KR100677120B1 - Optical recording medium, recording/reproducing apparatus, recording/reproducing method, initializing method and re-initializing method - Google Patents

Abstract

Disclosed are an optical recording information storage medium, a recording / reproducing apparatus, a recording / reproducing method, an initialization method, and a reinitialization method according to the present invention.

The recording / reproducing apparatus according to the present invention is for recording access control data having common information set so that even a recording / reproducing apparatus that does not recognize a predetermined function applied to an optical recording information storage medium can control access to the medium. A recording / reading unit for recording data to or reading data from the medium provided with an access control area; and access control data relating to a function recognizable by the recording / reproducing apparatus when the medium is initialized or reinitialized. And a control unit for controlling the recording / reading unit to record the data into the access control area. According to the present invention as described above, a drive system for recognizing a function applied to a disc by recording common information on a disc access control that can be known even at a drive system having a different standard when the disc is initialized or reinitialized. In addition, non-functional drive systems can refer to this common information and take appropriate action to improve disk compatibility.

Description

Optical recording information storage medium, recording / reproducing apparatus, recording / reproducing method, initialization method and reinitialization method {Optical recording medium, recording / reproducing apparatus, recording / reproducing method, initializing method and re-initializing method}

1 is a reference diagram for explaining compatibility between discs of different standards according to the prior art;

2 is a reference diagram for explaining initialization or reinitialization compatibility between discs of different standards according to the present invention;

3 is a structural diagram of an optical record information storage medium according to the present invention;

4 is an example of detailed structural diagram of DMA # 1 shown in FIG. 3;

5 is a detailed structural diagram of an access control area shown in FIG. 3;

FIG. 6 is an example of access control data recorded in an access control area during initialization or reinitialization in the version 1.0 drive system shown in FIG. 3;

FIG. 7 is an example of access control data recorded in an access control area during initialization or reinitialization in the version 1.1 drive system shown in FIG. 3;

FIG. 8 is an example of access control data recorded in an access control area at initialization or reinitialization in the version 1.2 drive system shown in FIG. 3;

9 is a schematic block diagram of a recording / reproducing apparatus for performing initialization or reinitialization according to the present invention;

10 is a flowchart illustrating a process of an initialization method according to the present invention;

11 is a flowchart illustrating a process of a reinitialization method according to a first embodiment of the present invention;

12 is another example of a detailed structural diagram of DMA # 1 shown in FIG. 3;

FIG. 13 is an example of ACD state information shown in FIG. 12;

14A, 14B, 15A, and 15B are reference diagrams for explaining updating of status information of access control data when a disk is reinitialized according to the present invention, and FIGS. 14A and 14B are ACD before disk reinitialization. 15A and 15B are diagrams showing an example of an ACD block and ACD state information after disk reinitialization;

16 is a flowchart illustrating a process of a reinitialization method according to a second embodiment of the present invention;

17 illustrates a structure of a default ACD according to the present invention;

18 is a flowchart showing a procedure of a method of initializing a rewritable medium according to a third embodiment of the present invention;

19 is a flowchart showing a procedure of a method of reinitializing a rewritable medium according to a third embodiment of the present invention;

20 is a disc structure diagram of a write-once medium to which the present invention is applied;

21 is a flowchart showing a procedure of a method of initializing a recording medium once according to the third embodiment of the present invention;

Fig. 22 is a flowchart showing a procedure of a method of reinitializing a rewritable medium according to a fourth embodiment of the present invention.

TECHNICAL FIELD The present invention relates to the field of optical discs, and more particularly, to an optical record information storage medium, a recording / reproducing apparatus, a recording / reproducing method, an initialization method, and a re-initialization method, which enable the disk to be initialized to ensure recording / reproduction compatibility. It is about.

Recently, due to the development of optical disk technology and semiconductor technology, new functions are frequently added after the standards for optical disk drive systems and optical systems including optical disks are finalized. Initially determined specifications should be updated.

1 is a reference diagram for explaining a problem according to the prior art.

When the old standard is called "old standard" and a new function is added to the old standard and the updated standard is called "new standard", the old standard disk 12 is made to operate in the old standard drive system 11, The new standard disk 14 is made to be operated in the new standard drive system 13.

The old and new specifications may or may not be compatible with recording / playback due to new features added. The two standards achieve record / play compatibility, indicating that the old standard disc 12 used in the old standard drive system 11 can also be recorded / played back in the new standard drive system 13, and new The new standard disc 14 used in the standard drive system 13 indicates that recording / playback is also possible in the old standard drive system 11.

In order to ensure mutual recording / playback compatibility between the old standard and the new standard and the two standards by the addition of the new function as described above, when the disc 14 of the new standard having the new function is loaded in the old standard drive system 11 There is a need for the old standard drive system 11 to respond appropriately to the new function. To this end, when the old standard is enacted, it is necessary to prepare a proper response to the addition of new functions in the future. In addition, this appropriate countermeasure should be a general statement applicable to the new specification. The reason is that it should be applicable when new features are updated with newer features.

As a result, in order to have mutual recording / playback compatibility of a series of standards resulting from the addition of new functions, it is necessary to prepare for the addition of new functions when the standards are first created. To do this, it is necessary to establish the rules that the drive system should operate for functions known to the current specification and the rules that the current drive system should operate for the functions to be added in the future that the current specification does not know. In other words, when a new function is added to the current specification and a future specification is created, the drive system for the future specification stores an operation on the disk that the drive system for the current specification should perform for the new function. In this way, even when a disc of the future having a new function added to a drive system of the current standard is loaded, information stored on the disc can be read and an operation for the new function can be performed. In other words, the drive system of the future specification can tell how to operate the disk to which the drive of the current specification is applied without knowing the new function itself added to the future specification.

In this context, even when initializing or reinitializing a disk, different types of drive systems must initialize or re-initialize the disk so that the disk can be used to a minimum, even though it may not know about each function applied to any particular disk. How to initialize is required. Here, initialization refers to a predetermined process performed initially so that a blank disk can be used, and re-initialization refers to a predetermined process performed to reinitialize a disk. .

An object of the present invention is to provide an optical recording information storage medium, a recording / reproducing apparatus, a recording / reproducing method, an initialization method, and a re-initialization method for improving the compatibility of a disc even in drive systems having different standards.

One feature of the present invention for solving the above problems is that, in an optical recording information storage medium, even a recording / reproducing apparatus that does not recognize a predetermined function applied to the medium can be set to control access to the medium. An access control area for recording access control data having common information to be provided is provided in the medium, and access control data relating to a function recognizable by the recording / reproducing apparatus at the time of initialization or reinitialization of the medium includes the access control data. Is recorded in the area.

The common information of the access control data relating to the recognizable function preferably includes an identifier regarding the recognizable function, format information of the medium, and record / reproducibility information on detailed areas provided on the medium. Do.

Preferably, the format information and the record / playability information of the sub-areas are set to be formatable and recordable, respectively.

