105 will react like element 102 since they are also located above a dark part.
• Elements 107, 108, 109 and 110 will react like element 101 since they are above a clear portion.
• each sensitive element has a certain indivisible surface which reacts with all or nothing.
• FIGS. 4 to 6 diagrams can be seen showing the importance of choosing a unit of distance for the movement of the entire zone 100, in order to eliminate the hazards due to the speed of movement.
• the zone 100 must be moved perpendicular to its major axis, along the line of text comprising the letter "d" in the present example, which is materialized by the arrow F in the figure. 1.
• This movement is continuous in nature, but since the sweep is discontinuous in nature, the sweep function and the feed function must be coordinated.
• the sweep is regular by nature, the advance is irregular and random since it depends on the way of acting of the one who holds the device and who moves it manually, on the fly, and in random material conditions.
• a smaller unit of distance P2 can be adopted, such as that shown in Fig. 5.
• the vertical sweep can be taken into account whenever zone 100 has traveled a distance of the value of one-third of a type letter "d. ".
• the left part of the loop of "d" would be reproduced: points 202 C, 202 D and 202 E, as well as a fraction of the central part of the loop: points 202 F and 202 G, then the entire shaft at eight points 202 H to 202 0 (ie the eight sensitive elements 102 to 108), then a point 202 P for the lower return of the shaft.
• the best solution is therefore to adopt a unit of distance P3 equal to the width of zone 100 because the successive positions of said zone 100 are tangent to each other and do not leave between them a space capable of precisely containing a dark part. significant.
• Figure 6 illustrates this solution with the entire word "data” and it is possible to verify that the dimension ratio between the height of the sensitive elements 101 to 110 and the unit of distance P3 gives a continuous virtual grid over the entire height. of the written line (height at least equal to that which separates the head of the shaft and the tail of the jamb of the letters which are provided with it, plus a certain clearance) and over an indefinite length.
• the invention therefore, provides for coordination between the vertical scan and a linear distance unit which depends on geometric dimensions (distance traveled by zone 100) and not on the speed of movement of said zone 100.
• the unit of distance can be determined, according to the invention, by ensuring a very fast scanning and by providing for the taking into account of the signals (that is to say their input) coming from the sensitive elements, in a sequential manner, to a rhythm which depends not on the linear speed of movement but on the unit of distance: the sweep begins at the start of each movement and is almost instantaneous.
• the sweep covers the entire surface having the sweep height as width and the distance traveled as length. The quality of the input is therefore independent of the speed and, above all, of the continuity or irregularity of this speed.
• An autonomous portable assembly implementing the method according to the invention has a general diagram like that of FIG. 7. It comprises a "read head" or sensor 300 comprising the zone 100 and connected by a link 301 to a member 302. sensitive to the relative displacement of the sensor 300 and of a support to be explored 200. This member 302 gives a rate of input of the signals emitted by the sensitive elements as a function of the distance traveled by the autonomous portable assembly since at each unit of dis tance traversed, it causes the start of the sweep.
• the scanning speed is then directly proportional to that of the displacement: the faster the displacement, the faster the scan; the slower the movement, the slower the sweep.
• the result is therefore that the operation of the autonomous portable assembly is made independent of the speed of movement and that the quality obtained remains constant.
• the sensor 300 provides elementary images which are coherent and which correspond to the coordinates of each sensitive element and to the "dark” or “light” signal, the latter possibly simply being the absence of a signal in order to simplify the operation, as is known. in itself.
• an autonomous portable assembly acquires all its interest when it is equipped with a memory which keeps its data even without power supply or when it has a permanent power source, in particular thanks to a Additional so-called “backup" battery, specific to maintaining stored information (not shown).
• the memory 306 is connected by a link 311 to an output transcoder of any known type 312 which must receive the data extracted from the memory 306 and transmit corresponding electrical signals with a view to the ultimate restoration.
• light in the light of graphic signs first captured by sensor 300.
• transcoders there are two different transcoders: 4304 for input and 312 for transfer but, in practice, the person skilled in the art knows that it is possible to produce a transcoding circuit common to these two functions.
• the signals coming from the output transcoder 312 are intended for a so-called “printing” head 313 which is located in the vicinity of the sensor 300, that is to say here, at the same end of the autonomous portable assembly. It is necessary to move the latter linearly to cause the transfer of the signs on the second support, as it was necessary to move it linearly to capture the signs of the first support. Here again, it is necessary to make the quality of the restitution independent of the speed of movement of the autonomous portable assembly.
• the output transcoder 312 has a link 315 with the element 302 and not directly with the printhead 313, which has a link 316 with the element 302.
• the speed of extrac The data and its delivery to the printhead 313 are synchronized with the speed of random movement of the autonomous portable assembly, movement to which the element 302 is responsive.
• the autonomous portable assembly has a display 317, the useful height H of which is equal to the heights H respectively of input for the sensor 300 and of reproduction for the print head 313.
• the display 317 is of any kind. known type, in particular a graphic liquid crystal display, and has a link 318 with the decoder 312.
• a link 319 is also provided with the input decoder 304, so that the signs entered by the sensor 300 also scroll on the display 317 during the entry. This. display allows visual control of the operation in progress.
• the display 317 forms part of a circuit 320 incorporating a particular decoder 321 as well as the memory 306 by a link 322.
• the user can extract data already stored and make them appear on the display 317, thanks to the transcoder 321, without however wanting to transfer them.
• the sensor 300 nor the print head 313 must be in operation. It is therefore necessary and sufficient for the portable assembly to be stationary.
• the autonomous portable assembly makes it possible to introduce new data, to modify the data entered, to store the modifications made and, if necessary, to postpone the final result.
• the modifications thus made can be of any kind, depending on the complexity of the circuit 320 and of the control keys as well as of the on-board software (s): full or partial word processing, data scrolling or fixed display, selection of signs to report, modification the order of transfer, displacement, selective erasure, enlargement, reduction, underline, variable and / or proportional spacing, change of color, etc.
• the visual check by the display allows the user to check the data in question and, if necessary, to correct errors.
• circuit 320 can incorporate a computer 324 and a clock 325 which are constantly supplied with energy by means of a battery, possibly specific (not shown). These integrated devices generate electrical signals which constitute data which can be stored and which are transcoded into signs appearing in clear on the display 317. These data can be reported in combination with the data resulting from a previous entry operation or from 'an entry operation using the keys of the link 323.
• the autonomous portable assembly must, in order to capture signs and to report them, be either in contact with the support in question, or at a certain distance. In either case, it is good to guarantee that no data can be lost when, accidentally or by mistake, the proximity situation is seriously disturbed: contact interrupted or critical distance exceeded.
• the indicator 333 can for example consist of a probe 335 which is constantly urged by a spring 336 towards an extraction position relative to a fixed part 337 integral with the autonomous portable assembly, position in which it is inactive , that is to say it leaves inert a contactor (not shown) which controls a circuit comprising the link 334, so that the switches 330 and 331 remain open.
• the probe 335 is pushed inside the fixed part 337 against the spring 336.
• the contactor is then in a position. active, that is to say it causes the closing of switches 330 and 331. Therefore, the main switch 309 being assumed to be closed, the autonomous portable assembly can operate.
• the need for effective contact has the opposite of a total absence of contact so that the judgment of the correct or incorrect position is a problem which is solved "by all or nothing".
• the invention aims to provide an autonomous portable assembly which operates with great reliability despite the absence of any hardware guide and under all circumstances. A more flexible situation may therefore be preferred, which guarantees safe operation while allowing certain irregularities.
• a proximity detector 340 is used, of any type known per se, associated with the switches 330 and 331 by a link 341.
• the opening of the switches 330 and 331 only occurs when the distance between the autonomous portable assembly and the support exceeds a predetermined maximum value.
