BE1001771A5 - Method and apparatus for monitoring a reading device of a data recording medium. - Google Patents

Abstract

Method and apparatus for controlling a visual data reading apparatus such as a video disc player, whereby the control is performed in response to input commands which are obtained by analysis of a printed code, for example a bar code , carried by a document to produce coded signals which are sent to the control device of the invention. Portions of the code are positioned near the respective sections of a printed document to allow a user to obtain on the monitor display filmed or still images relating to the section of the document, without the user is obliged to remove his gaze from the document he is reading, for example to operate a separate control unit.

Description

       

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   Method and apparatus for controlling an apparatus for reading a data storage medium.



   The present invention relates to a method and apparatus for controlling an apparatus for reading a data recording medium such as a video disc player or a VCR.



   Readable printed media such as dictionaries, catalogs, guides, etc. generally contain a number of photographs and other tables and diagrams relating to descriptions, indications, etc. which appear in the printed text. However, due to a lack of space, the number of these graphic illustrations that can be used is limited.

   In recent years, it has become possible to use a device for reading a data recording medium such as a video disc player or a video recorder capable of reproducing the various types of recorded image data, to allow record large amounts of image data including still images, filmed images or combinations thereof, which are linked to respective sections of documents, for example descriptive sections or respective guide sections of the document. This allows, for example, to read image data corresponding to respective sections of a document such as a guide on a video disc and to visualize it on a control screen, while the user watches a corresponding portion. of the printed text of the document.

   Systems of this type have been developed, allowing large amounts of image data to be associated with various sections of such a book or document.



  With regard to known systems of this type, in order to allow the reading on a video disc of image data which correspond to a precise section of a document (for example an article in a guide), address data such as image addresses are printed in the respective sections of the text. A search system is used to find suitable image data on the video disc.

   To read the image data for a specific section of the document,
 EMI1.1
 The user, i.e. the person who reads the document, enters the system

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 EMI2.1
 for searching data relating to the corresponding address, using a control unit such as a remote control unit, and the required image data are then sought, read and displayed.



  However, in such a search system, the user must first confirm the number of images of the relevant section of the document, and
 EMI2.2
 then he must use the control unit to enter the number of images into the search system. To do this, the user must move his view of the document to the control unit. As a result, the reading of the document is temporarily interrupted, so that there is a deterioration of a correlative image formed in the mind of the user by an image given to him by the printed text and a graphic image presented. on a control display.



  A second object of the present invention is to provide a method for controlling an apparatus for reading a data recording medium in which the commands for controlling the apparatus can be expressed by a low number of coded digits.



  A third object of the present invention is to provide a method for controlling an apparatus for reading a data recording medium in which the work of establishing the printed codes to be used for various respective readers, and the cost of printing of these codes, are significantly reduced.



  A fourth objective of the present invention is to provide a control device for controlling a device for reading a data recording medium provided with an analyzer of the printed code so as to be able to judge a coded signal established by analysis of a code printed using the analyzer and to carry out the control of the reading apparatus of a data recording medium in accordance with the result of this judgment, while at the same time reducing the frequency of execution of these analysis operations.

   
 EMI2.3
 According to a first characteristic of the present invention, by reading a printed code fel than a bar code which is printed near a

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 EMI3.1
 article published on a readable recording medium, a functional command is obtained which is indicated by the printed bar code thus making it possible to control a reading apparatus of a data recording medium to ensure the playback of video data or audio of said article.



  According to a second characteristic of the present invention, during the process of recognizing the content of a coded signal which is read by analysis of a printed code, the total number of digits of the code signal is detected,
 EMI3.2
 whatever the data content of these coded digits, and 10. discrimination of the control commands is executed in accordance both with its total number of digits and with the data which are represented by these digits.



  According to a third characteristic of the present invention, when
 EMI3.3
 coded signal is read by analysis of a printed code, when recognizing the content of the coded signal, the judgment of the operating commands which determines the processing state of the reading signal of a video disc player is performed as a function the content of at least part of the least significant digits of the coded signal.



  According to a fourth characteristic of the present invention, a judgment made of the control content of predetermined digits in a printed code is modified in accordance with the content of other predetermined digits of the printed code.



  A printed code analyzer according to the present invention preferably includes a repeat switch and a circuit which produces a repeat command in response to the actuation of the repeat switch. The configuration of the system is such that, when this command is introduced into a control circuit, a command expressed by data which has been previously introduced, by analysis of a printed code, is again applied to control a reading device of recorded data, i.e. a disk drive, without the need to re-scan the same code prints.

   

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 EMI4.1
 To achieve the above objectives, a method according to the present invention for controlling an apparatus for reading a data recording medium essentially comprises the following sequence of steps a step for reading a printed code to establish a signal. corresponding coded; a decision step for judging the coded signal in order to extract from it an operating command which is expressed by the printed code, and a control step which consists in sending an operating command to the device for reading a medium of data recording according to this operating command.