After the access control data is recorded in the access control area, the remaining unrecorded area is preferably filled with a predetermined value.

Another aspect of the present invention provides a recording / reproducing apparatus, wherein the recording / reproducing apparatus does not recognize a predetermined function applied to an optical recording information storage medium, but the access control having common information set to control access to the medium. A recording / reading unit for recording data to or reading data from the medium provided with an access control area for recording data, and a function recognizable by the recording / reproducing apparatus when the medium is initialized or reinitialized. And a control unit which controls the recording / reading unit to record the access control data relating to the access control area.

Another aspect of the present invention provides a recording / reproducing method, wherein the recording / reproducing apparatus does not recognize a predetermined function applied to an optical recording information storage medium, and has access having common information set to control access to the medium. For use of the medium provided with an access control area for recording control data, recording access control data relating to a function recognizable by the recording / reproducing apparatus in the access control area at the time of initialization or reinitialization of the medium; To include the steps.

According to still another aspect of the present invention, in a method of initializing an optical recording information storage medium having a lead-in area, a data area, and a lead-out area, a defect management area provided in the lead-in area to manage defects occurring in the data area. Recording initialization information for defect management and disc management; and access control data having common information set so that even a recording / reproducing apparatus that does not recognize a predetermined function applied to the medium can control access to the medium. Recording access control data relating to a function recognizable by the recording / reproducing apparatus in an access control region provided in the lead-in area for recording.

The initialization information includes allocation information of a spare area allocated to the data area for recording replacement data replacing defective data generated in the data area, and allocation information of a user data area in which user data of the data area is recorded. It is preferable to include a disk definition structure (DDS) including and initial information (DFL) for defect management.

A further aspect of the present invention is a reinitialization method of an optical recording information storage medium having a lead-in area, a data area, and a lead-out area, the defect management provided in the lead-in area for defect management and disc management of the medium. In the lead-in area for recording the access control data having the initialization information recorded in the area and the common information set so as to control the access to the medium even if the recording / reproducing apparatus that does not recognize a predetermined function applied to the medium is lost. Determining whether to allow reinitialization of the medium by using access control data recorded in the prepared access control area; and reinitialization information for defect management and disk management in the defect management area when reinitialization is allowed. Updating the; clearing the access control area, and A switch control region is a step to record access control data regarding the recording / reproducing device is recognizable function.

The reinitialization information includes allocation information of a spare area allocated to the data area for recording replacement data replacing the defective data generated in the data area, and a user data area in which user data is recorded in the data area. It is desirable to include a disc definition structure (DDS) containing information and initial information (DFL) for defect management.

The reinitialization method may further include determining a size of the spare area as allocation information of the spare area and determining a start address and an end address of the user data area as allocation information of the user data area.

Another aspect of the present invention provides a recording / reproducing apparatus comprising: an access having common information set to control access to the medium even in a recording / reproducing apparatus that does not recognize a predetermined function applied to an optical recording information storage medium. Data is recorded on or from the medium provided with an access control area (ACA) for recording control data and an access control data status information area for recording state information relating to a defective state or a recording state of the access control data block. And a control unit for controlling the recording / reading unit to change and record the state information of the access control data block upon reinitialization of the medium.

The control unit changes the state information of the ACD block indicating that the valid ACD is recorded before reinitialization to state information indicating that the invalid ACD is recorded and available for future ACD recording, and is defective before reinitialization. The status information of the ACD block representing the block or the status information indicating that it is available for future ACD recording is controlled so that it is not changed by reinitialization, and indicates that the block has a defect during playback although it indicates that it is a valid ACD before reinitialization. The state information of the ACD block is preferably changed to state information indicating that the defective block.

The control unit may further include the recording / reading unit to record "00h" or "FFh" in the identifier (ACD_ID) of the access control data to indicate whether the access control data block of the access control region is valid when reinitializing. It is desirable to control.

The control unit controls to read the ACD block based on state information of the access control data when the validity information of the ACD indicated by the ACD_ID and the state information of the access control data are different from each other. When an error occurs when reproducing state information, it is preferable to determine whether the access control data block is valid by referring to the ACD_ID of the access control data.

Another aspect of the present invention provides a recording / reproducing apparatus comprising: an access having common information set to control access to the medium even in a recording / reproducing apparatus that does not recognize a predetermined function applied to an optical recording information storage medium. Data is recorded or recorded on the medium provided with an access control area (ACA) for recording control data and an access control data status information area for recording status information relating to a defect state or a recording state of the access control data block. Reading data and changing and recording state information of the access control data block upon reinitialization of the medium.

Another aspect of the present invention provides a recording / reproducing apparatus comprising: an access having common information set to control access to the medium even in a recording / reproducing apparatus that does not recognize a predetermined function applied to an optical recording information storage medium. A recording / reading unit for recording data to or reading data from the medium provided with an access control area for recording access control data (ACD); and upon initializing or reinitializing the medium, Recording to record in the access control area a default ACD including common information and predetermined specific information set to allow recording / reproduction of detailed areas of the medium; And a control unit for controlling the reading unit.

At least some of the values set in the default ACD are preferably provided by the host, provided by the controller, or provided by the host and the controller.

Another aspect of the present invention provides a recording / reproducing apparatus comprising: an access having common information set to control access to the medium even in a recording / reproducing apparatus that does not recognize a predetermined function applied to an optical recording information storage medium. A recording / reading unit for recording data to or reading data from the medium provided with an access control area for recording control data, and the recording / reproducing apparatus is recognizable when the medium is initialized or reinitialized. Recalling a default ACD including common information and predetermined specific information set to allow recording / reproducing of at least detailed areas of the medium among the access control data relating to the function. And a control unit for controlling the recording / reading unit to record in the access control area.

Another aspect of the present invention provides a recording / reproducing apparatus comprising: an access having common information set to control access to the medium even in a recording / reproducing apparatus that does not recognize a predetermined function applied to an optical recording information storage medium. A recording / reading unit for recording data to or reading data from the medium provided with an access control area for recording control data, and access control data recorded in the access control area at the time of reinitialization of the medium ( ACD) among the ACD blocks, the ACD block for the function recognizable by the recording / reproducing apparatus is changed and recorded according to the user's intention, and the value indicating the state available for the ACD block for the function that the recording / reproducing apparatus is not recognizable. It includes a control unit for controlling the recording / reading unit to record.                     

The control unit may modify, delete, or add a new ACD block related to a recognizable function according to a user's intention with respect to the ACD block related to the recognizable function, and correspondingly, state information of the ACD block related to the recognizable function. It is preferable to further control the recording / reading unit so as to update the recording.

An ACD block for a new recognizable function is a default ACD that includes common information and certain specific information set to allow recording / reproduction of detailed areas of the medium. It is preferable to include.