• this distance is less than this maximum, including equal to zero when there is contact, the switches 330 and 331 are closed and the autonomous portable assembly is in working order.
• the circuit can include a warning device 342 which is constituted here by an indicator light symbolized by a lamp 343.
• the sensor 300 and the print head 313 are neighboring but functionally independent of each other because their operations must be automatic but since they are incompatible, it is necessary to prevent them from being caused simultaneously.
• a simple solution consists in placing the sensor 300 and the print head 313 in opposition while being in the vicinity of the same end.
• the user holds the autonomous portable assembly so that the sensor is directed towards the support.
• the user turns the autonomous portable assembly over so that the print head 313 takes the place of the sensor, the latter then being oriented in the opposite direction.
• the user actuates the button 353 so that the switch 350 is closed and the switch 351 open.
• the user actuates the button 353 so that the switch 350 is open and the switch 351 closed (which is the situation shown in FIG. 7).
• the member 302 responsive to the relative movement of the self-contained portable assembly and a support may be either of a type requiring contact with the support, or accepting a certain distance.
• the member can be rotary, in particular in the form of a wheel or a sphere.
• the organ can be an accelerometer, a radiation system (ultrasound, infrared, laser, etc.) or even a Doppler effect probe.
• one causes a projection of marks on the support according to spaces corresponding to a unit of distance and one captures these marks as they are created, the rhythm which results therefrom thus being a function of the speed.
• translation of the autonomous portable assembly ensuring synchronized scanning.
• FIGS. 8 and 9 the example has been chosen of a rotary wheel driven by friction against the support with respect to which the autonomous portable assembly is moved.
• the wheel 302 is rotatably mounted around a pivot 360, the axis of which is parallel to the plane of the support 200-500.
• the wheel 302 is placed so that it is always in contact with the support to be explored 200, whether the portable assembly is in the gripping position (FIG. 8) or of transfer (FIG. 9).
• the caster 302 must be driven in rotation by friction with the support 200 when the autonomous portable assembly is moved according to the arrow F.
• the rolling surface of the caster 302 must therefore be non-slip.
• Roulette 302 must generate enabling signals each time it crosses a unit of distance. For this, it can be associated with a mechanism of any known type suitable for causing a scanning cycle when each unit of distance is crossed.
• the rate of the scans therefore depends directly on the speed of rotation of the wheel 302, which makes it proportional to the speed of movement of the autonomous portable assembly and makes the quality of the input independent of this speed.
• the print head 313 receives the data from the transcoder 312 according to the rhythm imposed by the wheel 302.
• the quality of the reproduction therefore remains constant whatever the speed of movement of the portable assembly. autonomous. It is further noted that the quality of the transfer and its speed are independent of the speed of the entry. A graphic may have been captured slowly and reproduced quickly or vice versa without affecting the quality. Of course there is an upper limit to the speed of travel. ment of the autonomous portable assembly but it depends on the electronic components and not on the very design of the invention.
• FIG. 10 shows another variant of a rotary member in contact with the support. It is a sphere 370 mounted freely to rotate, like a ball joint, in a frame 371. Its surface is entirely covered with micro facets 372 of ad hoc polygonal outline.
• Each of these facets 372 has a healthy reflected area 373 shown in white and a non-reflective area 374 shown in black.
• the shape of the facets 372 must be chosen such that the surface of the sphere 370 is covered with the minimum number of solutions of continuity, as will be understood by the description below, with reference to FIGS. 11 and 12.
• a radiation emitter 375 and a radiation receiver 376 oriented such that a ray R1 emitted by the emitter 375 is reflected in R2 by any reflecting area 373 and is thus received. by the receiver 376 whereas, on the contrary, the same ray R1 meeting a non-reflecting zone 374 would not reach the receiver 376.
• the shape of the facets is not indifferent because the distance which separates two neighboring reflecting zones 373 and two non-reflecting zones 374 Vosines constitutes the unit of distance. However, if we adopt the spherical shape, it is to give total freedom of movement to translate the autonomous portable assembly, freedom that we do not have with a wheel which necessarily has an axis of rotation and a alone.
• the sphere on the contrary, it is possible to accept lateral deviations since the sphere can rotate in any direction whose axis is inscribed in the 180 degrees considered in the plane of the support 200-500 located at- beyond the sphere in view derating the direction of forward travel, the other 180 degrees of the plane corresponding to reverse gear and being, therefore, prohibited since the displacement of the sphere 370 in the opposite direction to that chosen instantly causes the operation to stop In progress.
• the input operation or the transfer operation is controlled from the receiver 376 which, each time it receives a reflected ray R2, causes a scan of the sensor 100 or of the printhead 600.
• the succession of reflecting zones and non-reflecting zones determines the rate of the scanning and there must not be a significant difference between the distance which separates two zones measured according to the width. L1 of a polygon and that measured along its diagonal L2.
• the reflected ray R2 will then be considered. by all or nothing like a reflected ray or as an absence of ray.
• the diameter of the circle C must necessarily be less than the width L1 of the respectively reflective 373 and non-reflective 374 zones.
• the reflecting areas are formed by whole squares arranged in a checkerboard pattern with respect to the other squares constituting non-reflecting areas.
• a known method can be used which makes it possible to obtain a frame of sensitive points arranged in a network.
• Such a probe is in itself well known to those skilled in the art and it will therefore not be described in detail. It comprises two solid elements 380 and 381 spaced by a partition 382 which can be a material or, preferably, an air knife.
• the element 380 is associated with an emitter 383 of a radiation R3 which is reflected by the constituent material of the support 200-500 according to a radius whose angle is a function of the relative displacement speed of the probe and of the support 200 -500.
• the element 381 is associated with a receiver 384, sensitive to the reflected ray and to the angle made by the latter.
• Three possibilities of reflection R4, R5 and R6 have been shown diagrammatically which correspond to three different speeds.
• the reflection of the R3 radiation does not depend on the contact or non-contact of the probe and the support 200-500.
• the autonomous portable assembly can therefore be located at a certain distance from the support 200-500, the distance that we have here marked by x.
• the scanning of the sensor 100 or the scanning of the printhead 600 is caused more or less frequently.
• the senor and the print head are placed one behind the other, considering the direction in which the autonomous portable assembly must be translated.
• the sensor is then provided with a particular circuit by which the sensor also plays, during the transfer operation, the role of a member sensitive to the relative displacement of the autonomous portable assembly and of a support.
• the sensor detects and stores the spacing between two series of transferred points, this spacing corresponding to the unit of distance.
• the sensor causes the report at a rate adapted to the speed of movement of the autonomous portable assembly so that the signs are correctly reported with respect to the unit of distance.
• the input on the one hand and the transfer on the other hand are independent of the speed of movement of the autonomous portable assembly and the input speed as the transfer speed are independent of one of the 'other.
• the user browses a text appearing on any medium 200 (book, magazine, documentation, etc.) of which he wishes to keep important passages. He takes the device 400 in his hand, like a pen, actuates the button 310 to power the circuits as well as possibly the button 353. He orients the device so that the read head 300 is placed. on the support 200 (FIG. 8), above the line that the user wants to memorize in whole or in part.
• the wheel 302 is placed on the support 200 and it is automatically in the correct orientation to roll on the latter when the user moves the device.
• the user moves the device manually in the direction of arrow F at any speed which may even be variable.
• the zone 100 is scanned and simultaneously moved in the direction of the arrow F.
• the sensitive elements 101 to 110 are successively put into action and neutralized and each time a unit of distance is crossed, the wheel 302 generates enabling signals to the scan, which link 303 transmits to transcoder 304 which provides data corresponding to the memory 306 where they are stored.
