JP2012038388A - Optical information storage medium and optical information storage medium reproducing device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an optical information storage medium and an optical information storage medium reproducing device that can prevent specific data stored in an RE layer from deteriorating and being unreproducible against a user's will.SOLUTION: An optical information storage medium 100 comprises: on a substrate 50, a plurality of information storage layers (a ROM layer 20 and an RE layer 40) from which information can be read out by reproduction light; an intermediate layer 30 for separating the information storage layers from each other; and a light-transmitting layer 10 provided at the farthest position from the substrate 50. The information storage layers include the ROM layer 20 from which information can be read out only, and the RE layer 40 including a region in which information can be rewritten. The optical information storage medium 100 stores information of applicable appliances based on which a corresponding optical disk determines whether specific information stored in the RE layer 40 can be reproduced or not.

Description

  The present invention relates to an optical information recording medium having a plurality of information recording layers on which various types of information are recorded, and a reproducing apparatus thereof.

  Currently, there are various optical information recording media such as a read-only type (hereinafter referred to as ROM (Read Only Memory)), an additional recording type, a rewritable type (hereinafter referred to as RE (REwritable)), and two-layer versions of each. Although the medium of the form has been commercialized, new uses are rarely proposed as uses.

  On the other hand, although not commercialized at present, Patent Document 1 describes a combination disk having both a ROM layer and an RE layer, which can record contents related to the contents of the ROM layer of the disk in the RE layer.

  As an application of this combination disk, if the above-mentioned Patent Document 1 records the first period of continuous drama content and the recording information for recording the second period of the continuous drama content in the ROM layer, it is easy. New applications are described such that continuous drama content of the second period can be recorded in the RE layer, and the first drama content and the second period drama content can be stored on one disc.

  In this way, expectations for a combination disk that can be used for new applications that have never existed have increased.

International Publication No. 2009/123289 Pamphlet (October 8, 2009) International Publication No. 2010/082505 pamphlet (released July 22, 2010) International Publication No. 2009/008435 pamphlet (released on January 15, 2009)

  However, since the combination disk is a so-called removable disk, it must be reproducible by playback devices of various manufacturers.

  On the other hand, for the reason described in Patent Document 2, in the BD (Blu-ray Disc) type combination disc, the information recording layer provided farthest from the light-transmitting layer needs to be the RE layer. .

  Therefore, for example, in a two-layer combination disc, the ROM layer is provided at a position closer to the light transmitting layer, and the RE layer is provided at the position farthest from the light transmitting layer.

  However, the ROM layer having a high reflectance and the RE layer having a low reflectance are made equal in consideration of access to each layer, and the reflectance is described in Patent Document 3. In order to achieve backward compatibility, it is necessary to make the RE layer for a combination disc and the RE layer of a two-layer RE disc composed of only the RE layer have the same reflectivity.

  In addition, in order to obtain characteristics related to reproduction durability, such as the adaptation limit value of the reproduction laser power and the adaptation limit value of the ratio of the peak power to the average power in high-frequency superposition (a technique for modulating and irradiating the reproduction light at a high frequency). High accuracy is required for each film constituting the RE layer for a combination disk.

  For this reason, in mass production, there may be some variation in characteristics relating to reproduction durability, such as the adaptive limit value of the reproduction laser power and the adaptive limit value of the ratio of the peak power to the average power in high frequency superposition.

  That is, depending on the combination disc, when the RE layer is reproduced, information that the user does not want to erase may be deteriorated. For example, there arises a problem that some information of a continuous TV drama is deteriorated and cannot be reproduced.

  On the other hand, there is a problem that the reproduction laser power of the reproduction apparatus and the ratio of the peak power to the average power in the high frequency superimposition vary substantially between companies.

  For example, in two types of evaluation apparatuses A and B corresponding to a BD having a semiconductor laser capable of emitting laser light having a wavelength of 405 nm and an optical system having a numerical aperture (NA) of 0.85, the reproduction laser power is set to 0. The initial signal waveform reproduced from the RE layer of the prototype combination disk set at .7 mW was compared with the signal waveform after reproduction about 40000 times. The evaluation apparatuses A and B are equipped with semiconductor lasers manufactured by different manufacturers. The results of the evaluation device A are shown in FIGS. 6 (a) and 6 (b). FIG. 6A shows an initial signal waveform reproduced from the RE layer of the combination disc in the evaluation apparatus A, and FIG. 6B shows a state after reproducing about 40000 times from the RE layer of the combination disc in the evaluation apparatus A. The signal waveform is shown.

  6A and 6B, it can be seen that the signal waveform is broken after reproduction about 40000 times (FIG. 6B). Further, in the evaluation apparatus B, no deterioration of the signal waveform as described above was observed.

In other words, depending on the evaluation device (or manufacturer), there is a problem that the effect on the combination disc varies during playback. In order to do this, it is necessary to increase the frequency of sampling inspections at the manufacturing stage to increase the production accuracy. In this case, the production cost of the combination disk is higher than that of producing a disk composed only of the RE layer.

  In view of the above problems, an object of the present invention is to enable both protection of information and low production cost, and to easily manage reservation recording and downloading of a plurality of related contents such as a continuous TV drama. An information recording medium (combination disk) that can be recorded and an optical information recording medium recording / reproducing apparatus are provided.