The controller may record “00h” or “FFh” to indicate that there is no valid data in the ACD block for the unrecognizable function, and use the state information of the ACD block for the unrecognizable function in response thereto. It is preferable to further control the recording / reading unit to change and record to state information indicating that the block is present.

Another aspect of the present invention provides a recording / reproducing method, wherein the recording / reproducing apparatus does not recognize a predetermined function applied to an optical recording information storage medium, and has access having common information set to control access to the medium. Common information configured to allow recording / reproducing of detailed areas of the medium upon initialization or reinitialization of the medium provided with an access control area for recording access control data (ACD). And recording a default ACD including the predetermined specific information in the access control area.                     

Another aspect of the present invention provides a recording / reproducing method, wherein the recording / reproducing apparatus which does not recognize a predetermined function applied to an optical recording information storage medium has access information having common information set to control access to the medium. At the time of initialization or reinitialization of the medium provided with an access control area for recording data, the recording / reproducing apparatus allows recording / reproducing of at least the detailed areas of the medium in the access control data relating to the recognizable function. And recording, in the access control area, a default ACD including the set common information and predetermined specific information.

Another aspect of the present invention provides a recording / reproducing method, wherein the recording / reproducing apparatus does not recognize a predetermined function applied to an optical recording information storage medium, and has access having common information set to control access to the medium. Among the access control data (ACD) blocks recorded in the access control area at the time of re-initialization of the medium provided with the access control area for recording the control data, an ACD block relating to a function recognizable by the recording / reproducing apparatus is defined by the user. Recording by altering according to the intention, and recording by a value indicating a usable state in an ACD block relating to a function in which the recording / reproducing apparatus is not recognizable.

The present invention will now be described in detail with reference to the accompanying drawings.

2 is a reference diagram for explaining initialization or reinitialization compatibility between discs of different standards according to the present invention.                     

Referring to Fig. 2, a standard initially defined for a rewritable information storage medium including a function A is called Version 1.0, and a recording / reproducing apparatus implementing this version 1.0 is called a Version 1.0 drive system 21. The version updated by the addition of another function including the new function B to version 1.0 is called version 1.1, and the recording / reproducing device implementing this version 1.1 is called the version 1.1 drive system 22. The version updated by adding another function including the new function C to version 1.1 is called version 1.2, and the recording / reproducing device implementing this version 1.2 is called version 1.2 drive system 23. A rewritable information storage medium for version 1.0, version 1.1, and version 1.2 is called disk D (24).

At this time, the version 1.0 drive system 21 cannot know what function the new functions B and C have, and the version 1.1 drive system 22 cannot know what function the new function C has. However, version 1.2 drive system 23 knows both new functions B and C.

In this situation, when the blank disk D 24 is loaded and initialized in the version 1.0 drive system 21, the initialized disk D 24 is also recognized by the version 1.1 drive system 22 and the version 1.2 drive system 23. Version 1.0 drive system 21 must initialize a blank disk D 24 so that it can be. In addition, when the blank disk D 24 is loaded and initialized in the version 1.1 drive system 22, the disk D 24 thus initialized may also be recognized in the version 1.0 drive system 21 and the version 1.2 drive system 23. In order to be able to do this, the version 1.1 drive system 22 must initialize a blank disk 24. Similarly, when the blank disk D 24 is loaded and initialized in the version 1.2 drive system 23, the disk D 24 thus initialized may be recognized in the version 1.0 drive system 21 and the version 1.1 drive system 22. In order to be able to do this, the version 1.2 drive system 23 must initialize the blank disk 24.

Thus, even if the blank disk 24 is loaded and initialized in a drive system according to a version, the drive system may commonly recognize the blank disk 24 upon initialization in order for the disc to be used in a drive system with a different version. It should be initialized using the information it contains. In the present invention, the disc is initialized using a defect management area and an access control area provided in the lead-in area of the disc in order to be recognized by drive systems having different versions. In other words, by initializing the initialization information into the defect management area and the access control area, even if drive systems of different versions are used, the disk can be properly used using the common initialization information.

For this purpose, when disk D is initialized in the version 1.0 drive system 21, function A is a recognizable function of both the version 1.0, version 1.1, and version 1.2 drive systems, so no matter what drive system such disk D is loaded into It can be changed during use depending on the intention of the user or drive manufacturer.

When disk D is initialized in version 1.1 drive system 22, version 1.0 drive system 21, which only knows function A for new function B, does not know the new function B, and therefore the version 1.0 drive system 21 for new function B. ) Shall record the information that defines the behavior that should operate in the access control area in accordance with the rules or methods established at the time of enactment of the Version 1.0 specification. By doing so, even if the disk D with the new function B is loaded into the version 1.0 drive system, the version 1.0 drive system can perform proper operation and provide convenience of disk use.

If disk D is initialized in the version 1.2 drive system 23, the version 1.0 drive system 21 and the version 1.1 drive system 22 do not know the new function C for the new function C, and therefore the version 1.0 for the new function C. Information specifying the behavior that the drive system 21 and the version 1.1 drive system 22 should operate in should be recorded in the access control area according to the rules or methods prescribed in the version 1.0 specification. By doing so, even if the disk D with the new function C is loaded into the version 1.0 drive system or the version 1.1 drive system, the version 1.0 drive system and the version 1.1 drive system can perform proper operations and provide the convenience of using the disk. In addition, for the new function B, since the version 1.0 drive system 21 does not know the new function B, the rules prescribed in the enactment of the version 1.0 specification provide information that defines the behavior of the version 1.0 drive system for the new function B. It should be recorded in the access control area according to the method. In this way, even if the disk D to which the new function B is applied is loaded into the version 1.0 drive system 21, the version 1.0 drive system can take an appropriate operation to provide convenience of disk use.

The same is true for reinitialization of an already used disk. In order to be recognized by different drive systems with different versions, the disc is reinitialized using a defect management area and an access control area provided in the disc lead-in area. In the case of re-initialization, however, it is necessary to first determine whether information recorded on the disk allows re-initialization even if a re-initialization command is issued from the user. Whether or not reinitialization is allowed can also be determined by reading the access control data recorded in the access control area. The access control region will be described later in detail.

3 is a structural diagram of a disk to which the present invention is applied.

Referring to FIG. 3, in the disc 100 to which the present invention is applied, the lead-in area 110, the data area 120, and the lead-out area 130 are continuously provided.

The lead-in area 110 includes a pre-recorded area 111, a test area 112, an access control area 113, and a DMA # in which predetermined data is pre-recorded and used only for reproduction at the time of disc manufacture. 2 114 and DMA # 1 115. The test area 112, the access control area 113, the DMA # 2 114, and the DMA # 1 115 are recordable areas in which data can be recorded and changed.

In the prerecorded area 111, the information of the disc itself is prerecorded at the time of disc manufacture. For example, a disc ID, such as a disc manufacture number for identifying a disc, is recorded.

The test area 112 is an area in which the recording power and the like can be tested in order to record on the disc 100 in an optimal recording condition.                     