• the user can thus enter several successive lines, or certain words, or certain ideograms or of course a diagram, a graphic, a table of figures etc., the memory 306 being able, as we know, to have a very large capacity under a reduced volume.
• the user can create data from the keys of link 323 and make them appear on display 317. He can use computer 324 or clock 325, the data of which also appear on display 317. He can intervene. , at will, store these new data or carry out the transfer, selectively or systematically, of all the data appearing on the display 317 in the form of clear signs.
• a support 500 which can be, for example, a sheet. of plain paper: loose sheet, index card, notebook, or other.
• the user moves the device as before, along arrow F at any speed.
• the data stored in the memory 306 are extracted from the latter and, after transcoding into signals usable by the output transcoder 312, scroll on the display 317 and cause the operation of the print head 313 which acts by any known means. : ink jets, needles etc.
• the print head 313 must obviously have printing members arranged coherently with respect to the sensitive elements 101 to 110 of the read head 300 and this has been symbolized on the print head 313 by a group 600 identical to zone 100 of the read head 300.
• the wheel 302 depending on the number of distance units traveled, imposes the printing rate according to the movement of the device and the graphic signs are reproduced as explained above with regard to FIGS. 6, 7 and. 8.
• the user operates the button 310 to open the switch 309 and can put the device away.
• the memory 306 is of the type according to which the stored data are erased when it is no longer supplied with power, it is clear that the user can only reproduce the graphics entered if he keeps the device "on", which it can only do for fairly short periods of time. If, on the contrary, the memory retains the stored data as long as they have not been intentionally erased (according to a well-known procedure), the user can make one entry or several successive entries and then restore them a long time later. This solution which is of course within the reach of those skilled in the art is obviously preferable because it gives very great flexibility of use. The user can, for example, make the entry while he is on the move: in a specific room such as a library, or during a trip by train, plane, etc. then reproduce the data entered in a file when he is back at his office or at his home.
• the output transcoder 312, or directly the memory 306, or the circuit 320 can be connected by a line 362 to a link connector 363 of any known type, for example by means of infrared radiation, by optical fibers. , by radio etc., to allow the self-contained portable assembly to be connected to an external device such as a computer or a component thereof; keyboard, printer, internal memory etc.
• the autonomous portable assembly can serve as a sensor and a buffer memory for a fixed data center comprising a memory in which the data originally stored in the memory 306 is transferred.
• the link connector 363 can therefore be an interface of the external device.
• a memory for collecting information on a given subject can, for example, have several different and specialized memories: a memory for collecting information on a given subject, a memory for figures and tables, etc.
• the print head can be chosen to have reproduction dimensions different from those of the input. We can, for example, reproduce the graphics entered on a larger or smaller scale, the change being determined once and for all or adjustable between the 1/1 ratio and an extreme ratio.
• the sensor 300 In order to increase the contrast between light areas and dark areas, that is to say to make the device more sensitive, it is possible to add to the sensor 300 a small projector or a strip of light (not shown), directed towards the support to be explored and supplied from battery 307 or from a specific battery. The light beam of this projector is reflected by bright areas, not dark areas. Sensitive elements 101 to 110 react accordingly.
• the apparatus may be provided with a contrast indicator to inform the user that he must act on a control to increase the lighting in order to improve the sensitivity of the seizure and the quality of the reproduction.
• the amount of light can be adjusted manually or automatically and for input only, in order to save the energy expended.
• the adjustment of the best contrast on capture can be done advantageously by automatic or manual increase of the sensitivity of the sensor. This solution may prove to be more advantageous than adjusting the illumination because it requires less energy.
• the memory 306 can be entirely emptied by a single transfer operation: the stored data are erased as they are transferred. Provision can also be made for the data to remain in memory as long as they have not been intentionally erased from memory 306 according to a process well known in itself. This erasure can also be automatically provided for after several transfer operations, for example two or three. This allows you to make a single capture and place the reproduction in two or three different places. An audible or visual signal can be provided to warn the user that the memory 306 has just been emptied, at the end of a data transfer process.
• the wheel 302 rotates in the opposite direction to that which it has in input mode. This difference can be used as a criterion for controlling the extraction of data from the memory 306. It is therefore possible to make the operation of the apparatus entirely automatic depending on whether it is the sensor 300 or the print head 313 which is. facing the support.
• the direction in which the autonomous portable assembly is translated, and therefore the direction of rotation of the wheel 302 is not irrelevant.
• the wheel 302 is provided to rotate in one direction (called “forward") when the assembly operates in gripping and in the opposite direction (called “reverse” ) when the assembly operates in postponement, it is necessary to prohibit the seizure in reverse gear and the postponement in forward gear because, once again, the invention relates to a device which must be used on the fly, like a pen, without a guide and in all circumstances. So the user must be guaranteed that disorderly or accidental movements will not have any consequences on the quality of the service provided: entry or postponement. An unfortunate movement in reverse during the entry must interrupt the entry, save the signs already entered and prevent any extraction of data from the memory 306. As soon as the movement resumes in forward gear, the entry is resumed.
• the self-contained portable assembly may be designed differently from the example shown and described.
• the sensor 300 and the print head 313 can be superimposed in order to prevent the assembly from turning over to switch from input mode to report mode. It is also possible to produce a single head comprising sensitive elements and reproductive elements combined and acting selectively. To switch from input mode to report mode, it is possible either to provide an automatic control or a device to be actuated by the user.
• the sensor 300 can be constituted by a frame having sensitive elements no longer only reduced to a single line but, on the contrary, distributed in two dimensions.
• the columns of the frame are explored individually, one after the other, from the signal triggering the scan, in order to increase the smoothness of exploration and reproduction.
• the invention can be combined with all the electronic and computer means available: incremental writing, more or less thick characters, variable spacing between words or letters, enlarged characters, Roman style or italic style, underlining, etc.
• the member sensitive to the movement of the device on the support can be of any known type such as an accelerometer, ratchet wheel, inertia mechanism, Doppler effect probe, laser beam, etc.
• the sensor can include an optical system: optical fibers, focusing lens for example, especially with the embodiment according to which the autonomous portable assembly must be kept at a certain distance above the support.
• a wheel 700 is rotatably mounted on an axis 701 parallel to the plane of the support to be explored 200 and that it carries bars 702 each composed of several sensitive elements.
• the angular distance which separates two neighboring bars corresponds to the unit of distance chosen.
• This control can be obtained, for example, by providing a cover 703 provided with a slot 704 so that the sensitive elements are only active in line with the slot 704. It is also possible to act electronically, by providing for the control only. when each bar 702 reaches its precise reading position, or combine these two solutions.
• the exploration zone has an adjustable height H, that is to say that the exploration is carried out over a greater or lesser width, depending on an adjustment chosen by the user.
• the zone 100 here comprises an odd number of sensitive elements 120 to 130 so that they are distributed symmetrically on either side of the central element 125.
• the width of the scan can be adjusted, that is to say say the amplitude of the scan, by involving a variable number of sensitive elements, symmetrically with respect to the axis of the displacement, which is perpendicular to the major axis of the zone 100.
• Another version has been shown which gives a scanning height 112, comprising elements 122, 123 and 124 at the bottom, element 125. in the center and elements 126, 127 and 128 at the top, that is to say seven sensitive elements in all.
• the height H3 corresponds to the maximum sweep amplitude, with all sensitive elements 120 to 130.
• the adjustment of the sweep height is a sophisticated solution for adapting the sweep width to different graphics.
• the maximum height H3 can advantageously be greater than the height of a standard line of text. It is then possible, for example, to provide for the entry of a single line with a minimum scanning height H1, two lines with an average height H2 and three lines with a maximum height H3.
• the invention makes it possible to restore standard texts which have not necessarily been entered by the sensor and which remain in memory. This can be the case with the mentions of a business card, for example.