  An apparatus for controlling an apparatus for reading a data recording medium in accordance with the method of the present invention essentially comprises: a printed code analyzer for converting optical modifications produced during the analysis of a printed code into an electric coded signal; decision means making it possible to judge the operating commands which are expressed by the code signal, and control means intended to issue operating commands for controlling the reading apparatus of a data recording medium in accordance with the commands resulting from the judgment made by the decision-making means.



  The printed code analyzer preferably comprises a manually controlled repeater switch, decision means being sensitive to the actuation of the repeater switch to keep in memory
 EMI4.2
 control data expressed by the content of an electric coded signal which has been extracted from the printed code analyzer during a previous analysis operation; so that a control command represented by the data put in memory repeated when the repetition switch is actuated.



  Figure 1 is a block diagram of a video disc player and a

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 EMI5.1
 embodiment of a control device for implementing the method according to the present invention for controlling the disc player.



  FIG. 2 shows an example of a page of a document bearing a printed code usable with a control method and an apparatus in accordance with the present invention.



  Figures 3, 4, 5 and 6 show time tables to facilitate the description of the operation of an embodiment of the present invention.



  Figure 7 is a simplified diagram of the connections of an embodiment of a control device according to the present invention which comprises a repetition switch.



  Figures SA and SB show waveforms to facilitate the description of the operation of the embodiment of Figure 7.



  FIG. 9 is a table of times to facilitate the description of the operation. Is of the embodiment of! a figure 7. And
Figure 10 shows a second embodiment of a control apparatus according to the present invention which includes a repeat switch.



  An embodiment of the present invention will be described with reference to the drawings. Figure I shows an apparatus for reading a data recording medium and a control apparatus for implementing the method of the invention making it possible to control the apparatus for reading a data recording medium . In Figure i, the disc playback section of the video disc player serves as an example of a device for reading a data recording medium, and includes a driven turntable (not shown in the drawings) in rotation by a spindle motor I for the rotation of a video disc 2.

   Video disc 2 can be of the CAV type or of the CL V type. 11 It should be noted that the invention is not limited to the use of a video disc, other types of disc.

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 recording data such as a compact that can also be used.



   A reader 3 is carried on a slide (not shown in the drawings) which moves radially on the video disc 2 under the control of a slide motor. The radial position on the video disc 2 of a data reading point of the reader 3 (i.e. the light reading task if it is an optical reader) can therefore be freely determined. .



   The disc playback section further includes servo systems such as a spindle servo system, a tangential servo system, a groove support servo system, etc. However, all of these systems are well known in the art and have been omitted from the drawings.



   An RF signal established by the reader 3 passes through a first filter 5, which transmits only the component of the audio channel of the RF signal and a second filter 6 which transmits only the component of the video channel, in order to extract the component from the channel. audio and I component of the video channel. These are demodulated respectively by a first and a second modulator 7 and 8, in order to obtain an audio signal and a composite video signal, respectively.



  The audio signal is applied to an audio playback signal processing circuit 9, which separates the left and right stereo channels from the signal, and sends them to the output terminals L and R. The video signal coming from the demodulator 8 is introduced into a video playback signal processing circuit 10 to obtain a video signal which is sent to a video transmitter 11.



  Control signals such as the vertical (V) and horizontal (H) synchronization components of the composite video signal are extracted from this signal by a signal separator circuit 12 and are sent to a central processing unit CPU (13) which constitutes the means control of this embodiment.



  The CPU 13 also receives on its inputs various commands which are supplied by an operating unit 14, such as a keyboard, and execute
 EMI6.1
 processing in accordance with the data and programs which are stored in a memory 15. The memory 15 consists of read-only or random-access memory devices (ROM or RAM). As a result of this treatment,

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   the CPU 13 sends control commands to the video playback processing circuit 10, to the audio playback processing circuit 9 and to a control circuit of the disc playback section 16. The number 17 denotes a document bearing a code to bar 18 which is introduced in the CPU 13
 EMI7.1
 using an analyzer 19 which establishes a coded signal which is detected by a detector 20.

   The detector 20 can include a memory and decoders for performing a serial-parallel conversion of the data, etc.



   The CPU 13 decodes the coded signals coming from the analyzer 19 and supplies respective commands to the control circuit of the disc reading section 16, for example "play", "pause", "step forward" and "search", etc. according to the results of this decoding, as well as commands sent to the audio playback processing circuit 9 to selectively designate a mono or stereo operation or to designate that an audio operating mode in progress must remain unchanged, and commands sent to the video disc playback processing circuit, including on / off video commands and commands to designate that the current video operating state should remain unchanged.



   Many types of image data are recorded on a video disc
2, such as filmed image data. The programming data is recorded on the disc before each sequence of image data to facilitate the search for determined image data. If the image data recorded on the video disc 2 serves as image files for a document 17, which can be for example a guide which describes various animals, then the image data recorded on the video disc 2 could include sequences of image data filmed concerning various respective sections of the text of the guide 17, that is to say the descriptions given in each of the respective articles of this text.

   A "start" image number and an "end" image number are recorded on the disc respectively at the beginning and at the end of each of these sequences of filmed image data serving as address data to indicate the position at which this data sequence is saved on the disk. Those data

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 address are part of a predetermined control code. A discrimination code is also part of the control code and is used to distinguish between programming data and image data.