The access control area 113 is an area for recording information defining the operation of the drive system for new functions to be added in the future. In other words, it is an area in which common information is recorded so that even a drive system that does not know a predetermined function can perform access control to the disc 100. The access control region will be described in detail with reference to FIG. 5.

The DMA # 1 115 and the DMA # 2 114 are defect management areas, and are areas for recording information on defects generated in the user data area 122. This will be described in detail with reference to FIG. 3.

The data area 120 includes a spare area # 0 121, a user data area 122, and a spare area # 1 123.

The user data area 122 is an area in which user data is recorded.

The spare area # 0 121 and the spare area # 1 123 are areas provided for the replacement block replacing the defective block generated in the user data area 122. This spare area is allocated to the data area when the disk is initialized or reinitialized.

The lead-out area 130 includes DMA # 3 131 and DMA # 4 132.

4 is a detailed structural diagram of DMA # 1 shown in FIG. 3.

Referring to FIG. 4, the DMA # 1 115 includes a DDS 410 and a DFL 420. The DDS is a disc definition structure that contains information about disc management. That is, the DDS 410 is information recorded when the disk is initialized or reinitialized, and includes size information 411 of the spare area and start and end address information 412 of the user data area. The drive system allocates a spare area to the data area at the time of initializing or reinitializing the disk, determines a user data area in which user data is recorded among the data areas, and then records the information about the data in the DDS 410. DF 420L is a DeFect List, which contains information about defects generated in the user data area. For example, the defect list includes address information of a defect block occurring in the user data area, address information of a replacement block replacing the defect block, status information about the defect, and the like.

FIG. 5 is a detailed structural diagram of the access control region shown in FIG. 3.

Referring to FIG. 5, the access control region 113 includes access control data # 1 510, access control data # 2 520, and access control data # 3 530.

As described above, the access control area 113 is an area in which common information for access control to the disc is recorded, whether an existing standard or a new standard to which new functions are added. That is, it is an area for recording a common information table that is commonly applied to all functions used in the existing standard and the new standard to which new functions are added. Each access control data constitutes a common information table relating to each function. In other words, the access control data # 1 510 constitutes a common information table relating to "function 1", and the access control data # 2 520 constitutes a common information table relating to "function 2", and the access control data # 3 530 constructs a common information table for "Function 3". Here, for example, function 1 may be a function that the drive system can recognize, and function 2 and function 3 may be a function that the drive system cannot recognize. Of course, each access control data may include individual information that can be recognized only by the drive system that recognizes the function of the access control data, in addition to the common information that can be commonly recognized by all standard drive systems.

The access control data # 1 510 includes common information 511 and individual information 512.

The common information 511 includes ACD_ID 513, which is an identifier for identifying this access control data, formatability information 514 indicating whether or not format is possible, and DMA recording / playback indicating whether DMA can be recorded or reproduced only. Spare area recording / playback availability information 516 indicating whether or not the spare area can be recorded or reproduced only, and whether or not user data area can be recorded or reproduced. Information 517 is included. The format information 514, the DMA record / playability information 515, the spare area record / playability information 516, and the user data area record / playability information 517 constitute a common information table. .

The drive system may determine whether this access control data relates to a recognizable function or to an unrecognizable function by checking the ACD_ID 513. That is, if ACD_ID 513 is an identifier that the drive system knows, this access control data relates to a function recognizable by the drive system, and if the drive system does not know this access control data relates to a function that the drive system does not recognize. will be.                     

In addition, even if the ACD_ID 513 is not recognized, the drive system may check a field included in the common information table, so that the drive system may perform a minimum appropriate operation even for an unrecognizable function.

Access control data # 2 520 also includes common information 521 and individual information 522, which has common information 521, ACD_ID 523, which is an ID for identifying this access control data. The table includes format availability information 524, DMA recording / reproduction availability information 525, spare area recording / reproduction availability information 526, and user data area recording / reproduction availability information 527.

6 to 7, the access control data recorded in the access control area will be described when the disk is initialized or reinitialized by each drive system in the situation as shown in FIG.

FIG. 6 is an example of access control data recorded in the access control area upon initialization or reinitialization in the version 1.0 drive system 21 shown in FIG.

Referring to Fig. 6, since the version 1.0 drive system 21 knows only the function A, only the access control data # 1 610 relating to the function A is recorded in the access control area 113. After the access control data # 1 610 is recorded in the access control area, the remaining unrecorded area 620 is filled with 00h. You could fill it with FFh. This is to indicate that there is no more access control data in the access control area and to make this area available to future drive systems.

The access control data # 1 610 includes common information 611 and individual information 612.

In the common information 611, a function " A " known by this drive system is recorded in the ACD_ID 613 field as an identifier of this access control data, and the format information 614 and the DMA recording / playback information 615 are available. ), Spare area recording / reproducing availability information 616, and user data area recording / reproducing availability information 617 are all set to " 0 " indicating recording possible. Since this is an initialization or re-initialization that allows the disc to be used, all of the formatable or recordable information is set to be recordable.

Since the access control data # 1 related to the function A recorded in the access control area 113 of the disk D thus initialized is a function that can be recognized by both the version 1.0, version 1.1, and version 1.2 drive systems, such a drive system may be used. Such information, even when loaded into the device, may be changed during use at the intention of the user or drive manufacturer.

FIG. 7 is an example of access control data recorded in the access control area upon initialization or reinitialization in the version 1.1 drive system 22 shown in FIG.

Referring to FIG. 7, since the version 1.1 drive system 22 knows the functions A and B, it accesses the access control data # 1 710 for the function A and the access control data # 2 720 for the function B. Write to control area 113. Then, after recording the access control data # 1 710 and the access control data # 2 720 in the access control area, the remaining unrecorded area 730 is filled with 00h. It may be filled with FFh.

The access control data # 1 710 includes common information 711 and individual information 712.

In the common information 711, the function "A" which this drive system knows is recorded in the ACD_ID 713 field as an identifier of the access control data relating to the function A, and the format information 714 is available for DMA recording / playback. The information 715, spare area recording / reproducing availability information 716, and user data area recording / reproducing availability information 717 are all set to " 0 " indicating recording possible. Since this is an initialization or re-initialization that allows the disc to be used, all of the formatable or recordable information is set to be recordable.

The access control data # 2 720 includes common information 721 and individual information 722.

In the common information 721, a function " B " known by this drive system is recorded in the ACD_ID 723 field as an identifier of the access control data relating to function B, and the format information 724 is available for DMA recording / playback. The information 725, spare area recording / playback availability information 726, and user data area recording / playback availability information 727 are all set to " 0 " indicating recordable.

Since the access control data # 1 related to the function A recorded in the access control area 113 of the disk D thus initialized is a function that can be recognized by both the version 1.0, version 1.1, and version 1.2 drive systems, such a drive system may be used. Such information, even when loaded into the device, may be changed during use at the intention of the user or drive manufacturer. In addition, even if the version 1.0 drive system 21 does not recognize the function, the access control data # 2 related to the function B uses the common information included in the access control data so that the version 1.0 drive system 21 uses the disc. May take actions related to access control to the system.