• An interesting application of the invention is the entry of the characteristics of an identity document provided by a customer paying for his purchases in a store by means of a check, in order to reproduce them on the back of this check. Indeed, this operation is done very quickly and without any risk of error thanks to the invention, while the manual copy by a cashier is relatively long and does not exclude transcription errors.
• Another interesting application is the entry of mail references, invoices, slips, descriptions, quotes etc. and their entry in registration books, in particular with foliotations and dates.
• the self-contained portable assembly works equally well in a horizontal or vertical plane (or of course inclined). It can therefore be used to enter an address on a document and to transfer this address to a parcel such as a parcel post, a cash register, etc.
• the autonomous portable assembly When the autonomous portable assembly is connected to an external device, provision can be made to use the stored data no longer by transfer by means of the head. printing 600 but by display on a large screen, of the kind used in amphitheatres, museums and the like. places organized for a large audience.
• the device for implementing the method according to the invention is characterized in that it consists of an oblong autonomous portable box (400), of the type to be traced, which has an optical sensor (300) and at least a head. printer (600) functionally independent of each other, and which contains at least one memory (an independent power source (307), battery or the like, a first circuit incorporating the sensor (300), a transco (304) and the memory (306), a second circuit incorporating the memory (306), a transcoder (312) and the print head (600), as well as at least one contactor (350-351) intended to establish selectively either the first circuit for the s of the signs and the storage of the corresponding data, or the second circuit for the extraction of the stored data and the transfer of the corresponding signals.
• the corresponding data is stored in memory and the signs entered can then be reproduced on another medium.
• This device also has serious drawbacks: first, the quality of the reproduction depends on the speed at which the device is moved. The contrast is good when you act slowly, but it becomes more and more pale as you accelerate and goes until it disappears completely. When the speed varies, the quality varies correlatively. Then, the width of the paper is such that one necessarily reproduces several lines of text at the same time, thereby preventing a fine selection from being made as is always desired when choosing quotes, words or important passages from a text.
• the reproduction capacity depends on the length of the paper and as soon as the paper runs out, the machine is unusable. Now this length being of the order of ten meters, its reproduction capacity is of the order of fifty widths of standard A4 format sheets, which is very insufficient for professional uses.
• the use of the device requires that we have a stable, rigid and flat support, that is to say a table or at least a tablet like those of trains or planes. You cannot use the device in a waiting room or while leaning against a wall or working on your knees since you need both hands.
• the reproduced graphics are found on four-centimeter strips of paper which are only seriously usable if they have been glued onto sheets or index cards.
• the principle of reproduction is such that the information cannot be entered into computer memory.
• the price of the device is high and that if it can be qualified as "portable”, it is because of the fact that it can be put in a briefcase or a briefcase and that it works with autonomous energy: batteries or accumulator. But it cannot be carried on your person, like a pen, and it is a heavy device, inconvenient to handle.
• Fax machines which include optical sensors combined with transcoders intended to transform the graphic signs carried by a moving sheet into usable electrical signals.
• the signals created are sent to a remote transmitter, usually a telephone system.
• This document does not describe a portable and autonomous device, capable of collecting at different times, graphic data appearing on any media, not necessarily placed on a flat support, and of memorizing them for possible subsequent processing and also possible transfer. : Everything that has been recorded must be reproduced because it is a photocopier. The device itself always remains fixed but is connected by flexible electrical cords to the reading and printing heads which have been made mobile with respect to the paper, whereas traditional copiers and fax machines have fixed heads and provide for the movement of the paper. In addition, nothing is provided for the protection of the data stored between their capture and their return, so that the device is in no way autonomous and portable.
• the present invention is quite different from the inventions described in these documents because it relates to an autonomous, effectively portable assembly, which can be placed in a clothing pocket, manoeuvrable like a pen, that is to say "on the fly", without guide or plane support.
• An assembly produced according to the invention is capable of memorizing a graphic of very low height, of the order of a standard line of text, in order to be able to select, in the case of texts, only one line at a time. , or even a single word or group of words or a single ideogram, with a view to restoring what has been memorized as it is or after processing, by graphic reproduction,
• the invention relates to a method for entering graphic signs, words, ideograms or drawings, appearing on a first non-specific support by moving a mobile assembly manually and without a material guide, with a view to transferring it to another.
• non-specific support for previously entered graphic signs method of the type according to which a mobile assembly comprising a sensor and a print head is used and according to which, in addition:
• the autonomous portable assembly is moved in one direction only, either in a direction called “forward”, or in the opposite direction of "reverse”, at any speed,
• the transcoded data from the sensor is introduced into the memory as a function of the extent of the displacement of the autonomous portable assembly
• the autonomous portable assembly is optionally placed opposite said other support,
• the autonomous portable assembly having to be placed on a support, the operation in progress, entered or postponed, is interrupted as soon as the autonomous portable assembly is no longer in contact with said support; the autonomous portable assembly being able to remain at a distance from a support, the operation in progress, entry or postponement, is interrupted as soon as the autonomous portable assembly is removed from said support by a distance greater than a pre-established maximum; - To coordinate the entry and transfer speeds on the one hand and the movement of the autonomous portable assembly on the other hand, either the storage of data or the extraction of data out of the memory is carried out.
• the entered signs are displayed in plain text as the corresponding data are either entered into the memory or extracted from the memory; -
• the previously stored data is processed: change, displacement, erasure, before transfer to a medium, the transferred signs then comprising differences with respect to the entered signs; -
• the data is processed by entering data either created by the user of the autonomous portable assembly, or supplied automatically by a device integrated into the autonomous portable assembly: computer, clock and others.
• Stored data is erased either by acting on a command, or automatically after one or more transfer operations.
• the subject of the invention is also a mobile assembly for the implementation of the above method, characterized in that it consists of an oblong autonomous portable box, of the instrument to be traced type, which has an optical sensor and at least one print head functionally independent of each other, and which contains at least one memory, an independent energy source, battery or the like, as well as possibly other active components such as the computer, clock, control keys.
• the autonomous portable assembly further comprising a at least one member which is sensitive to the relative displacement of the autonomous portable assembly and of a support opposite which said autonomous portable assembly must be placed, and which is intended on the one hand to generate enabling signals for the setting.
• the organ which is sensib le to the re l at if depacemen t of the autonomous portable assembly and of a support is circular, such as a caster or a sphere, is rotatably mounted and must be kept in place.
• contact of said support af: in that it is driven in rotation during said movement and that it can then generate enabling signals at a rate which is directly proportional to the number of units "of distance traveled by said rotary member during the movement of the autonomous portable assembly;
• the rotary circular member carries strips each composed of at least one sensitive element and spaced apart from each other according to the value of the unit of distance, this value possibly being such that the strips are placed against each other;
• the rotating circular member carries multiple sensitive elements distributed in a fine network such as a frame;
• the member sensitive to the relative displacement of the autonomous portable assembly and of a support is a detector without material contact with a support, such as a Doppler effect probe, a laser beam assembly, an accelerometer and the like ;
• the member sensitive to the relative displacement of the autonomous portable assembly and of a support is constituted by the sensor itself, which is associated with a circuit capable of detecting and memorizing signs reported by the head of printing in order to determine the unit of distance and, accordingly, the rate of the postponement;
• the autonomous portable assembly comprises a detector of correct position of itself with respect to a support, detector which is part of a circuit on which it must act according to whether the autonomous portable assembly is or is not in position correct in relation to a support;
• the position detector is sensitive to the effective contact between the autonomous portable assembly and a support
• the position detector is a proximity detector
• the position detector consists of a contactor which is constantly urged towards an inactive position, that is to say a position in which it opens the circuit, and which must be placed in an active position, this is a position in which it closes a circuit, by means of a probe outside the autonomous portable assembly and sensitive to the actual presence of a support with respect to the part of said autonomous portable assembly which presents the sensor and the printhead;
• the circuit comprises at least one warning device such as an indicator light;
• the circuit comprises an access to the memory, both at the input for the storage of data coming from the sensor and at the output for the extraction out of the memory of data intended for the print head, said access , input and output, being automatically established as soon as the position detector is in the state which corresponds to a correct effective position of the autonomous portable assembly with respect to a support and automatically locked as soon as the detector is in the reverse state which corresponds to an incorrect position of the autonomous portable assembly in relation to a support.