  In order to solve the above problems, an optical information recording medium according to the present invention separates, on a substrate, a plurality of information recording layers from which information can be read by reproduction light, and each of the plurality of information recording layers. An intermediate layer and a translucent layer provided at a position farthest from the substrate, and the plurality of information recording layers include a layer that can only read information and a rewrite that includes a region where information can be rewritten. An optical information recording medium comprising a layer, wherein adaptable device information for determining whether or not the specific information recorded in the rewritable layer can be reproduced is recorded. Yes.

  According to the above configuration, the optical information recording medium is a combination disc having a layer that can only read information and a rewrite layer that includes an area where information can be rewritten. With such a combination disc, it is possible to easily manage reservation recording and downloading of a plurality of contents related to each other.

  When this optical information recording medium is reproduced by an optical information recording medium reproducing apparatus, it is determined whether or not the specific information recorded in the rewritable layer can be reproduced using the adaptable device information recorded in the optical information recording medium. .

  Therefore, when the user tries to reproduce the specific information with the optical information recording medium reproducing apparatus that is not adapted to the rewrite layer of the optical information recording medium, the user selects not to reproduce the specific information (or Can be selected by the user). As a result, it is possible to prevent the specific information recorded in the rewriting layer from being deteriorated against the user's intention and being unable to be reproduced.

  The adaptable device information is preferably recorded in an area and / or form that cannot be rewritten by the user.

  With the above configuration, it is possible to prevent the adaptive device information from being accidentally deleted by the user.

  Further, it is preferable that the adaptable device information is recorded in a layer from which information can only be read.

  If the adaptable device information is recorded in a layer from which information can only be read, the adaptable device information can be prevented from being accidentally deleted by the user.

  In addition, in the layer that can only read the information, a data area in which information usable by the user is recorded, and a lead-in area in which information used by the corresponding optical information recording medium reproducing device is recorded It is preferable that the adaptable device information is recorded in the data area.

  Normally, the content recorded in the lead-in area other than the data area is recorded in accordance with a predetermined standard and cannot be changed by the manufacturer's own judgment of the optical information recording medium. Therefore, it is difficult for a manufacturer to record applicable device information in the lead-in area in consideration of the characteristics (quality) of the produced RE layer.

  With the above-described configuration in which the applicable device information is recorded in the data area of the layer from which information can only be read, the optical information recording medium is manufactured and stocked up to the rewritten layer. In consideration of characteristics, a stamper having a layer that can only read information can be manufactured.

  Moreover, it is preferable that the applicable apparatus information is recorded in a file format.

  With the above configuration, it is possible to refer to adaptable device information using a file system similar to normal data, and even when the optical disk device is composed of a personal computer optical disk drive and personal computer software, search for adaptable device information is possible. Easy management.

  Moreover, it is preferable that the applicable device information is recorded as a barcode-like stripe together with the disc type identification information and the individual identification number.

  With the above configuration, the user cannot rewrite the adaptable device information, and the adaptable device information can be read together when reading the disc type identification information and the individual identification number.

  The adaptable device information is preferably information including a manufacturer code of an optical information recording medium recording / reproducing apparatus manufacturer.

  The output of reproducing light from the optical information recording medium recording / reproducing apparatus is almost determined for each manufacturer. Therefore, by including information that identifies the manufacturer of the optical information recording medium recording / reproducing apparatus in the adaptable device information, it is possible to identify the optical information recording medium recording / reproducing apparatus that emits the adaptable output reproducing light.

  Further, the adaptable device information is a display control for performing a display prompting the user to indicate the intention of permission to the optical information recording medium reproducing apparatus when the specific information is reproduced by the optical information recording medium reproducing apparatus. It may be information that activates the means.

  With the above configuration, it is possible to compare the merit of reproducing the specific information with the demerit that the specific information is degraded and cannot be reproduced, and determine whether to reproduce the specific information according to the user's own intention.

  The specific information may be information recorded on the rewrite layer by a user.

  With the above configuration, information recorded on the rewrite layer by the user can be protected as specific information.

  An optical information recording medium reproducing apparatus according to the present invention is an optical information recording medium reproducing apparatus for reproducing information recorded on the optical information recording medium, in order to solve the above-described problems. Reproducing means for reproducing the recorded adaptable device information, the reconstructed adaptable device information, and the identification information relating to the own device or the light adapted to the own device possessed by the optical information recording medium reproducing device itself It is characterized by having collation means for collating identification information relating to the information recording medium, and determination means for deciding whether to reproduce the specific information recorded in the rewrite layer based on the collation result.

  According to the above configuration, the reproducing unit reproduces the adaptable device information recorded on the optical information recording medium, and the reproduced adaptable device information and the identification information held by the optical information recording medium reproducing device are obtained. The verification means performs verification. The identification information held by the optical information recording medium reproducing apparatus is identification information regarding the own apparatus or identification information regarding the optical information recording medium adapted to the own apparatus. Then, the determining means determines whether or not the specific information recorded in the rewrite layer can be reproduced based on the collation result of the collating means.