FIG. 8 is an example of access control data recorded in the access control area upon initialization or reinitialization in the version 1.2 drive system 23 shown in FIG.

Referring to Fig. 8, since the version 1.2 drive system 23 knows both function A, function B, and function C, access control data # 1 810 related to function A and access control data # 2 related to function B ( 820 and all of the access control data # 3 830 related to the function C are recorded in the access control region 113. The area 830 in which the access control data is not recorded in the access control area is filled with 00h. You could fill it with FFh.

The access control data # 1 810 includes common information 811 and individual information 812.

In the common information 811, the function "A" which this drive system knows is recorded in the ACD_ID 813 field as an identifier of the access control data relating to the function A, the format information 814, and whether DMA recording / playback is possible. The information 815, spare area recording / playback availability information 816, and user data area recording / playback availability information 817 are all set to " 0 " indicating recordable. Since this is an initialization or re-initialization that allows the disc to be used, all of the formatable or recordable information is set to be recordable.

The access control data # 2 820 includes common information 821 and individual information 822.

In the common information 821, a function " B " which this drive system knows is recorded in the ACD_ID 823 field as an identifier of access control data relating to function B, and the format information 824 can be recorded or reproduced. The information 825, spare area recording / reproducing availability information 826, and user data area recording / reproducing availability information 827 are all set to " 0 " indicating recordable.

The access control data # 3 830 includes common information 831 and individual information 832.

In the common information 831, a function " C " known by this drive system is recorded in the ACD_ID 833 field as an identifier of access control data relating to function C, and the format information 834 is available for DMA recording / playback. The information 835, spare area recording / reproducing availability information 836, and user data area recording / reproducing availability information 837 are all set to " 0 " indicating recordable.

Since the access control data # 1 related to the function A recorded in the access control area 113 of the disk D thus initialized is a function that can be recognized by both the version 1.0, version 1.1, and version 1.2 drive systems, such a drive system may be used. Such information, even when loaded into the device, may be changed during use at the intention of the user or drive manufacturer. In addition, even if the version 1.0 drive system 21 does not recognize the function, the access control data # 2 related to the function B uses the common information included in the access control data so that the version 1.0 drive system 21 uses the disc. May take actions related to access control to the system. In addition, the access control data # 3 related to the function C is used by the version 1.0 drive system 21 and the version 1.1 drive system 22 using the common information included in the access control data even if the function is not recognized. Drive system 21 and version 1.1 drive system 22 may take actions related to controlling access to this disk.

9 is a schematic block diagram of a recording / reproducing apparatus for performing initialization or reinitialization according to the present invention.

Referring to FIG. 9, the recording / reproducing apparatus includes a recording / reading unit 2 and a control unit 1.

The recording / reading section 2 is provided with a pickup or the like to record data on the disk 100, which is an optical recording information storage medium to which the present invention is applied, and reads the data recorded on the disk 100.

The control unit 1 controls the recording / reading unit 2 to record and read data on the disc 100 according to a predetermined file system. In particular, the control unit 1 according to the present invention controls to perform initialization when a blank disc is loaded, and controls to perform reinitialization when an already used disc is loaded.                     

The control unit 1 includes a system controller 10, a host I / F 20, a DSP 30, an RF AMP 40, and a servo 50.

In writing, the host I / F 20 receives a predetermined write command from the host 3 and sends it to the system controller 10. The system controller 10 controls the DSP 30 and the servo 50 to carry out the write command received from the host I / F 20. The DSP 30 adds additional data such as parity for error correction to the data to be recorded received from the host I / F 20 and performs ECC encoding to generate an ECC block, which is an error correction block, and then, in a predetermined manner. Modulate. The RF AMP 40 converts the data output from the DSP 30 into an RF signal. The recording / reading section 2 provided with the pickup records the RF signal transmitted from the RF AMP 40 on the disk 100. The servo 50 receives a command necessary for servo control from the system controller 10 to servo control the pickup of the recording / reading unit 2.

At the time of reproduction, the host I / F 20 receives a reproduction command from the host 3. The system controller 10 performs initialization necessary for regeneration. The recording / reading unit 2 outputs an optical signal obtained by irradiating a laser beam to the disk 100 and receiving a laser beam reflected from the disk 100. The RF AMP 40 converts an optical signal output from the recording / reading section 2 into an RF signal and provides modulated data obtained from the RF signal to the DSP 30, while providing a servo signal for control obtained from the RF signal. Provided to the servo 50. The DSP 30 demodulates the modulated data and outputs data obtained through ECC error correction. On the other hand, the servo 50 receives the servo signal received from the RF AMP 40 and the command required for the servo control received from the system controller 10 to perform servo control for the pickup. The host I / F 20 sends data received from the DSP 30 to the host. The system controller 10 controls the servo to read disc management information or defect information from the disc for reproduction control and to read data from the position where the defect free data is recorded.

The recording / reproducing apparatus shown in FIG. 1 may be implemented as a separate recording apparatus, a reproducing apparatus, or may be implemented as one recording and reproducing apparatus.

10 and 11, an example process of a disc initialization method and a reinitialization method performed in the recording / reproducing apparatus according to the present invention will be described.

10 is a flowchart illustrating a process of an initialization method according to the present invention.

Referring to FIG. 10, first, a blank disk 100 is loaded 1010 into a drive system.

Next, the system controller 10 of the drive system receives a disk initialization command from the host 3 through the host I / F 20 (1020).

Then, the system controller 10 allocates a spare area in the data area of the disk 100 to determine the size (1030), and allocates a user data area in which the user data is recorded in the data area to start the start address of the user data area. And the end address is determined (1040). At this time, the spare area may be allocated by the host or may be allocated to a predetermined size according to the intention of the drive manufacturer.

Next, the system controller 10 includes a disk definition structure (DDS) including allocation information of the spare area determined in step 1040 and allocation data of the user data area in the defect management area (DMA) provided in the lead-in area of the disk 100. ), And the write / read unit 2 and the servo 50 are controlled to record the initial DFL, which is the initial defect list (1050). The initialization information recorded in the defect management area has been described in detail with reference to FIG. 4.

 The system controller 10 then writes the recording / reading unit 2 and the servo 50 to record the access control data relating to the functions which the drive system can recognize in the access control area provided in the lead-in area of the disc 100. Control (1060). The access control information recorded in the access control area has been described in detail with reference to FIG. 5.

Next, the system controller 10 writes and reads the read / write unit 2 and the servo 50 so as to fill the remaining area where the access control data of the disk 100 in which the access control data is not recorded with a predetermined value such as 00h or FFh. Control (1070).

11 is a flowchart illustrating a process of a reinitialization method according to the present invention.