• the useful width of the sensor and the useful width of the print head can be adjusted in a coordinated manner according to at least two minimum (H1) and maximum (H3) values;
• the sensor is associated with a radiation emitter capable of accentuating the contrast between the graphic signs and the support;
• the autonomous portable assembly has a display which has a useful display height at least equal to the useful width of the sensor and of the print head, that is to say of which the minimum is of the order of smallest dimension of a standard line of words or ideograms and on which signs must appear in clear;
• the autonomous portable assembly comprises a circuit including the display so that the signs appear in clear on the display by chronological scrolling, simultaneously with the movement of the portable assembly, these signs being either the signs entered, as soon as they are transcoded, or the signs transcoded from the data extracted from the memory;
• the autonomous portable assembly comprises a circuit controlled by at least one key accessible from outside said portable assembly, which circuit includes the display and at least one other active component in order to be able to display in clear, when the portable is stopped
• FIG. 1 is a schematic view illustrating the exploration of a support by using a plurality of sensitive elements juxtaposed along a straight line and which are moved together perpendicularly to said straight line.
• Figures 2 and 3 are schematic views showing the importance of choosing a unit of distance.
• Figures 4, 5 and 6 are schematic views showing the importance of fine definition of transverse scanning.
• FIG. 7 is a block diagram of a self-contained portable assembly according to the invention.
• FIG. 8 is a schematic view showing a self-contained portable assembly according to the invention in the position of use for exploring a support.
• FIG. 9 is a schematic view showing the same autonomous portable assembly as that of FIG. 8 but in the position of use for the restitution by way of graphic reproduction of previously stored signs.
• FIG. 10 is a schematic view of an embodiment according to which the member sensitive to the relative displacement of the autonomous portable assembly and of a support is made in the form of a sphere.
• Figures 11 and 12 are partial schematic views of the surface of the sphere and showing two possible shapes for reflective facets.
• FIG. 13 is a schematic view of an embodiment according to which the member sensitive to the relative displacement of the autonomous portable assembly and of a support is produced in the form of a Doppler effect probe.
• FIG. 14 is a schematic sectional view showing the production of a rotary member by the combination of strips of sensitive elements and of a wheel.
• FIG. 15 is a schematic view illustrating the possibility of adjusting the width of the active zone of the sensor or of the printhead.
• graphic signs are captured which appear on any medium: text, isolated words, symbols, ideograms or drawings, by moving a sensor "on the fly", that is to say without guide of any kind.
• the aim of the operation is to extract information from a document in order to process it by electronic means.
• graphic signs are optically captured, they are transcoded into electrical signals and the data corresponding to these signals is stored in memory.
• the signs thus reported can be exactly the same as those which have been entered or else exclusively different signs or even a combination of signs originally entered. and signs resulting from the introduction of other data using means of access different from those which were used to enter the signs appearing on a medium.
• the method according to the invention must allow such operations while guaranteeing the integrity of the signs to be entered, of the stored signs and of the signs to be transferred.
• the invention relates to a method which makes it possible to handle an autonomous portable device, in the manner of an instrument to be traced, and which must operate both under normal comfort conditions for a user seated at a desk, as well as in more hazardous conditions as is the case for a user working on his knees, in the car, in a waiting room, etc.
• signals are emitted accordingly and constitute data which are memorized, in order to be able to subsequently read them. recover, either to perform processing, or to reproduce the graphic signs previously entered during the exploration.
• the explored area has a width substantially equal to the height of a standard line of Western text and a width that is all the smaller as one seeks high reproduction fidelity.
• means of visualization or reproduction inkjet or needle-jet print head, definition of a display or a video screen, etc.
• elements sensitive to the contrast between the signs to be reproduced and the medium on which they appear are used. It can be several elements aligned and all active simultaneously. By moving them together, they explore the entire surface of the support having for width the length of their alignment and for length, the distance that these elements are made to travel.
• the zone 100 must be moved transversely to itself, that is to say longitudinally with respect to lines of text of the Western writing type.
• the zone 100 is oriented in height, transversely to the line of text and it is moved along said line. This movement is evoked in FIG. 1 by a dotted line which shows the position 100 ′ occupied by the zone 100 a little before its current position which is represented in solid lines and by another dotted line which shows the position 100 ′′ that zone 100 will occupy after its current position.
• the letter “d” has been shown, which is assumed here to be the first letter of the word "data”.
• the sensitive elements 101 to 110 were in front of an unwritten part of the support 200, for example a sheet of white paper.
• the active elements were raised in action one after the other, according to a process well known in itself, which caused the activation of the element 101 alone, then the activation of the element 102 and placing the element 101 at rest, then activating the element 103 and placing the element 102 at rest, and so on according to a cycle of a certain frequency (static scanning).
• the sensitive elements do not transmit any message. As the zone 100 has been moved, it reaches the position 100 'where it is opposite the left part of the letter "d".
• Element 101 is then located above an unwritten part, that is to say clear and, when activated, it does not transmit any signal.
• the element 102 is located above a written part, that is to say dark and transmits a signal whose code means that it is necessary to memorize for the corresponding location, a contrasting point (generally black) which will have, proportionally, the same area as that of element 102.
• Elements 103, 104 and 105 will react like element 102 since they are also located above a dark part.
• Elements 107, 108, 109 and 110 will react like element 101 since they are above a clear portion.
• each sensitive element has a certain indivisible surface which reacts with all or nothing.
• the zone 100 must be moved perpendicular to its major axis, along the line of text comprising the letter "d" in the present example, which is materialized by the arrow F in the figure. 1.
• This movement is continuous in nature, but since the sweep is discontinuous in nature, the sweep function and the feed function must be coordinated.
• the sweep is regular by nature, the advance is irregular and random since it depends on the way of acting of the one who holds the device and who moves it manually, on the fly, and in random material conditions.
• a smaller unit of distance P2 can be adopted, such as that shown in Fig. 5.
• the vertical sweep can be taken into account whenever zone 100 has traveled a distance of the value of one-third of a type letter "d. ".
• the left part of the loop of "d" would be reproduced: points 202 C, 202 D and 202 E, as well as a fraction of the central part of the loop: points 202 F and 202 G, then the entire shaft on eight, points 202 H to 202 0 (ie the eight sensitive elements 102 to 108), then a point 202 P for the lower return of the shaft.
• the best solution is therefore to adopt a unit of distance P3 equal to the width of zone 100 because the successive positions of said zone 100 are tangent to each other and do not leave between them a space capable of precisely containing a dark part. significant.
• Figure 6 illustrates this solution with the entire word "data” and we can verify that the dimension ratio between the height of the sensitive elements 101 to 110 and the unit of distance P3 gives a continuous virtual grid over the entire height of the written line (height at least equal to that which separates the head of the shaft and the tail of the jamb of the letters which are provided with it, plus a certain clearance) and over an indefinite length.
• the invention therefore, provides for coordination between the vertical scan and a linear distance unit which depends on geometric dimensions (distance traveled by zone 100) and not on the speed of movement of said zone 100.