  Therefore, when the user tries to reproduce the specific information with the optical information recording medium reproducing apparatus that is not adapted to the rewrite layer of the optical information recording medium, the user selects not to reproduce the specific information (or Can be selected by the user). As a result, it is possible to prevent the specific information recorded in the rewriting layer from being deteriorated against the user's intention and being unable to be reproduced.

  As described above, in the optical information recording medium according to the present invention, adaptable device information for determining whether or not the corresponding information recorded in the rewritable layer can be reproduced is recorded by the corresponding optical information recording medium reproducing device. It is a configuration.

  Therefore, it is possible to prevent the specific information recorded in the rewriting layer from being deteriorated against the user's intention and being unable to be reproduced.

It is sectional drawing which shows notionally the structure of the optical information recording medium based on one Embodiment of this invention. 1 is a block diagram showing a schematic configuration of an optical disc apparatus according to an embodiment of the present invention. It is a block diagram which shows the structure of the main control part with which the said optical disk apparatus is provided. It is a flowchart which shows an example of the flow of a reading process of the applicable apparatus information in the said optical disk apparatus. It is a flowchart which shows an example of the flow of reproduction | regeneration processing of the specific information in the said optical disk apparatus. (A) is a figure which shows the initial signal waveform reproduced | regenerated from RE layer of the combination disk, (b) is a figure which shows the signal waveform after reproducing | regenerating about 40000 times from RE layer of a combination disk.

  One embodiment of the present invention will be described below with reference to FIGS.

(Configuration of optical information recording medium 100)
First, based on FIG. 1, the structure of the optical information recording medium 100 which is one Embodiment of this invention is demonstrated. FIG. 1 is a sectional view conceptually showing the structure of the optical information recording medium 100 of the present embodiment.

  As shown in FIG. 1, the optical information recording medium 100 includes a light-transmitting layer 10, a ROM (Read Only Memory) layer 20, an intermediate layer 30, and a RE (Recordable) layer 40 from the incident side of the reproduction light from the optical head 12. And the board | substrate 50 is provided. Information recorded in the ROM layer 20 and the RE layer 40 can be read by reproduction light.

  That is, the optical information recording medium 100 includes a plurality of information recording layers (ROM layer 20 and RE layer 40) from which information can be read by reproduction light on the substrate 50, and an intermediate for separating each of the plurality of information recording layers. The layer 30 and the translucent layer 10 provided at the position farthest from the substrate 50 are included. The plurality of information recording layers include a ROM layer 20 that can only read information and an RE layer 40 (rewrite layer) that includes an area where information can be rewritten.

  As will be described later, the optical information recording medium 100 records adaptable device information for the corresponding optical information recording medium 100 to determine whether or not the specific information recorded in the RE layer 40 can be reproduced.

  In the optical information recording medium 100, the information recording layer includes only the ROM layer 20 and the RE layer 40. However, the information recording layer may include three or more layers. For example, a plurality of RE layers 40 may be provided.

(Details of each layer)
<Translucent layer 10>
The light transmissive layer 10 is a layer that transmits the reproduction light emitted from the optical head 41, and is made of, for example, an ultraviolet curable resin having a thickness of 75 μm. The material of the light transmissive layer 10 may be any material having a high transmittance at the wavelength of the reproduction light. Further, a hard coat for surface protection may be provided on the surface of the light transmissive layer 10.

<ROM layer 20>
The ROM layer 20 is a so-called read-only information recording layer and is a layer that can only read information. The ROM layer 20 is made of APC (AgPdCu) having a thickness of 9 nm, for example.

  The ROM layer 20 has a first information recording area 20A and a second information recording area 20B from the outer peripheral side of the optical information recording medium 100.

  The first information recording area 20A is a data area in which information that can be used by the user is recorded. The information that can be used by the user is, for example, various software such as OS (operating system) and application software, and various contents such as moving image data.

  The second information recording area 20B is a lead-in area in which information used by the corresponding optical disc device 1 is recorded. In this area, medium information related to the optical information recording medium 100 such as medium type information, reproduction condition information, and sector last number information is mainly recorded.

  The medium type information is information on the type and the number of layers such as R, RE, and ROM (in this embodiment, a combination of a ROM layer and an RE layer). The reproduction condition information is information such as recommended reproduction laser power and linear velocity. The sector last number information is information indicating an area in which the ROM layer is recorded.

<Intermediate layer 30>
The intermediate layer 30 is a layer for separating the ROM layer 20 and the RE layer 40 and is made of, for example, a transparent ultraviolet curable resin having a thickness of 25 μm. The material of the intermediate layer 30 is not limited to this, and any material having a high transmittance at the wavelength of the reproduction light may be used. Further, the thickness of the intermediate layer 30 may be an appropriate thickness so that the ROM layer 20 and the RE layer 40 can be separated and interlayer crosstalk does not become a problem.