Referring to FIG. 11, first, a disk 100 already used in a drive system is loaded 1110. When a disk 100 that has already been used is loaded into the drive system, the system controller 10 recognizes the DMA information on the disk 100, and also accesses the access control area to access the functions known to the system controller 10. It will also recognize information that defines the behavior that the drive system should act on for unknown functions, namely access control data.

Next, the system controller 10 of the drive system receives a disk reinitialization command from the host 3 through the host I / F 20 (1120).

Then, first, the system controller 10 controls the recording / reading unit 2 to read the information contained in the defect management area and the access control area provided in the lead-in area of the disc 100 (1130). ). The information contained in the defect management area referred to herein may be write prevention flag information, and the information contained in the access control area refers to information related to recording or formatting permission among common information of the access control data.

The system controller 10 then determines 1140 whether this information permits reinitialization of the disk. That is, a write protection flag can be set in the defect management area. If this write protection flag is set to " 1 ", no recording can be performed on this disc, and thus reinitialization cannot be performed. The common information of the access control data recorded in the access control area includes format information and information on recording / playback of detailed areas of the disc. If such information does not allow the format of the disc or do not allow recording in each sub-region, reinitialization cannot be performed. Therefore, the system controller 10 must first determine such information to determine whether it is possible to record to this disc.

As a result of the determination of the system controller 10, when the write prevention flag is set to " 1 " or when the common information in the access control data does not allow formatting or is set to not allow recording in each sub-area, the system controller 10 determines that the disk reinitialization cannot be performed, and transmits an error message to the host 3 through the host I / F 20 (1190).

However, as a result of the determination by the system controller 10, when the write prevention flag is not set to " 1 ", and the common information in the access control data allows the format and is set to allow recording in each sub-area, The system controller 10 decides to perform disk reinitialization, and starts the disk reinitialization.

On the other hand, if the value set in the access control data for the functions recognizable by the drive system among the access control data does not allow reinitialization, the set value of the access control data for the unrecognizable functions is the values allowing reinitialization. If it is set to, the values set in the access control data can be updated for the recognizable functions. If the user wants to reinitialize, the values set in the access control data for the recognizable functions can be re-initialized. It is possible to change the values and then decide to perform a disk reinitialization.

The system controller 10 determines a size by allocating a spare area in the data area of the disk 100, and determines a start address and an end address of the user data area by allocating a user data area in which user data is recorded. (1150).

Next, after the system controller 10 clears the defect management area in the lead-in area of the disk 100, the disk definition structure including the information determined as described above, that is, spare area allocation information and user data area allocation information. The recording / reading unit 2 and the servo 50 are controlled in the defect management area to record the DDS and the initial DFL which is the initial defect list (1160). Although the above description has been given of clearing the DMA and recording the initialization information, since this disc is a rewritable disc, it will be a method of actually updating the initialization information recorded in the DMA. Although not shown in FIG. 11, file system data for managing data recorded at a predetermined position in the user data area and recorded in the user data area should also be cleared.

Next, the system controller 10 controls the write / read unit 2 to clear the access control area in the lead-in area of the disc 100, and transmits the access control data concerning the function recognizable by this drive system. The recording / reading unit 2 and the servo 50 are controlled to write in the access control area provided in the lead-in area of 100 (1170).

Next, the system controller 10 writes and reads the read / write unit 2 and the servo 50 so as to fill the remaining area where the access control data of the disk 100 in which the access control data is not recorded with a predetermined value such as 00h or FFh. Control (1180). This is to indicate that there is no more access control data in the access control area and to make this area available to future drive systems.

Now, what is described below is a method of updating the state information of such an access control data block upon reinitialization of the disc in the case of managing the recording state or the defective state of the access control data block of the access control area.

 As will be described in detail below, it is possible to effectively manage the ACD block by recording and managing the state information of each block of the access control area (ACA) for recording the access control data (ACD) in the DDS. The status information indicates information that can be used to record an ACD, information that a defective block or an invalid ACD is recorded, block information that a valid ACD is recorded, information that a valid ACD is recorded but defective during playback. . The ACD block physically recorded in the access control area (ACA) has an ACD_ID from which the drive system knows which function the ACD is about. If a disc is loaded into the drive during playback of an ACD block, the drive will know where the valid ACD block is written from the status information for each ACD block in the DDS and play back the valid ACD blocks.

If the state information of the ACD block before reinitialization indicates that a valid ACD is recorded in the DDS, the block is a good block. Since the ACD recorded in the ACD block is no longer needed after reinitialization, the status information for that block must be changed to indicate that no valid ACD is recorded and can be used to record the ACD later. . If you do not change the status information for a valid ACD block in the DDS during reinitialization, future drives will regenerate the ACD block from the status information that a valid ACD block in the DDS is recorded. Therefore, upon reinitialization of the disk, it is required to update the state information of such an ACD block. In addition, because of the reinitialization, the ACD is no longer valid information, so the drive system may get wrong information from the ACD and cause problems. Therefore, in addition to changing the state information of the ACD block in the DDS during reinitialization, all ACD blocks recorded in the ACA or only the ACD_ID of the ACD block are rewritten to a value such as "00h" or "FFh" to physically erase them. It is also necessary. If the ACD_ID indicates a value such as "00" or "FF", it indicates that the contents of this ACD data are no longer valid and can be used for recording the ACD block later. This is because the ACD_ID of the ACD block has a value equal to "00" or "FF" because the ACD block is rewritten as "00h" or "FFh" when the ACD block is cleared.

In summary, when a disk is reinitialized, a valid ACD block recorded in the ACA is rewritten with a value such as "00h" or "FFh", and the status information for a valid ACD block in the DDS is not recorded with a valid ACD. Change to status information that you can use later to record the ACD.

12 is another example of a detailed structural diagram of the DMA # 1 shown in FIG. 3.

Referring to FIG. 12, the DDS 410 is an area for recording information for disc management, and not only includes the size information 411 of the spare area and the start and end address information 412 of the user data area. According to the invention ACD status information 413 is further recorded. The ACD state information 413 is information about a recording state or a defect state of an access control data block (ACD block) in which each access control data is recorded in the access control area. Referring to FIG. 12, the state information of each ACD block is composed of 2 bits.

13 is a reference diagram for explaining a state included in ACD (Access Control Data) state information according to the present invention.

Referring to FIG. 13, the state of each access control data block is represented by 2 bits, and includes four states, that is, "00", "01", "10", and "11".

"00" indicates that the access control data block can be used to write the access control data.                     

&Quot; 01 " indicates a defective block, specifically, 1) a block found as a defect while writing an access control data block in the access control area, and 2) a state indicating that a block in which invalid access control data is recorded. Indicates one.

&Quot; 10 " indicates that a block was found which was found to be defective while reproducing the access control data recorded in the access control area, but a valid ACD was recorded.

"11" indicates that a valid ACD is a written block.