• the unit of distance can be determined, according to the invention, by ensuring a very fast scanning and by providing for the taking into account of the signals (that is to say their input) coming from the sensitive elements, in a sequential manner, to a rhythm which depends not on the linear speed of movement but on the unit of distance: the sweep begins at the start of each movement and is almost instantaneous.
• the sweep covers the entire surface having the sweep height as width and the distance traveled as length. The quality of the input is therefore independent of the speed and, above all, of the continuity or irregularity of this speed.
• An autonomous portable assembly implementing the method according to the invention has a general diagram like that of FIG. 7. It comprises a "read head" or sensor 300 comprising the zone 100 and connected by a link 301 to a member 302. sensitive to the relative displacement of the sensor 300 and of a support to be explored 200. This member 302 gives a rate of input of the signals emitted by the sensitive elements as a function of the distance traveled by the autonomous portable assembly since at each unit of dis tance traversed, it causes the start of the sweep.
• the scanning speed is then directly proportional to that of the displacement: the faster the displacement, the faster the scan; the slower the movement, the slower the sweep.
• the result is therefore that the operation of the autonomous portable assembly is made independent of the speed of movement and that the quality obtained remains constant.
• the sensor 300 provides elementary images which are coherent and which correspond to the coordinates of each sensitive element and to the "dark” or “light” signal, the latter possibly simply being the absence of a signal in order to simplify the operation, as is known. in itself.
• an autonomous portable assembly acquires all its interest when it is equipped with a memory which keeps its data even without power supply or when it has a prrmanente power source, in particular thanks to a Additional so-called “backup" battery, specific to maintaining stored information (not shown).
• the memory 306 is connected by a link 311 to an output transcoder of any known type 312 which must receive the data extracted from the memory 306 and transmit corresponding electrical signals with a view to the subsequent reproduction in clear of signs. graphics originally captured by the sensor 300.
• transcoders 304 for input and 312 for transfer we have just described that there are two different transcoders: 304 for input and 312 for transfer but, in practice, the person skilled in the art knows that it is possible to produce a transcoding circuit common to these two functions.
• the signals coming from the output transcoder 312 are intended for a so-called "printing" head 313 which is located in the vicinity of the sensor 300, that is to say here, at the same ext rm it ed of the in s. emb le port atif au t onome. I l f au t move the latter linearly to cause the transfer of the signs to the second support, as it was necessary to move it linearly to capture the signs of the first support.
• the output transcoder 312 has a link 315 with the element 302 and not directly with the printhead 313, which has a link 316 with the element 302.
• the speed of extrac tion of the data and its delivery to the printhead 313 are synchronized with the random movement speed of. the autonomous portable assembly, movement to which the element 302 is sensitive.
• the autonomous portable assembly has a display 317, the useful height H of which is equal to the heights H respectively of input for the sensor 300 and of reproduction for the print head 313.
• the display 317 is of any kind. known type, in particular a graphic liquid crystal display, and has a link 318 with the decoder 312.
• a link 319 is also provided with the input decoder 304, so that the signs entered by the sensor 300 also scroll on the display 317 during the entry. This display allows a visual check of the operation in progress.
• the display 317 forms part of a circuit 320 incorporating a particular decoder 321 as well as the memory 306 by a link 322.
• the user can extract data already stored and display them on the display 317, thanks to the transcoder 321, without however wanting to transfer them.
• the sensor 300 nor the print head 313 must be in operation. It is therefore necessary and sufficient for the portable assembly to be stationary.
• the autonomous portable assembly makes it possible to introduce new data, to modify the data entered, to store the modifications made and then, possibly, to postpone the final result.
• the modifications thus made can be of any kind, depending on the complexity of the circuit 320 and of the control keys as well as of the on-board software (s): full or partial word processing, data scrolling or fixed display, selection of signs to report, modification the order of transfer, displacement, selective erasure, enlargement, reduction, underline, variable and / or proportional spacing, change of color, etc.
• the visual check by the display allows the user to check the data in question and, if necessary, to correct errors.
• circuit 320 can incorporate a computer 324 and a clock 325 which are constantly supplied with energy by means of a battery, possibly specific (not shown). These integrated devices generate electrical signals which constitute data which can be stored and which are transcoded into signs appearing in clear on the display 317. These data can be reported in combination with the data resulting from a previous entry operation or from 'an entry operation using the keys of the link 323.
• the autonomous portable assembly must, in order to capture signs and to report them, be either in contact with the support in question, or at a certain distance. In either case, it is good to guarantee that no data can be lost when, accidentally or by mistake, the proximity situation is seriously disturbed: contact interrupted or critical distance exceeded.
• the indicator 333 can for example be constituted by a feeler 335 which is constantly biased by a spring 336 towards an extraction position relative to a fixed part 337 integral with the autonomous portable assembly, position in which it is inactivated. if, that is to say that it leaves inert a contactor (not shown) which controls a circuit comprising the link 334, so that the switches 330 and 331 remain open.
• the probe 335 is pushed inside the fixed part 337 against the spring 336.
• the contactor is then in a position. active, that is to say it causes the closing of the switches 330 and 331. Therefore, the main switch 309 being, assumed closed, the autonomous portable assembly can operate.
• the need for effective contact has the opposite of a total absence of contact so that the judgment of the correct or incorrect position is a problem which is solved "by all or nothing".
• the invention aims to provide an autonomous portable assembly which operates with great reliability despite the absence of any hardware guide and under all circumstances. A more flexible situation may therefore be preferred, which guarantees safe operation while allowing certain irregularities.
• a proximity detector 340 is used, of any type known per se, associated with the switches 330 and 331 by a link 341.
• the circuit in order to complete this assembly, provision can be made for the circuit to include a warning device 342 which is constituted here by an indicator light symbolized by a lamp 343.
• a warning device 342 which is constituted here by an indicator light symbolized by a lamp 343.
• the sensor 300 and the print head 313 are neighboring but functionally independent of each other because their operations must be automatic but since they are incompatible, it is necessary to avoid that they can be caused simultaneously.
• a simple solution consists in placing the sensor 300 and the print head 313 in opposition while being in the vicinity of the same end.
• the user holds the autonomous portable assembly so that the sensor is directed towards the support.
• the user turns the autonomous portable assembly over so that the print head 313 takes the place of the sensor, the latter then being oriented in the opposite direction.
• a connector separate from the main switch 309 which one. is represented in FIG. 7 in the form of an assembly comprising a switch 350 on the link 305 and a switch 351 on the link 311, both coupled by a connection 352 associated with a control button 35 with two positions.
• the user actuates the button 353 so that the switch 350 is closed and the switch 351 open.
• the user actuates the button 353 so that the switch 350 is open and the switch 351 closed (which is the situation shown in FIG. 7).
• the member 302 responsive to the relative movement of the self-contained portable assembly and a support may be either of a type requiring contact with the support, or accepting a certain distance.
• the member can be rotary, in particular in the form of a wheel or a sphere.
• the organ can be an accelerometer, a radiation system (ultrasound, infrared, laser, etc.) or even a Doppler effect probe.
• one causes a projection of marks on the support according to spaces corresponding to a unit of distance and one captures these marks as they are created, the rhythm which results therefrom thus being a function of the speed.
• translation of the whole portable autonomous and ensuring synchronized scanning In FIGS. 8 and 9, the example has been chosen of a rotary wheel driven by friction against the support with respect to which the autonomous portable assembly is moved.
• the wheel 302 is rotatably mounted around a pivot 360, the axis of which is parallel to the plane of the support 200-500.
• the wheel 302 is placed so that it is always in contact with the support to be explored 200, whether the portable assembly is in the gripping position (FIG. 8) or of transfer (FIG. 9).
• the caster 302 must be driven in rotation by friction with the support 200 when the autonomous portable assembly is moved according to the arrow F.
• the rolling surface of the caster 302 must therefore be non-slip.