<RE layer 40>
The RE layer 40 is a so-called rewritable information recording layer and is a layer capable of rewriting information. The RE layer 40 is formed by laminating seven thin films by, for example, sputtering. Specifically, the seven layers of thin films are formed from the reproduction light incident side from the first protective film (ZnS—SiO _{2 having} a thickness of 35 nm), the second protective film (ZrO _{2 having a} thickness of 5 nm), and the recording layer ( 7 nm thick GeTe-Sb ₂ Te ₃ ), 3rd protective film (5 nm thick ZrO ₂ ), 4th protective film (35 nm thick ZnS—SiO ₂ ), 5th protective film (5 nm thick ZrO ₂ ) ₂ ) and a reflective film (APC (AgPdCu) having a thickness of 20 nm) are sequentially laminated.

  Further, the RE layer 40 has a third information recording area 40A and a fourth information recording area 40B from the outer peripheral side of the optical information recording medium 100.

  The third information recording area 40A is a data area, and information (including specific information described later) that is arbitrarily recorded by the user is recorded in the third information recording area 40A.

  The fourth information recording area 40B is a lead-in area, and is provided on the outer peripheral side of the BCA (Burst Cutting Area) area. In the lead-in area, medium information related to the optical information recording medium 100 such as medium type information, reproduction condition information, and recording condition information is mainly recorded.

  The medium type information is information on the type and the number of layers such as R, RE, and ROM (in this embodiment, a combination of a ROM layer and an RE layer). The reproduction condition information is information such as recommended reproduction laser power and linear velocity. The recording condition information is information such as recommended recording power and recommended recording strategy.

  In addition, identification information (disc identification information) indicating the structure of the optical information recording medium is mainly recorded on the BCA. Specific examples of identification information include disc layer type (reproduction-only type, write-once type, rewritable type), disc size, disc version (related to speed, etc.), disc recording / playback standard conditions and disc A unique number can be exemplified. The recording order (or arrangement method) of these pieces of identification information in the BCA may be arbitrary. These recording orders are usually determined by standards and the like.

  The fourth information recording area 40B stores file management information for managing information such as OS update information recorded in the third information recording area 40A in units of files. Thereby, the information recorded in the third information recording area 40A can be managed in units of files based on the file management information.

  Note that the thickness, the number of layers, the constituent materials, and the formation method of the light-transmitting layer 10, the ROM layer 20, the intermediate layer 30, the RE layer 40, and the substrate 50 are not limited to those described above. good.

(Configuration of optical disc apparatus 1)
Next, based on FIG. 2 and FIG. 3, the structure of the optical disk apparatus (optical information recording medium reproducing apparatus) 1 which is one embodiment of the present invention will be described. The optical disk device 1 is a device that records and reproduces information on and from an optical information recording medium such as a DVD or a BD including the optical information recording medium 100.

  FIG. 2 is a block diagram showing a schematic configuration of the optical disc apparatus 1. As shown in FIG. 2, the optical disc apparatus 1 mainly includes a main control unit 2, a recording / reproducing circuit group 3, an optical pickup 4, a spindle motor 5, a storage unit 6, an operation unit 7, a display (display means, display device) 8, and A disk loading recognition unit 9 is included.

  The optical pickup 4 further includes an optical head 41 and an actuator 42.

  The recording / reproducing circuit group 3 further includes a pickup driving circuit 31, a laser driving circuit 32, a reproducing circuit 33, an actuator driving circuit 34, and a spindle motor driving circuit 35.

  The storage unit 6 records (1) a control program for each unit, (2) an OS program, (3) an application program, and (4) various data to be read when the program is executed by the main control unit 2. Is. In particular, the storage unit 6 stores adaptable device information read from the optical information recording medium 100 and identification information related to the own apparatus (optical disc apparatus 1) or identification information related to the optical information recording medium adapted to the own apparatus. The storage unit 6 is configured by a nonvolatile storage device such as a hard disk or a flash memory.

  The operation unit 7 is used by the user to input various operation commands to the optical disc apparatus 1, and examples thereof include operation buttons and their interfaces.

  Note that the reproduction information from the reproduction circuit 33 is temporarily or constantly recorded in the storage unit 6.

  The display 8 is for displaying an image as a result of reading data recorded in the storage unit 6, a message for the user, and the like. This display 8 is, for example, a liquid crystal display. The display 8 may be a separate display device that is communicably connected to the optical disc device 1.

  The disk loading recognition unit 9 is for detecting the loading of the optical information recording medium 100. For example, various sensors can be exemplified, but any type can be used as long as the loading of the optical information recording medium 100 can be detected. A sensor may be used. The disc loading recognition unit 9 outputs the detected result to the main control unit 2 as a detection signal.

(Outline of operation of optical disc apparatus 1)
<Operation during playback>
At the time of reproducing information, in the optical disc apparatus 1, the main control unit 2 drives the actuator 42 via the actuator drive circuit 34 to move the optical pickup 4 to the vicinity of the optical information recording medium 100. Further, the main control unit 2 moves the optical pickup 4 to the recording part of the optical information recording medium 100 via the pickup driving circuit 31. Then, the main control unit 2 irradiates the optical information recording medium 100 with a reproducing laser beam from the optical head 41 via the laser driving circuit 32.

  Next, the reflected light detected by the optical head 41 is converted into a reproduction signal by the reproduction circuit 33 and input to the main control unit 2. Thereby, the optical disc apparatus 1 reproduces the information recorded on the track of the optical information recording medium 100.