   Figure 2 shows an example of a page from a guide 17. The IS number denotes coded data printed on this page, code which, in this example, is in the form of bar code data (designated here - after simply barcode), which contain codes expressing respectively a "start" picture number and an "end" picture number etc. image data recorded on the video disc 2 corresponding to an article of the printed text of the guide 17. In this example, the bar code 18 consists of a coded portion of the "starting" image number
18a, a portion of the "end" image number 18b, and a coded portion of parameter 18c which allows free choice of an operating mode, for example the reading speed of the video disc player.

   In addition, on the lower part of the guide page 17, the portions of the bar code indicated by 18d are intended to designate respective operating modes of the video disc player, such as "play", "pause", "not backward "freeze frame", "step forward".



  We will now describe the operating sequence of the central unit 13 of this embodiment of a video disc search system according to the present invention, first referring to the table of
 EMI8.1
 time of FIG. 3. We will assume that the programming data necessary to search for the data recorded on the video disc 2 have been previously stored in the memory 15. This being so, when a bar code 18 printed on the guide 17 is introduced into the central unit 13, that is to say by the reader exploring the bar code via the analyzer 19, this coded input is recognized by the system (step S.).

   A decision is made as to whether the bar code data represents a command designating an operating mode (step S) or not. If it is judged that the bar code data represents command data, this command is then processed (step 53). Operation then returns to step S1.

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 EMI9.1
 If it is judged at step 52 ′ that the bar code which has been introduced does not express an order, a decision is made as to whether the two coded portions designating respectively a “starting” image number and an "end" image number (that is to say an address block) has been entered or not (step S.).

   If an address block has been entered, a marker is placed at the address of the end image number (step S5) and a search for the start of the image (step 56) is carried out. A read operation by the disc read section 4 is then triggered (step S-,). If it is judged, in step S., that an address block has not been entered, but that only one image number has been entered, a search for this image comprising this number is executed (steps.). Operation then returns to step SI to wait for the next introduction of a bar code.



  If a bar code is entered which represents an operating command during the reading operation, that is to say while an image is being displayed (step Ss) s this command is processed (step S, .0).



  Then, a decision is made as to whether the reading of the image data in progress before the introduction of the operating command (that is to say before the detection of the introduction of this command in step 59). ) must continue, then the operation returns to step 59 'otherwise the operation returns to step S. to wait for the introduction of a bar code.



  The reading operation continues after step S9 and a decision is made as to whether the indicator which was set in step S5 has been reached (step S .. J. If it is judged that this indicator has has been reached, indicating that the reading of the image data block designated by the entry of the bar code is finished, the operation returns to the Sol stage.



  Thus, thanks to a search system in accordance with the present invention, it suffices for the user to analyze a printed bar code 18 located near an article printed on the guide 17, using the analyzer 19, so that a quick search of the image data corresponding to the content of this printed article is executed. It is therefore sufficient to move the simple gaze-

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 EMI10.1
 ment between the guide 17 and the display on the monitor 11. Thus, there is no deterioration of a correlative image formed in the mind of the user as a function of an image given by the printed text and a graphic image presented by the display of the monitor, during the search for determined image data.



  In the embodiment of the present invention which has just been described, the available data recording medium is a guide. However, the invention is not limited to such a medium, but can be applied to other types of documents, including brochures, catalogs, etc., as well as encyclopedias, etc. Furthermore, the recorded image data is not limited to filmed images, but can consist of still images or a combination of the two.



  With the video disc search system according to the present invention, a bar code which is printed near a section of a readable data recording medium is introduced into the search system, which initiates the search for image data corresponding to this section. As a result, the user does not have to shift his gaze to an operating unit in order to introduce address data into the search system, which is necessary with known types of search system. Therefore, as already noted, the user can retain a correlative image based on the content of printed text and images displayed on a monitor, while the user initiates a search for desired image data.

   In addition, such research can be performed quickly.



  A bar code configuration which is very widespread at present uses the "interleaving of 2 out of 5" arrangement, which consists of a combination of coded units each consisting of even number decimal digits which are placed between an indicator of start and stop indicator.



  Thanks to the present invention, each of these coded units designates a command. The commands include commands relating to "play", "pause", "step", etc. which designate an operating mode of a device for reading a data recording medium, as well as commands

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 which designate certain playback conditions and commands relating to the signal processing method to be used, for example a video playback execution command, an audio playback execution command, a stereo / mono selection command, etc.



  A known arrangement of the bar code which expresses, for example commands designating a search in Chapter 10, and the execution of a video playback with audio playback in stereo, could be in the following form:
 EMI11.1
 
In this configuration, the symbol 0 indicates a coded unit. Each coded unit generally consists of a pair of decimal digits enclosed between a start indicator and a stop indicator. In this example, eight coded units are used, so that the overall length of the bar code will be quite large, which means that the bar code will take up a comparatively large area of the printed document.