• Roulette 302 must generate enabling signals each time it crosses a unit of distance. For this, it can be associated with a mechanism of any known type suitable for causing a scanning cycle when each unit of distance is crossed.
• the rate of the scans therefore depends directly on the speed of rotation of the wheel 302, which makes it proportional to the speed of movement of the autonomous portable assembly and makes the quality of the input independent of this speed.
• the print head 313 receives the data from the transcoder 312 according to the rhythm imposed by the roulette wheel 302.
• the quality of the reproduction therefore remains constant whatever the speed of movement of the machine. self-contained portable set. It is further noted that the quality of the transfer and its speed are independent of the speed of the entry. A graphic may have been captured slowly and reproduced quickly or vice versa without affecting the quality. Of course there is an upper limit to the speed of movement. ment of the autonomous portable assembly but it depends on the electronic components and not on the very design of the invention.
• FIG 10 there is shown another variant of a rotary member in contact with the support. It is a sphere 370 mounted freely rotating, like a ro t u le, in a mon t ure 371. Its sister face is fully covered with micro facets 372 of ad hoc polygonal outline.
• Each of these facets 372 has a reflected health area 373 shown in white and a non-reflecting health area 374 shown in black.
• the shape of the facets 372 must be chosen such that the surface of the sphere 370 is covered with the minimum number of solutions of continuity, as will be understood by the description below, with reference to FIGS. 11 and 12.
• a radiation emitter 375 and a radiation receiver 376 oriented such that a ray R1 emitted by the emitter 375 is reflected in R2 by any reflecting area 373 and is thus received. by the receiver 376 whereas, on the contrary, the same ray R1 meeting a non-reflecting zone 374 would not reach the receiver 376.
• the shape of the facets is not irrelevant because the distance which separates two neighboring reflecting zones 373 and two non-reflecting zones 374 .vosines constitutes the unit of distance. However, if we adopt the spherical shape, it is to give full freedom of movement to translate the autonomous portable assembly, freedom that we do not have with a wheel which necessarily has an axis of rotation and only one.
• the sphere on the contrary, it is possible to accept lateral deviations since the sphere can rotate in any direction whose axis is inscribed in the 180 degrees considered in the plane of the support 200-500 located at- beyond the sphere in view derating the direction of forward travel, the other 180 degrees of the plane corresponding to reverse gear and being, therefore, prohibited since the displacement of the sphere 370 in the opposite direction to that chosen instantly causes the operation to stop In progress.
• the input operation or the transfer operation is controlled from the receiver 376 which, each time it receives a reflected ray R2, causes a scan of the sensor 100 or of the printhead 600.
• the succession of reflecting zones and non-reflecting zones determines the rate of the scanning and there must not be a significant difference between the distance which separates two zones measured according to the width. L1 of a polygon and that measured along its diagonal L2.
• the reflected ray R2 will then be considered. by all or nothing like a reflected ray or as an absence of ray.
• the diameter of the circle C must necessarily be less than the width L1 of the respectively reflecting zones 373 and. non-reflective 374.
• the reflecting areas are formed by whole squares arranged in a checkerboard pattern with respect to the other squares constituting non-reflecting areas.
• a known method can be used which makes it possible to obtain a frame of sensitive points arranged in a network.
• Such a probe is in itself well known to those skilled in the art and it will therefore not be described in detail. It comprises two solid elements 380 and 381 spaced by a separation 382 which can be; a material or, preferably, an air space.
• the element 380 is associated with an emitter 383 of a radiation R3 which is reflected by the constituent material of the support 200-500 according to a radius whose angle is a function of the relative displacement speed of the probe and of the support 200 -500.
• the element 381 is associated with a receiver 384, sensitive to the reflected ray and to the angle made by the latter.
• Three possibilities of reflection R4, R5 and R6 have been shown diagrammatically which correspond to three different speeds.
• the reflection of the R3 radiation does not depend on the contact or non-contact of the probe and the support 200-500.
• the autonomous portable assembly can therefore be located at a certain distance from the support 200-500, the distance that we have here marked by x.
• the scanning of the sensor 100 or the scanning of the printhead 600 is caused more or less frequently.
• the senor and the print head are placed one behind the other, considering the direction in which the autonomous portable assembly must be translated.
• the sensor is then provided with a particular circuit by which the sensor also plays, during the transfer operation, the role member sensitive to the relative movement of the autonomous portable assembly and a support.
• the sensor detects and stores the spacing between two series of transferred points, this spacing corresponding to the unit of distance.
• the sensor causes the report at a rate adapted to the speed of movement of the autonomous portable assembly so that the signs are correctly reported with respect to the unit of distance.
• the input on the one hand and the transfer on the other hand are independent of the speed of movement of the autonomous portable assembly and the input speed as the transfer speed are independent of one of the 'other.
• the user browses a text appearing on any medium 200 (book, magazine, documentation, etc.) of which he wishes to keep important passages. He takes the device 400 in his hand, like a pen, actuates the button 310 to power the circuits as well as possibly the button 353. He orients the device so that the read head 300 is placed. on the support 200 (FIG. 8), above the line that the user wants to memorize in whole or in part.
• the wheel 302 is placed on the support 200 and it is automatically in the correct orientation to roll on the latter when the user moves the device.
• the user moves the device manually in the direction of arrow F at any speed which may even be variable.
• the zone 100 is scanned and simultaneously moved in the direction of the arrow F.
• the sensitive elements 101 to 110 are successively put into action and neutralized and each time a unit of distance is crossed, the wheel 302 generates enabling signals to the scan, which link 303 transmits to subcoder 304 which provides data corresponding to the memory 306 where they are stored.
• the user can thus enter several successive lines, or certain words, or certain ideograms or of course a diagram, a graphic, a table of figures etc., the memory 306 being able, as we know, to have a very large capacity under a reduced volume.
• the user can create data from the keys of link 323 and make them appear on display 317. He can use computer 324 or clock 325, the data of which also appear on display 317. He can intervene. , at will, store these new data or carry out the transfer, selectively or systematically, of all the data appearing on the display 317 in the form of clear signs.
• a support 500 which can be, for example, a sheet. of plain paper: loose sheet, index card, notebook, or other.
• the user moves the device as before, along arrow F at any speed.
• the data stored in the memory 306 are extracted from the latter and, after transcoding into signals usable by the output transcoder 312, scroll on the display 317 and cause the operation of the print head 313 which acts by any known means. : ink jets, needles etc.
• the print head 313 must obviously have print members arranged in a coherent manner with respect to the sensitive elements 101 to 110 of the read head 300 and this has been symbolized on the print head if one 313 by a group 600 identical to zone 100 of the read head 300.
• the wheel 302 depending on the number of units of distance traveled, imposes the printing rate according to the movement of the device and the graphic signs are reproduced as explained above with reference to FIGS. 6, 7 and. 8.
• the user operates the button 310 to open the switch 309 and can put the device away.
• the memory 306 is of the type according to which the stored data are erased when it is no longer supplied with power, it is clear that the user can only reproduce the graphics entered if he keeps the device "on", which it can only do for fairly short periods of time. If, on the contrary, the memory retains the stored data as long as they have not been intentionally erased (according to a well-known procedure), the user can make one entry or several successive entries and then restore them a long time later. This solution which is of course within the reach of those skilled in the art is obviously preferable because it gives very great flexibility of use. The user can, for example, make the entry while he is on the move: in a specific room such as a library, or during a trip by train, plane, etc. then reproduce the data entered in a file when he is back at his office or at his home.
• the output transcoder 312, or directly the memory 306, or the circuit 320 can be connected by a line 362 to a link connector 363 of any known type, for example by means of infrared radiation, by optical fibers. , by radio etc., to allow the self-contained portable assembly to be connected to an external device such as a computer or a component thereof; keyboard, printer, internal memory etc.