<Operation during recording>
At the time of recording information, in the optical disc apparatus 1, the optical information recording medium 100 is rotated by the spindle motor 5 driven by the spindle motor drive circuit 35. Further, when the actuator 42 is driven by the actuator driving circuit 34, the optical pickup 4 moves to the vicinity of the rotated optical information recording medium 100. Further, the optical pickup 4 is moved to a track of the optical information recording medium 100 (not shown) by the pickup driving circuit 31.

  Then, the main control unit 2 sets recording conditions via the laser drive circuit 32 and irradiates a recording laser beam from the optical head 41 onto a recording portion of the optical information recording medium 100, thereby Information is recorded on the track.

(Configuration of main control unit 2)
FIG. 3 is a block diagram showing a configuration of the main control unit 2. As shown in FIG. 3, the main control unit 2 includes a reproduction control unit 21, a disk management unit 28, a pickup control unit 29, and a laser control unit 36.

  The reproduction control unit 21 issues instructions to the pickup control unit 29 and the laser control unit 36 to reproduce information recorded on the optical information recording medium 100. The reproduction control unit 21 together with the optical pickup 4 and the recording / reproducing circuit group 3 can be regarded as one of reproducing means for reproducing the adaptable device information recorded on the optical information recording medium 100.

  As shown in FIG. 3, the reproduction control unit 21 includes a collation unit (collation unit) 22, a reproduction availability determination unit (determination unit) 23, an RE reproduction instruction unit 24, a ROM reproduction instruction unit 25, a reproduction data processing unit 26, and a display. A control unit (display control means) 27 is provided.

  The collation unit 22 collates the reproduced adaptable device information with the identification information about the own device or the identification information about the optical information recording medium adapted to the own device, which the optical disc device 1 itself has.

  The reproducibility determiner 23 determines whether or not the specific information recorded in the RE layer 40 can be replayed based on the result collated by the collator 22. Details of the specific information and a method for determining whether or not to reproduce can be described later.

  The RE reproduction instruction unit 24 instructs to read arbitrary information recorded by the user stored in the RE layer 40, file management information, and the like. However, the specific information among the arbitrary information recorded by the user is instructed to reproduce the specific information only when the reproduction possibility determination unit 23 determines that the specific information can be reproduced.

  The ROM reproduction instruction unit 25 instructs to read software or content stored in the ROM layer 20.

  The reproduction data processing unit 26 receives reproduction information transmitted from the optical head 41 via the reproduction circuit 33 to the main control unit 2 and outputs the reproduction information to the display 8 via the display control unit 27. Is what you do. The reproduction information includes video information, audio information, OS, file management information, and the like, and processing according to the type of reproduction information is performed.

  The display control unit 27 performs processing for causing the display 8 to display video information read from the optical information recording medium 100, a message presented to the user, a screen for selecting information to be reproduced, and the like.

  The disc management unit 28 receives a detection signal output when the disc loading recognition unit 9 detects that the optical information recording medium 100 is loaded in the optical disc apparatus 1, and issues an operation command to the reproduction control unit 21 and the like. It performs processing such as transmission.

  The pickup control unit 29 controls the pickup drive circuit 31 under the control of the reproduction control unit 21.

  The laser control unit 36 controls the laser drive circuit 32 under the control of the reproduction control unit 21.

(Details of specific information)
Of the information that the user arbitrarily records, information that the user does not want to erase is referred to as specific information. This specific information is arbitrary information specified by the user, and may be information recorded in the RE layer 40 by the user. The information recorded on the RE layer 40 by the user includes information downloaded via a network such as the Internet. The download may be performed at a predetermined timing set by the user.

  The user may be configured to automatically consider certain types of data (for example, certain file formats) as specific information, or specify whether the user is specific information for each piece of data May be performed. The designation of the specific information may be performed when the information is recorded on the RE layer 40, or may be performed at an arbitrary timing after the information is recorded on the RE layer 40.

  A method for identifying whether the information recorded in the RE layer 40 is specific information is not particularly limited. For example, a character or symbol indicating that the file is specific information may be included in the file name. Such setting of the file name may be performed manually by the user, or when the user inputs an instruction to specify the selected data as the specific information, the main control unit 2 sets the file name of the data. May be set.

  Further, as described above, data in a specific file format may be regarded as specific information. Or conversely, information indicating that it is not specific information may be given to data that is not specific information.

(Details of applicable device information)
The adaptable device information is information for the optical disc apparatus 1 to determine whether or not the specific information recorded in the RE layer 40 can be reproduced. More specifically, at least one piece of this adaptable device information is recorded on the optical information recording medium 100, and indicates the following information or a combination thereof. That is, the adaptable device information includes (1) an optical disc device capable of reproducing specific information recorded in the RE layer 40 of the optical information recording medium 100 in which the adaptable device information is recorded (referred to as an adaptable reproducing device). (2) The manufacturer code of the manufacturer of the adaptable playback device, or (3) the optical disc device loaded with the optical information recording medium 100 is placed on the RE layer 40 of the optical information recording medium 100. Information indicating the quality of the RE layer 40 of the optical information recording medium 100, or a combination thereof, for determining whether or not the recorded specific information can be reproduced. The information indicating the quality of the RE layer 40 is, for example, information indicating the quality of the RE layer 40 at a plurality of levels.