14A, 14B, 15A, and 15B are reference diagrams for explaining updating of status information of access control data when a disk is reinitialized according to the present invention, and FIGS. 14A and 14B are ACD before disk reinitialization. Examples of the block and the ACD state information are shown, and FIGS. 15A and 15B show examples of the ACD block and the ACD state information after disk reinitialization.

Referring to FIG. 14A, for example, five ACD blocks are included in an access control area before reinitialization, valid ACD data is recorded in ACD block # 1, ACD block # 2 contains defective ACD data, ACD block # 3 records valid ACD data, ACD block # 4 is unrecorded, or its ACD_ID is recorded as "00" or "FF", and ACD block # 5 contains valid ACD data but is played back. Indicates that the block is found to be a defect. An ACD_ID of "00" or "FF" indicates that the block can be used for ACD data recording in the future because no valid data is recorded in the current state.

State information for this ACD block before reinitialization is shown in FIG. 14B.                     

Referring to FIG. 14B, "11" indicating that ACD block # 1 is valid data is recorded in state information of ACD block # 1, and "01 indicating that ACD block # 2 is defective data in state information of ACD block # 2. Is recorded, and " 11 " indicating that ACD block # 3 is valid data is recorded in the state information of ACD block # 3. In addition, the status information of ACD block # 4 indicates that the ACD block # 4 can be used to record the ACD data because the ACD block # 4 has not yet been recorded or contains the valid data anymore. This is recorded. In the status information of ACD block # 5, "10" is recorded to indicate that a valid ACD has been recorded while being detected as a defect while reproducing the access control data of ACD block # 5.

The ACD block and ACD state information as shown in Figs. 14A and 14B are brought into a state as shown in Figs. 15A and 15B by reinitializing the disk.

Referring to FIG. 15A, only ACD block # 2, which was in a defect state before reinitialization, remains in its previous state, and the remaining ACD blocks, that is, a valid block or a block having an ACD_ID of "00" or "FF", or a defect during reproduction. The identified ACD blocks are written with "00" or "FF" in the ACD_ID of those ACD blocks to make them available by reinitialization. The unrecorded block before reinitialization still remains an unwritten block after reinitialization.

State information for the ACD block after such reinitialization is shown in FIG. 15B.

Referring to FIG. 15B, the state information of the ACD block # 1, the ACD block # 3, and the ACD block # 4 includes the ACD block # 1, the ACD block # 3, and the ACD block # 4 that are not yet recorded or are already recorded. Since no valid data is included, change the value to "00" to indicate that the ACD data can be used for recording. The status information of ACD block # 2 is maintained as "01" indicating that ACD block # 2 is defective data, and the status information of ACD block # 5 is changed to "10" because it was found to be a defect during playback of ACD block # 5. do. In the case of an ACD block found as a defect during reproduction, the ACD_ID is written as "00h" or "FFh" to indicate that the block is in a usable state, and the status information is indicated as "01" to indicate that it is a defective block. The reason for this is that, as described below, if ACD_ID and status information are different, the status information takes precedence, so this block cannot be used as a defective block once, but the status information is returned due to an error or the like when the status information is reproduced. If it is not possible to extract the block, the ACD_ID is set to "00h" or "FFh".

According to the structure described above, the case where the state information of the ACD block indicated by the ACD_ID of the ACD recorded in the ACA is different from the state information of the ACD block in the DDS. In this case, the drive system must first trust the state information for each ACD block in the DDS.

More specifically described as follows.

The status for each ACD block can be known from the status information for each ACD block in the DDS and also from the ACD_ID of the ACD block recorded in the ACA. If there is a discrepancy between these two pieces of information, the drive system should always first trust the status information for each ACD block in the DDS. If the DDS cannot be reproduced due to a defect or the like occurring in the defect management area, the drive system will determine whether the information is valid from the ACD_ID of the ACD block recorded in the ACA. The discrepancy between the two pieces of information may occur due to a defect or the like during recording. That is, if a valid ACD is recorded in the ACD block A, the state of the ACD block A in the DDS will indicate "11" as shown in FIG. If an update of this ACD block A is required and an attempt is made to write the updated ACD to ACD block A, but a defect occurs during writing, the drive system will display the status information for the ACD block A as a defective block. However, this is because the ACD block A has not been rewritten due to a defect during recording and the ACD before the update is still recorded, so the ACD_ID may remain unchanged. Therefore, in this case, it is necessary to refer to the state information of the ACD block first to prevent the malfunction of the system.

If the status information of the ACD block in the DDS is unreliable due to an error correction failure or the like during the reproduction of the DDS containing the status information of the ACD block, the access control data is referred to by referring to the ACD_ID of the access control data in the access control area. It is desirable to determine whether the block is valid.

16 is a flowchart illustrating a process of a reinitialization method according to a second embodiment of the present invention.

Referring to FIG. 16, first, a disk 100 already used in a drive system is loaded (1610). When a disk 100 that has already been used is loaded into the drive system, the system controller 10 recognizes the DMA information on the disk 100, and also accesses the access control area to access the functions known to the system controller 10. It will also recognize information that defines the behavior that the drive system should act on for unknown functions, namely access control data.

Next, the system controller 10 of the drive system receives a disk reinitialization command from the host 3 through the host I / F 20 (1620).

Then, first, the system controller 10 controls the recording / reading unit 2 to read the information contained in the defect management area and the access control area provided in the lead-in area of the disc 100, and obtains this information (1630). ). The information contained in the defect management area referred to herein may be write prevention flag information, and the information contained in the access control area refers to information related to recording or formatting permission among common information of the access control data.

The system controller 10 then determines 1640 whether this information permits reinitialization of the disk. That is, a write protection flag can be set in the defect management area. If this write protection flag is set to " 1 ", no recording can be performed on this disc, and thus reinitialization cannot be performed. The common information of the access control data recorded in the access control area includes format information and information on recording / playback of detailed areas of the disc. If such information does not allow the format of the disc or do not allow recording in each sub-region, reinitialization cannot be performed. Therefore, the system controller 10 must first determine such information to determine whether it is possible to record to this disc.

As a result of the determination of the system controller 10, when the write prevention flag is set to " 1 " or when the common information in the access control data does not allow formatting or is set to not allow recording in each sub-area, the system controller 10 determines that the disk reinitialization cannot be performed, and transmits an error message to the host 3 through the host I / F 20 (1680).

However, as a result of the determination by the system controller 10, when the write prevention flag is not set to " 1 ", and the common information in the access control data allows the format and is set to allow recording in each detailed area, the system The controller 10 decides to perform a disk reinitialization and starts the disk reinitialization.

On the other hand, if the value set in the access control data for the functions recognizable by the drive system among the access control data does not allow reinitialization, the set value of the access control data for the unrecognizable functions is the values allowing reinitialization. If it is set to, the values set in the access control data can be updated for the recognizable functions. If the user wants to reinitialize, the values set in the access control data for the recognizable functions can be re-initialized. It is possible to change the values and then decide to perform a disk reinitialization.