   In addition, it is necessary to provide a large capacity buffer in the search system, to receive a bar code entry.



   For these reasons, in some cases, it is undesirable to use a bar code according to the prior art.



  With regard to the present invention, however, the following relationships are established between the coded signals and the commands: (1) Independent commands
The independent commands are expressed in the form of four-digit codec signals of the form N1 N2 N3 N4 each digit being between 0 and 9. NI denotes an LD code. which identifies a reader (i.e. an operator). If such an I.D. code is not necessary, NI can for example be set to 0. NI and N3 constitute a pair of decimal digits which express the content of the command. i is a checksum digit which is made equal to the least significant digit

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 EMI12.1
 of the result obtained by the decimal addition of the figures NI to N3.

   Examples of the relationships between independent order codes and the content of the order are as follows:
 EMI12.2
 
 <tb>
 <tb> N1 <SEP> t <SEP> N2 <SEP> JN3 <SEP> N4J <SEP> Contcnu <SEP> from <SEP> the <SEP> command
 <tb> 0 <SEP> I <SEP> 0 <SEP> I <SEP> Audio <SEP> out <SEP> circuit
 <tb> 0 <SEP> l <SEP> @ <SEP> 2 <SEP> Audio <SEP> 1, <SEP> or <SEP> channel <SEP> left
 <tb> 0 <SEP> @ <SEP> 2 <SEP> 3 <SEP> Audio <SEP> 2, <SEP> or <SEP> channel <SEP> right
 <tb> 0 <SEP> @ <SEP> 3 <SEP> 4 <SEP> Stereo
 <tb> 0 <SEP> 2 <SEP> 0 <SEP> 2 <SEP> Video <SEP> out <SEP> circuit
 <tb> 0 <SEP> 2 <SEP> 1 <SEP> 3 <SEP> Video <SEP> in <SEP> circuit
 <tb> 0 <SEP> 3 <SEP> 0 <SEP> 3 <SEP> Reading
 <tb> 0 <SEP> 3 <SEP> 1 <SEP> 4 <SEP> Pause
 <tb> 0 <SEP> 3 <SEP> 2 <SEP> 5 <SEP> No <SEP> (in <SEP> before) <SEP> (only <SEP> for <SEP> disc <SEP> CAV)

  
 <tb> 0 <SEP> 3 <SEP> 3 <SEP> 6 <SEP> No <SEP> (in <SEP> rear) <SEP> (only <SEP> for <SEP> disc <SEP> CAV)
 <tb> 0 <SEP> 4 <SEP> 0 <SEP> 4 <SEP> Rejection <SEP> or <SEP> finished
 <tb>
 (2) Chapter search commands
 EMI12.3
 Chapter search commands are expressed as 6-digit coded signals of the form NI N2 I N3 t N4 N5 N6
 EMI12.4
 each number being between 0 and 9. NI designates an I.D code to identify a category of users. The central unit 13 performs compensation or modification of the content of the command expressed by the digits of the code, in accordance with the content of the digit I. D. If the code!. D.
 EMI12.5
 is not necessary, NI can be set for example to 0

   NI and N3 form a pair of decimal digits which express the chapter address to be searched for. N4 and N5 constitute a code which expresses an ancillary command. Ancillary control designates an operating state of the signal reading section signal system, but does not determine the operating mode of the disc reading section.

   For example, the following correspondence could be established between the various numerical values of N4 and N5 and of the respective ancillary commands

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 Ancillary control code table
 EMI13.1
 
 <tb>
 <tb> N4 <SEP> Order <SEP> N5 <SEP> Order
 <tb> ancillary <SEP> ancillary
 <tb> 0 <SEP> Video <SEP> out <SEP> circuit <SEP> 0 <SEP> Audio <SEP> out <SEP> circuit
 <tb> 1 <SEP> Video <SEP> in <SEP> circuit <SEP> 1 <SEP> Audio Analog <SEP> <SEP> l / L
 <tb> 2 <SEP> None <SEP> effect <SEP> 2 <SEP> Audio Analog <SEP> <SEP> 2 / R
 <tb> 3 <SEP> None <SEP> effect <SEP> 3 <SEP> Audio Analog <SEP> <SEP> in <SEP> stereo
 <tb> 4 <SEP> None <SEP> effect <SEP> 4 <SEP> None <SEP> effect
 <tb> 5 <SEP> None <SEP> effect <SEP> 5 <SEP> Audio <SEP> digital <SEP> I / L
 <tb> 6 <SEP> None <SEP> effect <SEP> 6 <SEP> Audio <SEP> digital <SEP>

  2 / R
 <tb> 7 <SEP> None <SEP> effect <SEP> 7 <SEP> Audio <SEP> digital <SEP> in <SEP> stereo
 <tb> 8 <SEP> None <SEP> effect <SEP> 8 <SEP> None <SEP> effect
 <tb> 9 <SEP> Continue <SEP> state <SEP> previous <SEP> 9 <SEP> Continue <SEP> I am <SEP> previous
 <tb>
 
N6 is a checksum digit which is made equal to the least significant digit of the result obtained by the decimal addition of the digits NI to N5.