  This adaptable device information is recorded in a file format. By recording the applicable device information in the file format, it becomes possible to refer to the applicable device information using the same file system as the normal data, and when the optical disk device 1 is composed of an optical disk drive for a personal computer and personal computer software. The search and management of applicable device information can be facilitated.

  As the adaptable device information, a plurality of information indicating the model of the adaptable playback device, the manufacturer code, or the quality of the RE layer 40 may be set.

  When the optical information recording medium 100 includes a plurality of RE layers 40, applicable device information for each RE layer 40 may be recorded on the optical information recording medium 100, or a plurality of RE layers 40 are supported. One piece of applicable device information may be recorded. In this embodiment, it is assumed that one applicable device information is recorded on one optical information recording medium 100.

  The applicable device information is recorded in a non-rewritable area of the recording area of the optical information recording medium 100, or is recorded in a non-rewritable form in the rewritable area of the user. Or is recorded in a non-rewritable form in an area that is not rewritable by the user.

  The non-rewritable area by the user is, for example, a non-rewritable area set in advance in the ROM layer 20, the BCA (fourth information recording area 40B) of the RE layer 40, and the third information recording area 40A of the RE layer 40. This is an important area.

  The form that cannot be rewritten by the user is, for example, BCA recording or a recording method using irregularities in the ROM layer. Note that BCA recording is performed by irradiating an information recording layer with a pulse laser beam using a YAG laser or the like to form a stripe (such as a barcode) having a width of about 10 μm and a length of several hundred μm, for example. Is a method for recording.

  For example, the adaptable device information may be recorded as a barcode-like stripe together with the disc type identification information and the individual identification number.

  The area that cannot be rewritten by the user and the form that cannot be rewritten are not limited to those described above, but may be anything that can fulfill the purpose.

  However, the adaptable device information is preferably recorded in the ROM layer 20 particularly in the first information recording area (data area) 20A. This is because the content recorded in the lead-in area other than the data area is normally recorded in accordance with a predetermined standard and cannot be changed by the manufacturer's own judgment of the optical information recording medium. Therefore, the manufacturer cannot record the applicable device information in the lead-in area in consideration of the characteristics (quality) of the produced RE layer 40.

  That is, with the configuration in which applicable device information is recorded in the data area of the ROM layer 20, the optical information recording medium 100 is manufactured up to the RE layer 40 and stocked, and the characteristics of the produced RE layer 40 are taken into consideration. In addition, the stamper of the ROM layer 20 can be manufactured after determining the contents of the applicable device information.

  Note that since the ROM layer 20 can usually be made of a single film, quality control is easier than the RE layer 40, so it is relatively easy to perform quality control so as to be compatible with the reproduction laser power of each company.

  Further, as described above, the identification information related to the own apparatus (optical disk apparatus 1) or the identification information related to the optical information recording medium adapted to the own apparatus, which is the target of collation of the applicable apparatus information of the optical information recording medium 100, is stored in advance. Stored in the unit 6.

  The identification information related to the own device is, for example, the manufacturer code of the manufacturer of the optical disc apparatus 1 and model information indicating the model of the optical disc apparatus 1. Further, the adaptable recording medium information is an optical information recording medium that can reproduce the RE layer 40 in the optical information recording medium 100 or information that specifies the quality (for example, the quality level).

  The adaptable device information recorded on the optical information recording medium 100 and the identification information held by the optical disc apparatus 1 are in a relation that can be collated with each other. For example, if the applicable device information of the optical information recording medium 100 is a manufacturer code, the identification information of the optical disc apparatus 1 is also a manufacturer code.

(Applicable device information reading process flow)
Next, a process for reading applicable device information when the optical information recording medium 100 is loaded in the optical disc apparatus 1 will be described. FIG. 4 is a flowchart illustrating an example of a flow of read processing of adaptable device information in the optical disc apparatus 1.

  First, when the disc loading recognition unit 9 detects that the optical information recording medium 100 is loaded, a detection signal indicating that fact is transmitted to the disc management unit 28 (S1).

  Upon receiving the detection signal, the disk management unit 28 reads the disk identification information recorded in the BCA of the RE layer 40 with a very low output laser power (S2). Since the information recorded on the BCA is read with a low-power laser beam, the information recorded on the BCA does not deteriorate and cannot be reproduced. Thereafter, the disk management unit 28 outputs an operation command to the ROM reproduction instruction unit 25 of the reproduction control unit 21.

  In response to this operation command, the ROM reproduction instruction unit 25 controls the optical pickup 4 and the spindle motor 5 through the recording / reproducing circuit group 3, so that the lead-in area of the ROM layer 20 of the optical information recording medium 100 ( The information in the second information recording area 20B) and the adaptable device information recorded in the data area (first information recording area 20A) are read (S3).

  The reproduction data processing unit 26 stores the read adaptable device information in the storage unit 6 (S4). Then, the optical disc apparatus 1 enters a standby state.

  The optical disc apparatus 1 may read the adaptable device information from the optical information recording medium 100 when the user inputs an instruction to reproduce the specific information, and the timing for reading the adaptable device information is not particularly limited.