• the autonomous portable assembly can serve as a sensor and a buffer memory for a fixed data center comprising a memory in which the data originally stored in the memory 306 is transferred.
• the link connector 363 can therefore be an interface of the external device.
• a memory for collecting information on a given subject can, for example, have several different and specialized memories: a memory for collecting information on a given subject, a memory for figures and tables, etc.
• the print head can be chosen to have reproduction dimensions different from those of the input. We can, for example, reproduce the graphics entered on a larger or smaller scale, the change being determined once and for all or adjustable between the 1/1 ratio and an extreme ratio.
• the sensor 300 In order to increase the contrast between light areas and dark areas, that is to say to make the device more sensitive, it is possible to add to the sensor 300 a small projector or a strip of light (not shown), directed towards the support to be explored and supplied from battery 307 or from a specific battery. The light beam of this projector is reflected by bright areas, not dark areas. Sensitive elements 101 to 110 react accordingly.
• the apparatus may be provided with a contrast indicator to inform the user that he must act on a control to increase the illumination in order to improve the sensitivity of the seizure and the quality of the reproduction.
• the amount of light can be adjusted manually or automatically and for input only, in order to save the energy expended.
• the adjustment of the best contrast on capture can be done advantageously by automatic or manual increase of the sensitivity of the sensor. This solution may prove to be more advantageous than adjusting the illumination because it requires less energy.
• the memory 306 can be entirely emptied by a single transfer operation: the stored data are erased as they are transferred. Provision can also be made for the data to remain in memory as long as they have not been intentionally erased from memory 306 according to a process well known in itself. This erasure can also be automatically provided for after several transfer operations, for example two or three. This allows you to make a single capture and place the reproduction in two or three different places. An audible or visual signal can be provided to warn the user that the memory 306 has just been emptied, at the end of a data transfer process.
• the wheel 302 rotates in the opposite direction to that which it has in input mode. This difference can be used as a criterion for controlling the extraction of data from the memory 306. It is therefore possible to make the operation of the apparatus entirely automatic depending on whether it is the sensor 300 or the print head 313 which is. facing the support.
• the direction in which the autonomous portable assembly is translated, and therefore the direction of rotation of the wheel 302 is not irrelevant.
• the wheel 302 is provided to rotate in one direction (called “forward") when the assembly operates in gripping and in the opposite direction (called “reverse” ) when the assembly operates in postponement, it is necessary to prohibit the seizure in reverse gear and the postponement in forward gear because, once again, the invention relates to a device which must be used on the fly, like a pen, without a guide and in all circumstances. So the user must be guaranteed that disorderly or accidental movements will not have any consequences on the quality of the service provided: entry or postponement. An unfortunate movement in reverse during the entry must interrupt the entry, save the signs already entered and prevent any extraction of data from the memory 306. As soon as the movement resumes in forward gear, the entry is resumed.
• the self-contained portable assembly may be designed differently from the example shown and described.
• the sensor 300 and the print head 313 can be superimposed in order to prevent the assembly from turning over to switch from input mode to report mode. It is also possible to produce a single head comprising sensitive elements and reproductive elements combined and acting selectively. To switch from input mode to report mode, it is possible either to provide an automatic control or a device to be actuated by the user.
• the sensor 300 can be constituted by a frame having sensitive elements no longer only reduced to a single line but, on the contrary, distributed in two dimensions.
• the columns of the frame are explored individually, one after the other, from the signal triggering the scan, in order to increase the smoothness of exploration and reproduction.
• the invention can be combined with all the electronic and computer means available: incremental writing, more or less thick characters, variable spacing between words or letters, enlarged characters, Roman style or italic style, underlining, etc.
• the member sensitive to the movement of the device on the support can be of any known type such as accelerometer, ratchet wheel, inertia mechanism, Doppier effect probe, laser beam, etc.
• the sensor can comprise an optical system: optical fibers, focusing lens for example, above all, with the embodiment according to which the autonomous portable assembly must be kept at a certain distance above the support.
• a wheel 700 is rotatably mounted on an axis 701 parallel to the plane of the support to be explored 200 and that it carries bars 702 each composed of several sensitive elements.
• the angular distance which separates two neighboring bars corresponds to the unit of distance chosen.
• This control can be obtained, for example, by providing a cover 703 provided with a slot 704 so that the sensitive elements are only active in line with the slot 704. It is also possible to act electronically, by providing for the control only. when each bar 702 reaches its precise reading position, or combine these two solutions.
• the exploration zone has an adjustable height H, that is to say that the exploration is carried out over a greater or lesser width, depending on an adjustment chosen by the user.
• the zone 100 here comprises an odd number of sensitive elements 120 to 130 so that they are distributed symmetrically on either side of the central element 125.
• the width of the scan can be adjusted, that is to say say the amplitude of the scan, by involving a variable number of sensitive elements, symmetrically with respect to the axis of the displacement, which is perpendicular to the major axis of the zone 100.
• Another version has been shown which gives a scanning height 112, comprising elements 122, 123 and 124 at the bottom, element 125. in the center and elements 126, 127 and 128 at the top, that is to say seven sensitive elements in all.
• the height H 3 corresponds to the maximum scanning amplitude, with all the sensitive elements 120 to 130.
• the adjustment of the scanning height is a refined solution making it possible to adapt the scanning width to different graphics.
• the maximum height H3 can advantageously be greater than the height of a standard line of text. It is then possible, for example, to provide for the entry of a single line with a minimum scanning height H1, two lines with an average height H2 and three lines with a maximum height H3.
• the invention makes it possible to restore standard texts which have not necessarily been entered by the sensor and which remain in memory. This can be the case with the mentions of a business card by. example.
• An interesting application of the invention is the entry of the characteristics of an identity document provided by a customer paying for his purchases in a store by means of a check, in order to reproduce them on the back of this check. Indeed, this operation is done very quickly and without any risk of error thanks to the invention, while the manual copy by a cashier is relatively long and does not exclude transcription errors.
• Another interesting application is the entry of mail references, invoices, slips, descriptions, quotes etc. and their entry in registration books, in particular with foliotations and dates.
• the self-contained portable assembly works equally well in a horizontal or vertical plane (or of course inclined). It can therefore be used to enter an address on a document and to transfer this address to a parcel such as a parcel post, a cash register, etc.
• the autonomous portable assembly When the autonomous portable assembly is connected to an external device, provision can be made to use the stored data no longer by transfer by means of the head. printing 600 but by display on a large screen, of the kind used in amphitheatres, museums and the like. places organized for a large audience.

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• Engineering & Computer Science (AREA)
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• Signal Processing (AREA)
• Artificial Intelligence (AREA)
• Computer Vision & Pattern Recognition (AREA)
• Physics & Mathematics (AREA)
• General Physics & Mathematics (AREA)
• Theoretical Computer Science (AREA)
• Printers Characterized By Their Purpose (AREA)
• Facsimile Scanning Arrangements (AREA)

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• 1987
  • 1987-06-26 EP EP87904271A patent/EP0285614A1/fr not_active Ceased
  • 1987-06-26 AU AU75861/87A patent/AU7586187A/en not_active Abandoned
  • 1987-06-26 WO PCT/FR1987/000251 patent/WO1988002586A1/fr not_active Application Discontinuation
  • 1987-06-26 JP JP62503921A patent/JPH01501112A/ja active Pending
  • 1987-06-26 US US07/210,494 patent/US5012349A/en not_active Expired - Fee Related
• 1988
  • 1988-06-01 KR KR1019880700614A patent/KR880702026A/ko not_active Application Discontinuation
• 1991
  • 1991-01-16 AU AU69407/91A patent/AU6940791A/en not_active Abandoned

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