  (3) Chapter playback controls.
 EMI13.2
 



  Chapter playback commands are expressed as Ja
 EMI13.3
 8-digit coded signals of the form N1 N2 j N3 j N4 N5) N6 N7 N8), each digit being between 0 and 9. The digit
 EMI13.4
 NI has the same meaning as for paragraphs (t) and (2) above.



  N2 and N3 constitute a pair of decimal digits which indicate the address of the chapter at the head of the section sought and the reading is then carried out. N4 and N5 constitute a pair of decimal digits which express the address of the final chapter of this section which must be sought. N6 and N7 express ancillary commands, in the same way as for paragraph (2) above. N8 is a total control digit, which is made equal to the least significant digit of the result obtained by the addition
 EMI13.5
 decimal digit NI to N7. So, for example, if playback of Chapter 3 is to be performed, with audio output in stereo, and playback is to be stopped at the start of Chapter 4, the chapter playback command would in this case have the form 00304939. The content of figure I.

   D. expresses

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 the relationship between an amendment or modification parameter and the content of the order figures. For example, if the potential users of the device are classified into three categories, i.e. low level, medium level and high level users, the content of the figures expressing the command to read the chapter will have different meanings, depending on the respective different values of the figure!.

   D. For example, if the code 1. 0. indicates that the user is at a beginner level, the command code which determines the limits for reading the chapter could specify a reading from chapter 2 to chapter 4, whereas if the number 1. 0. identifies a high level user, even if the same command code is entered as in the case of a beginner user, it is possible to have the central unit 13 decide that the reading of the chapter must be executed on a different interval, for example from chapter 1 to chapter 5.



  (4) Image search commands Image search commands are expressed as
 EMI14.1
 10-digit coded signals of the form N1 N2 j N3 t N4 N3 N6 P "NS N9) N10, each digit being between 0 and 9. NI and
 EMI14.2
 N2 are digits of code 1. 0. If a code 1. 0. is not necessary, these digits can be fixed for example at 0. N3, N4, N5, N6 and N7 constitute 5 decimal digits which express the address of an image to be searched. N8 and N9 constitute an ancillary control code, as described above. N10 is a checksum digit, which is made equal to the least significant digit of the result obtained by the decimal addition of the digits N t to N9.



  If, for example, the image whose address is 23100 is to be sought, and a direct video playback of this image is to be performed, with audio playback in stereo, the command of the image address would be of the form 0023100 938.

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 EMI15.1
 



  (5) Segment read commands Segment read commands are expressed in the form
 EMI15.2
 of signals 14-digit codes of the form Ni (N2 j N3) N4 N3) N6J (N7! NS "N9J NiO) NH'Ni2! NrT''N14. i, each digit being
 EMI15.3
 between 0 and 9. NI is a digit 1. 0., which can be set to the value 0 if it is not necessary. N2, N3, N4, N5 and N6 constitute a set of five decimal digits which express the address of the head image of a segment which must be sought and then read. N7, N8, N9, N J 0 and N 11 constitute a set of five decimal digits which express the address of the final image of this segment which must be sought.

   N12 and N13 are digits of an ancillary control code. N14 is a checksum digit, which is made equal to the least significant digit of the result obtained by the decimal addition of the digits N1 to N13. If, for example, the image address 23100 is to be sought and the playback then performed from this image to the address of image 23500, with direct video playback and 2 / R audio playback, the playback command segment in this case would have the form 02310023500927. The programs under which the central processing unit 13 operates to control a device for reading a data recording medium and a system for processing read signals as a result of reading from printed code of the form described above will now be described.

   FIG. 4 shows a control decision routine which is executed by the central unit 13 at appropriate times of interruption. In this routine, a coded signal is read first by a detector 20 (step S-,), and then the portions
 EMI15.4
 signal start and stop signals are detected and discrimination of the coded signal is performed (step 522). The digits of the code are then reconstructed (step S23). As described above, a coded signal consists of a plurality of digits each having a value between 0 and 9.



   A decision is made first to find out the total number of digits in the coded signal, including the digit 1. 0. and the checksum digit.



   If the coded signal consists of 4 digits, a decision is made that this signal represents an independent command and the system then judges

  <Desc / Clms Page number 16>

 the content of the command, in accordance with a predetermined relationship (fette that that represented on the independent control code table
 EMI16.1
 above) (steps S., Sr). !) it should be noted that it is also possible to use a method according to which a decision concerning the type of control signal is taken after having discarded the digit 1. 0. and the checksum digit. In this case, a decision as to whether the coded signal represents an independent control code or not would be made depending on whether the coded signal consists of two digits or not.



  If it is noted, in step S ,,., That the number of digits that comprises
 EMI16.2
 the coded signal is not equal to 4, a decision is made as to whether the coded signal consists of 6 digits (step S26). If there are 6 digits, it is judged that the coded signal represents a chapter search command.



  The system then judges the number of the chapter to be searched for (step
 EMI16.3
 528) 'A ancillary command decision routine (described below) Zu is then executed to judge the content of an ancillary command (step S).