(Flow of specific information playback processing)
Next, an example of the flow of processing when reproducing the specific information recorded on the RE layer 40 will be described. FIG. 5 is a flowchart showing an example of the flow of the specific information reproduction process. Here, the case where the applicable device information is a manufacturer code of the manufacturer that manufactured the optical information recording medium 100 will be described as an example. Further, it is assumed that the adaptable device information has already been read from the optical information recording medium 100 and stored in the storage unit 6. In addition, it is assumed that the user has specified specific information in advance, and the file name of the specific information includes information indicating that the file is specific information.

  First, when the reproduction control unit 21 detects that the user has input an instruction to reproduce the information recorded in the RE layer 40 (S11), the reproduction availability determination unit 23 confirms the file name of the information. Thus, it is determined whether or not the information is specific information (S12). When it is determined that the information is specific information (YES in S12), the reproduction permission / inhibition determining unit 23 determines the applicable device information of the optical information recording medium 100 having the RE layer 40 in which the specific information is recorded and the own device. The collation unit 22 is instructed to collate with the manufacturer code.

  Upon receiving this command, the collation unit 22 collates the applicable device information (maker code) of the optical information recording medium 100 stored in the storage unit 6 with the maker code of the optical disc apparatus 1 (S13). The manufacturer code as applicable device information of the optical information recording medium 100 may include manufacturer codes of a plurality of manufacturers. In the case where a plurality of manufacturer codes are recorded, it is only necessary that one of them matches the manufacturer code of the optical disc apparatus 1.

  When one of the at least one manufacturer code as the applicable device information of the optical information recording medium 100 matches the manufacturer code of the optical disc apparatus 1 (YES in S14), the collation unit 22 determines the match result. Is output to the playability determination unit 23.

  When the match result is received, the reproduction permission / inhibition determination unit 23 instructs the RE reproduction instruction unit 24 to reproduce the specific information.

  Upon receiving this command, the RE reproduction instruction unit 24 reproduces the specific information by controlling the optical pickup 4 and the spindle motor 5 through the recording / reproducing circuit group 3 (S15).

  The reproduced specific information is displayed on the display 8 by the display control unit 27 through processing in the reproduction data processing unit 26 (S16).

  On the other hand, when one of at least one manufacturer code as applicable device information of the optical information recording medium 100 does not match the manufacturer code of the optical disc apparatus 1 (NO in S14), the collation unit 22 The mismatch result is output to the reproduction possibility determination unit 23.

  When the mismatch result is received, the reproduction permission / inhibition determining unit 23 receives a message (non-adaptive message) indicating that the RE layer 40 in which the specified specific information is recorded is not adapted to the optical disc apparatus 1 and the specific information cannot be reproduced. Is displayed on the display 8 via the display control unit 27 (S17).

  On the other hand, when it is determined that the information that the user has instructed to reproduce is not specific information (NO in S12), reproduction allowance determination unit 23 instructs RE reproduction instruction unit 24 to reproduce the information, The information is reproduced (S18).

  When the collation unit 22 outputs the mismatch result to the reproduction permission / inhibition determination unit 23, a display control message is displayed that indicates a non-adaptive message and prompts the user to input an instruction whether or not to reproduce the specific information. You may display on the display 8 via the part 27. FIG.

  In this case, if the user inputs a reproduction instruction, the reproduction availability determination unit 23 instructs the RE reproduction instruction unit 24 to reproduce the specific information.

  That is, the adaptable device information is information that activates the display control unit 27 that performs a display that prompts the user to indicate the intention of permission to the optical disc device 1 when the specific information is reproduced on the optical disc device 1. Also good.

  With this configuration, it is possible to compare the merit of reproducing the specific information with the demerit of destroying the specific information and determine whether to reproduce the specific information according to the user's own intention.

(Effects of optical information recording medium 100 and optical disc apparatus 1)
As described above, in the optical information recording medium 100 and the optical disc apparatus 1, the producer can reproduce the optical information recording medium 100 according to the state (quality) of the RE layer 40 of the produced optical information recording medium 100. One type (model or manufacturer) can be specified. The specified information is stored in the optical information recording medium 100 as adaptable device information, and it is determined whether or not the specific information recorded in the RE layer 40 can be reproduced in the optical disc apparatus 1 in which the optical information recording medium 100 is inserted. To be used.

  Therefore, it is possible to prevent specific data that the user does not want to erase from being deteriorated and cannot be reproduced.

(Other changes)
The present invention is not limited to the above-described embodiments, and various modifications are possible within the scope shown in the claims, and embodiments obtained by appropriately combining technical means disclosed in different embodiments. Is also included in the technical scope of the present invention.

  Each block of the optical disk device 1 described above, particularly the main control unit 2, may be configured by hardware logic, or may be realized by software using a CPU as follows.

  That is, the optical disc apparatus 1 includes a CPU (central processing unit) that executes instructions of a control program that realizes each function, a ROM (read only memory) that stores the program, a RAM (random access memory) that expands the program, A storage device (recording medium) such as a memory for storing the program and various data is provided. An object of the present invention is to provide a recording medium in which a program code (execution format program, intermediate code program, source program) of a control program of the optical disc apparatus 1 which is software that realizes the above-described functions is recorded in a computer-readable manner, This can also be achieved by supplying the optical disc apparatus 1 and reading and executing the program code recorded on the recording medium by the computer (or CPU or MPU).