  If the total number of digits of the coded signal is neither 4 nor 6, a decision is made as to whether the coded signal consists of 8 digits (step S30). If there are 8 digits, it is judged to indicate a chapter reading command (step S ...) and a decision regarding the chapter reading interval is then made (step S32). The ancillary control decision routine (described below) is then executed (step 533).



  If the total number of digits of the coded signal is neither 4 nor 6 nor 8, a decision is made as to whether there are 10 digits or not (step S34). If the coded signal consists of 10 digits, it is judged that this signal represents an image search command (step S35). A decision is then made
 EMI16.4
 concerning the number of the image to be searched for (step S36), is then the ancillary control decision routine is executed (stamp 537) 'If it is found that the coded signal does not consist of 4, nor 6, 8, or 10 digits, a decision is made whether the signal contains

  <Desc / Clms Page number 17>

 14 digits or not (step S-8).

   If there are 14 digits, it is judged that the coded signal represents a segment read command (step 539). The head image number and the final image number of the segment which is to be read are then judged. (steps.,.). The ancillary control decision routine is then executed (step S,.).
 EMI17.1
 



  If it is found that the coded signal does not consist of 4, 6, 8, 10 or
14 digits, it is deemed that this code contains an error.



  The number of digits on which coded signal decisions are made can of course be changed, depending on the precise configuration of the coded signal used. If it is a coded signal that uses a 2 of 5 interleaving arrangement, even number digits are used in the coded signal. However, one could use a different code arrangement, in which odd numbers are used. However, if one
 EMI17.2
 uses the interleaving code arrangement 2 of 5, with even number digits, it is necessary to make sure that the leading digit of the coded signal is the digit I. D. and the final digit the total of control digit.



  After any of the steps S25, S29, S33, S37 or S41, described above, step 542 is executed, in which the auxiliary routine for deciding the digits i. D. is executed, by which the control content represented by the entered code digits can be modified according to the value of the digit 1. D, (6tape S42).



  The routine for modifying the digit decision is described below. 0.



  If I.D. is not used, this routine can be deleted.



  Upon completion of the control decision procedure described above, the central unit 13 sends operating commands such as "read", "pause", "search", "freeze frame", etc., to the disc read section control circuit 16 in accordance with the input coded signals, while monitoring the on state of the disc read section servo systems concurrently with the circuit

  <Desc / Clms Page number 18>

 disquc read section command. In addition, the centralized unit
13 sends control commands to the signal systems of the audio playback processing circuit 9 and to the video playback processing circuit 10 to determine the operating conditions established by these circuits, in accordance with the ancillary commands (step S, .-,) .

   Precise examples of systems for controlling such disc read and signal processing section circuits are well known in the art and are not described in detail here.



  The ancillary control decision routine will be described with reference to FIG. 5. First, the digit of the coded signal weighing twice as much as that of the final digit (less significant) is extracted (step 550). this coded signal, and a decision is made as to whether the numerical value of this digit is zero (step S,). If the value of the digit is zero, it is judged to express the video code off (step 552). If the value is other than zero, a decision is made as to whether the value is 1 (step S53).

   If the value of the digit is I, it is judged to express the circuit video command (step S 54 If the value is not 1, a decision is made as to whether the value is 9 (step 555) 'If the value is 9, it is considered that the figure expresses a command “maintain previous state.” If the value is not 9, it is judged that this indicates an error.



  The digit with a higher weight than the final digit of the coded signal is extracted (step S ..-) and a decision is made as to whether the numerical value of the digit is zero (step S58). If the value is zero, it is deemed to be
 EMI18.1
 expresses an audio command off (step S, 9 If the value is not zero, a decision is made as to whether the value is I (step 560).



  If the value is 1, it is judged to express a channel 1 output command .. (L only) (step 561) 'If the value is not 1, a decision is made as to whether the value is 2 or not (steps). If the value is 2, it is judged to express a channel 2 output command (R only) (step S63). If the value is not 2, a decision is made as to whether the value is 3 or not (step S64).

   If the value is 3, it

  <Desc / Clms Page number 19>

 
 EMI19.1
 is judge that this expresses a stero output command (step 565) 'If the value is not between 0 and 3, a decision is made as to whether the value is 9 or not (step 56fi) If the value is 9, it is judged that this expresses a command "maintain previous state" (step 567) If the numerical value of the content of this figure is neither between 0 and 3, nor 9, it is judged that there is an error. If the commands have been assigned to numeric values between 4 and 8, it will of course be necessary to execute decisions regarding these values as well.



   It is preferable that the digits which express ancillary commands be positioned as the least significant digits of the coded signal, the judgment of the commands for controlling the disc reading section being executed first and the ancillary command routine being executed after , because such an arrangement allows a better sequencing in time of the operations of the global system.



  We will now describe the decision amendment routine I. D. with reference to I FIG. 6. At the start of this routine, a number t. D. predetermine (eg, the leading digit of the coded signal) is extracted from the digits of the coded signal (step S70). if the numerical value of this figure is zero, it is considered that this indicates either that there is none!. D. designated, or that no order amendment is necessary (for example in the case where the user is a beginner).

   In this case, the execution of the routine is finished, (step 571) 'If the value of the digit is not zero, a decision is made as to whether the value is 1 or not (step 572) If the value is i, it is considered that this indicates that the user is for example an intermediate level user, that is to say that the chapter reading interval, designated by the digits of the code, must be modified in accordance with a predetermined formula (step S73).

   Such a predetermined formula may for example be that designating the leading chapter of the reading interval designated by the code numbers as F1 and the final chapter as F-, F1 and F2 being amended respectively as follows:
 EMI19.2
 

  <Desc / Clms Page number 20>

   Other types of command modifications can be envisaged, such as other methods of incrementing or decrementing the reading interval, or the addition of commands for reading segments. i If it is found that the numerical value of the digit I. D. is not 1, a decision is made as to whether the value is 2 or not (step S- ,.).

   If) a value is 2, it is considered that this indicates that the operator is a high-level user and the content of the operating command is modified) appropriately for this user. We can consider various types of modifications to the order content, as described above.



  In a method of controlling a reading apparatus in accordance with the present invention, as is apparent from the description above, each control command is defined by a printed code which is entered into a control system and a decision is taken concerning the content of the code. The results of this judgment, representing a control command, are stored in a memory and the control of the reading device is then carried out in accordance with the command data in memory. Furthermore, the judgment of an order represented by a code is not carried out only on the basis of the digits of this code which are used to express an order but also on the basis of the total number of digits constituting the code.

   This shortens the length of the printed code and, moreover, simplifies the procedure for entering a printed code and makes it possible to reduce the capacity of the buffer memory which is part of the device enabling the code to be read.



  In addition, thanks to the method of controlling a display apparatus in accordance with the present invention, the content of a specific predetermined digit of the printed code makes it possible to modify the contents of the commands which are derived by judging the contents of the other digits of the coded. Thus, for example, if a printed code is established for novice users, it suffices to vary the content of a digit (designated in this description digit I. D.) in order to produce printed codes that can be used by

  <Desc / Clms Page number 21>

 
 EMI21.1
 intermediate level users and high level users, respectively, i.e. it is not necessary to provide completely different code sets for these respective categories of users.

   Thus, the cost of preparing such a code and the printing costs can be significantly reduced.



  As regards a process and a control device which have just been described, there will be cases where the data to be entered into the control device are identical to data which have been entered immediately beforehand. , for example when the user wants a video image to be displayed repeatedly. This could of course be ensured by providing a "repeat" command as part of the available commands, and introduced by scanning a bar code in the same way as for the other commands. However, it is preferable to simplify as much as possible the input operations that the user must carry out in order to execute such a "rehearsal" command input function.

   Another embodiment of the invention will be described with reference to FIG. 7, aiming at such a simplified possibility of introducing a "repeat" command.
 EMI21.2
 



  In Figure 7? Ie reference number 32 designates a current limiting resistor by which a supply current is sent to a light emitting element 31. A light beam emitted by the element 31 passes through a spherical lens 33 and is reflected by a code to printed bars (not shown in FIG. 7), the returned envelope falling on a photoreceptor element 34. The element 34 consequently emits an output signal which is amplified by an imitating amplifier 35, which is brought to work in the region of saturation.

   A waveform bar code signal, emitted by amplifier 35, is transmitted by an input terminal of a repeat switch 36 to a detector 20 of a disc player control system conforming to the present invention, as well as to a "repetition" control detection circuit 52. The lens 33, the elements 31, 34 and the amplifier 35, with the repetition switch 37 constitute in combination

  <Desc / Clms Page number 22>

 
 EMI22.1
 The analyzer 19 shown in FIG. 1. A "repetition" signal of a predetermined frequency is delivered by an oscillator 37 to the other input terminal of the repetition switch 36.

   The repeat switch is of the non-locking type, and makes it possible to select the "repeat" signal coming from oscillator 37 which must be sent to the control system as long as the repeat switch 36 is actuated by the user, and at select the barcode the other times.



  Figures 9A and 8B show the waveforms of a bar code signal from the amplifier 35 and the "repetition" signal from the oscillator 37 respectively.



  The bar code signal is reconstituted by the decoder of a detector 20 into a coded signal of a suitable form to be processed by the central unit 13. The "repetition" signal is detected by the control detection circuit of " repetition "52, consisting for example of a filter which lets through only the frequency of the" repetition "signal and a comparator which emits a" repetition "control output only when the level of the" repetition "signal coming from the filter output exceeds a predetermined level. The central unit 13 successively introduces the coded signal to be stored in the memory 15, and subsequently controls the operation of the disk drive in accordance with the command which is represented by the data thus stored, as just described.

   When the "repeat" signal is sent to the central unit 13, the coded signal data which has been stored in the memory 15 as a result of a previous scan of the printed bar code is extracted from the memory 15 and used at new to control the operation of the disc player.