  Examples of the recording medium include a tape system such as a magnetic tape and a cassette tape, a magnetic disk such as a floppy (registered trademark) disk / hard disk, and an optical disk such as a CD-ROM / MO / MD / DVD / CD-R. Card system such as IC card, IC card (including memory card) / optical card, or semiconductor memory system such as mask ROM / EPROM / EEPROM / flash ROM.

  Further, the optical disc apparatus 1 may be configured to be connectable to a communication network, and the program code may be supplied via the communication network. The communication network is not particularly limited. For example, the Internet, intranet, extranet, LAN, ISDN, VAN, CATV communication network, virtual private network, telephone line network, mobile communication network, satellite communication. A net or the like is available. Further, the transmission medium constituting the communication network is not particularly limited. For example, even in the case of wired such as IEEE 1394, USB, power line carrier, cable TV line, telephone line, ADSL line, etc., infrared rays such as IrDA and remote control, Bluetooth ( (Registered trademark), 802.11 wireless, HDR (high data rate), mobile phone network, satellite line, terrestrial digital network, and the like can also be used. The present invention can also be realized in the form of a computer data signal embedded in a carrier wave in which the program code is embodied by electronic transmission.

  The present invention can also be expressed as follows.

  That is, the optical information recording medium reproducing device of the present invention is an optical information recording medium reproducing device for reproducing information recorded on the optical information recording medium, and the adaptable device recorded on the optical information recording medium. Means for reproducing information, means for collating the reproduced adaptable device information with the identification information for identifying the optical information recording medium that is permitted to be reproduced and held by the reproducing apparatus itself, and the result of the collation And a means for determining whether or not the specific information recorded in the rewrite layer can be reproduced.

  The present invention can reduce the possibility that the specific information is deteriorated and cannot be reproduced when reproducing the specific information recorded in the rewritable layer of the optical information recording medium which can rewrite the information. Therefore, the present invention can be applied to an optical information recording medium in which it is desired to protect specific information recorded in the rewrite layer and its reproducing apparatus.

1 Optical disk device (optical information recording medium playback device)
4 Optical pickup (reproducing means)
10 Translucent layer 20 ROM layer (layer that can only read information)
20A First information recording area (data area)
20B Second information recording area (lead-in area)
21 Reproduction control unit (reproduction means)
22 Verification unit (verification means)
23 Reproducibility decision section (decision means)
24 RE reproduction instruction section (reproduction means)
26 Reproduction data processing unit (reproduction means)
27 Display control unit (display control means)
30 intermediate layer 40 RE layer (rewrite layer)
40A Third information recording area 40B Fourth information recording area 41 Optical head (reproducing means)
42 Actuator (reproducing means)
43 Recording layer 50 Substrate 100 Optical information recording medium

Claims (10)

On the substrate, a plurality of information recording layers from which information can be read by reproduction light, an intermediate layer separating each of the plurality of information recording layers, and a light-transmitting layer provided at a position farthest from the substrate The plurality of information recording layers is an optical information recording medium comprising a layer that can only read information and a rewrite layer that includes a region where information can be rewritten,
An optical information recording medium characterized in that adaptable device information for determining whether or not the specific information recorded in the rewrite layer can be reproduced is recorded by the optical information recording medium reproducing apparatus.   2. The optical information recording medium according to claim 1, wherein the adaptable device information is recorded in an area and / or form that cannot be rewritten by a user.   The optical information recording medium according to claim 2, wherein the adaptable device information is recorded in a layer from which information can only be read. The layer that can only read the information includes a data area in which information usable by the user is recorded and a lead-in area in which information used by the corresponding optical information recording medium reproducing device is recorded. Provided,
The optical information recording medium according to claim 2, wherein the adaptable device information is recorded in the data area.   5. The optical information recording medium according to claim 4, wherein the adaptable device information is recorded in a file format.   3. The optical information recording medium according to claim 2, wherein the applicable device information is recorded as a barcode-like stripe together with the disc type identification information and the individual identification number.   7. The optical information recording medium according to claim 1, wherein the adaptable device information is information including a manufacturer code of an optical information recording medium recording / reproducing apparatus manufacturer.   The adaptable device information includes display control means for displaying a display prompting a user to indicate permission to the optical information recording medium reproducing device when reproducing the specific information on the optical information recording medium reproducing device. 8. The optical information recording medium according to claim 1, wherein the optical information recording medium is information to be activated.   9. The optical information recording medium according to claim 1, wherein the specific information is information recorded on the rewrite layer by a user. An optical information recording medium reproducing device for reproducing information recorded on the optical information recording medium according to any one of claims 1 to 9,
Reproducing means for reproducing the adaptable device information recorded on the optical information recording medium,
Collating means for collating the reproduced adaptable device information with the identification information about the own apparatus or the identification information about the optical information recording medium adapted to the own apparatus possessed by the optical information recording medium reproducing apparatus itself;
An optical information recording medium reproducing apparatus comprising: a determining unit that determines whether or not the specific information recorded in the rewrite layer can be reproduced based on the collated result.