  The operating sequence of the central unit 13 will be described with regard to the embodiment of FIG. 7, with reference to the flow diagram of FIG. 7. A main control program is stored

  <Desc / Clms Page number 23>

 
 EMI23.1
 previously in memory 15 and is executed while current is applied to the circuit of the control system. During the execution of this main control program, the operation is transferred to the subroutine, shown in FIG. 9, for introducing the output of the decoder. If a control signal is emitted by a decoder of the detector 20, this signal is introduced sequentially into the memory 15 and is stored there as control data.

   The memory 15 thus stores both the group of coded signals thus stored and a group of coded signals entered previously (step 581). If the user does not operate the repeat switch 36 (which is judged to be the Set step if a group of coded signals has been previously supplied and stored in the memory 15, this group is updated by the group of coded signals which is introduced at this instant (step Sm). "repeat" command is issued (step 5821, the updating of the group of coded signals previously introduced is not executed, and this group remains unchanged (step Sic.).



  The operation then returns to the main control program and the control of the operation of the disc player is carried out in accordance with the commands expressed by the group of coded signals previously introduced.



  If the "repeat" command is issued, the operation of the disc reader is controlled according to a group of coded signals previously entered and stored, without the need for further analysis of the bar code.



  It is also possible to distinguish the "repetition" signal as a function of a pulse width difference between the pulses of the "repetition" signal and the pulses of the bar code signal supplied by the analyzer.



  It would of course be possible to carry out the functions of the decoder 20 in the central unit 13.



  Another embodiment of the present invention is shown in the block diagram of Figure 10. The components of Ja 10 identical to those of Figure 7 are indicated by corresponding reference numbers, and a detailed description is omitted. In this embodiment,

  <Desc / Clms Page number 24>

 a supply line to the analyzer 19 is connected to ground when the switch 36a is closed, and this condition is detected by a level detector 55 forming part of the control system of the disc player.



   Thus, the output signal from the level detector 55 constitutes a "repetition" signal, dom the function has been described below. The operation of this embodiment is in other respects identical to that of the embodiment of FIG. 7.



  As is apparent from the above, a bar code analyzer of a device in accordance with the present invention can be provided with a repeat switch. The actuation of this switch entails a new automatic application of a command expressed by coded data previously entered to control the operation of a disk drive. Such a characteristic brings an important simplification to the use of the analyzer.


    

Claims (6)

 CLAIMS I) A method for controlling an apparatus for reading a data recording medium essentially comprising: a step of introducing by reading a printed code comprising a plurality of digits to establish a corresponding coded signal; a decision step for judging said coded signal in order to extract therefrom an operating command which is expressed by said printed code, said decision step comprising steps for detecting the total number of digits in the coded signal independently of the contents of the data expressed by said digits, and the generation of said operating command as a function of both the contents of the data and the total number of digits;  and a control step of applying an operation command to the reading apparatus of a data recording medium in accordance with said operation command. 2) A control method comprising: an input procedure comprising reading a printed code comprising a plurality of digits to obtain a corresponding coded signal; a decision procedure, comprising judging the contents of said coded signal to generate the operating commands, said decision procedure comprising steps of detecting the total number of digits in the coded signal independently of the contents of the data expressed by said digits, and the generation of said operating commands as a function of both the content of the data and the total number of digits,  and  <Desc / Clms Page number 26>  a control procedure comprising sending said operating commands to a reading section of a recording medium and to the reading signal processing system of a reading apparatus of a data recording medium in accordance with the result obtained by said decision procedure. 3) control method according to claim 2, wherein said predetermined figure is a low weight figure of said control signal. 4) Control method comprising: an input procedure for entering a printed code comprising a plurality of digits; a decision procedure for judging the content of said coded signal obtained during said introduction procedure, said decision procedure comprising the steps of detecting the total number of digits in the coded signal independently of the contents of the data expressed by said digits, and the generation of operating commands based on both the contents of the data and said total number of digits, and a control procedure for supplying said operating commands to a reading apparatus of a data recording medium in accordance with the result obtained during said procedure  EMI26.1  of declsion;  and a modification procedure for modifying said results of a decision taken during said decision procedure relating to the contents of the digits of said coded signal in accordance with the contents of at least one other predetermined digit of the coded signal.  <Desc / Clms Page number 27> 5) Apparatus for controlling an apparatus for reading a data recording medium, comprising: a printed code analyzer for converting optical changes caused during the analysis of a printed code into an electrical code signal;  decision means for judging the operating commands which are expressed by said coded signal, said decision means comprising means for detecting the total number of digits in said coded signal independently of the contents of the data expressed by said digits, and means for generating said operating command as a function of both the contents of the data and the total number of digits, and control means for issuing operating commands in order to control said apparatus for reading from a recording medium data in accordance with the operating commands obtained following said judgment by your decision-making officers;  wherein the printed code analyzer includes a manually operated repeat switch, and wherein said decision means is responsive to actuation of said repeat switch to maintain unchanged the contents of the electric coded signal from the code analyzer Printed. 6) A control device according to claim 5, characterized in that said manually controlled repeat switch is a non-lockable switch.