The system controller 10 determines a size by allocating a spare area in the data area of the disk 100, and allocates a start address and an end address of the user data area by allocating a user data area in which user data is recorded. Determine (1650).

Next, the system controller 10 controls the write / read unit 2 to clear the access control area in the lead-in area of the disc 100, and updates the ACD block status information (1660). That is, when clearing the access control area, the system controller 10 keeps the entire ACD block "00h so as to indicate that the ACD block in the remaining area and the remaining unrecorded area are available only when the ACD block is in a defective state. Fill with "or" FFh "or change only ACD_ID to" 00h "or" FFh "to record. In order to reflect the changed ACD block state, the state information of the ACD block is also updated as described above with reference to FIGS. 14A to 15B.

Then, after the system controller 10 clears the defect management area in the lead-in area of the disc 100, the reset information of the spare area, that is, the allocation information of the spare area, the allocation information of the user data area, and the update. The recording / reading unit 2 and the servo 50 are controlled in the defect management area (1670) to record the disk definition structure (DDS) including the ACD block state information and the initial DFL which is the initial defect list. Although the above description has been given of clearing the DMA and recording the initialization information, since this disc is a rewritable disc, it will be a method of actually updating the initialization information recorded in the DMA. Although not shown in Fig. 16, file system data for managing data recorded at a predetermined position in the user data area and recorded in the user data area should also be cleared.

Hereinafter, a default ACD will be described.

Access control data (ACDs) can be divided into recognizable and unrecognizable ACDs, depending on whether the drive system supports (i.e., is recognizable) or not (i.e., is not recognizable). have. The recognizable ACD includes a default ACD, which literally represents a default ACD that should be supported by all drive systems that support the ACD. This default ACD can be usefully written to the access control area when the disk is initialized or reinitialized.

17 shows a structure of a default ACD according to the present invention.

Referring to FIG. 17, a default ACD 1700 is recorded in a part of the access control area. The default ACD 1700 is to have a default personality in its character and its formal structure is the same as a general ACD. The default ACD 1700 includes common information 1710 and individual information 1720.

The ACD_ID 1711 of the common information is recorded as "DEFAULT" to indicate that it is the default ACD, and the remaining formatability information 1712, DMA recording / playback information 1713, and spare area recording / playback information ( 1714, user data area recording / playback availability information 1715 is all set to " 0 " so that all the detailed areas provided on the disc can be used freely.

Individual information 1720 may record individual information according to an intention of a user or a drive system during initialization or reinitialization. For example, drive ID information and recording date information may be recorded. Drive ID information can be provided by the drive system, and recording date information can be provided by the host. Thus, by inserting the recording date information and the drive ID information into individual information of the default ACD, which drive was initialized, It is easy to know when the initialization was performed. Individual information 1720 may, however, include other information depending on the intention of the user or drive system.

18 is a flowchart showing a procedure of a method of initializing a rewritable medium according to the third embodiment of the present invention.

Referring to FIG. 18, a blank disk is loaded into a drive system (1810), and the drive system receives a disk initialization command from a host (1820) by a user's initialization request.

The drive receiving the initialization command writes a default ACD to the ACD area (1830). At this time, the recording of the default ACD may be performed by the system controller of the drive system itself, or may be performed by a write command by providing information to be set by the host in the default ACD, or both. At this time, it is preferable that the information in the common information in the default ACD be set to " 0 " in order to indicate that the information can be played / recorded for all the specific areas so that the disc can be used. In addition, individual information of the default ACD may be set appropriately according to the user's intention at the time of disk initialization or the intention of the drive system.

Next, a spare area is allocated to the data area to replace the defective block in defect management (1840), and accordingly, a start address and an end address of the user data area are determined (1850), allocation information of the spare area, and a user data area. After recording the size information of the default ACD and the state information for each ACD block accordingly, the DDS and the initial DFL are recorded in the DMA (1860). Since only the default ACD is included in the ACD area, status information indicating that a valid ACD is included in the default ACD block may be recorded in the status information of the ACD block, and status information indicating that the ACD block is a usable block.

In operation 1870, initial file system information is recorded in the user data area by a host recording command for management information about data to be recorded in the user data area. In practice, step 1870 may be performed at any of the previous steps.

19 is a flowchart showing a procedure of a method of reinitializing a rewritable medium according to a third embodiment of the present invention.

Referring to FIG. 19, first, a disk 100 already used in the drive system is loaded (1910), and the system controller 10 of the drive system rebuilds the disk from the host 3 through the host I / F 20. An initialization command is received (1920).

Then, first, the system controller 10 controls the recording / reading unit 2 to read the information contained in the defect management area and the access control area provided in the lead-in area of the disc 100, and obtains this information ( 1930, it is determined whether the information permits re-initialization of the disk (1940).

If the system controller 10 determines that reinitialization is not allowed, an error message is transmitted to the host 3 through the host I / F 20 (1980).

However, as a result of the determination of the system controller 10, when re-initialization is allowed, the system controller 10 allocates a spare area in the data area of the disk 100 to determine the size, and user data in the data area is recorded. The user data area is allocated to determine a start address and an end address of the user data area (1950).

Next, the system controller 10 controls the write / read unit 2 to clear the access control area in the lead-in area of the disc 100, record the default ACD, or write to the position of the default ACD recorded at initialization. Overwrite the new default ACD (1960). At this time, the system controller 10 may or may not clear all of the ACD blocks in the access control area before writing the default ACD. If not cleared, the disk before re-initialization will attempt to reinitialize the default ACD at the location where the pre-reinitialization default ACD was written because the default ACD will be written at initialization and the values will be set according to the user's intention while using the disk. It is also possible to set and overwrite values according to the user's intention. At this time, it is preferable that the information in the common information in the default ACD be set to " 0 " in order to indicate that the information can be played / recorded for all of the specific areas so that the disc can be used. The individual information in the default ACD can be set with appropriate values according to the user's intention at the time of disk initialization and according to the intention of the drive system.

Then, after the system controller 10 clears the defect management area in the lead-in area of the disk 100, the disk including the spare area allocation information, the size information of the user data area, and the updated ACD block status information. The recording / reading unit 2 and the servo 50 are controlled in the defect management area DMA to record the definition structure DDS and the initial DFL which is the initial defect list (1970).

Then, the system controller 10 controls the recorded file system to be reinitialized by the host's write command and recorded in the user data area in order to reinitialize management information about the data recorded in the user data area (1990). ).

20 is a disc structure diagram of a write-once medium to which the present invention is applied.

Referring to FIG. 20, the recording medium 200 includes a lead-in area 210, a data area 220, and a lead-out area 230, and the lead-in area 210 is a previously recorded area. 211, test area 212, access control area 213, DMA # 1 215, DMA # 2 214, TDMA 216, and data area 220 includes spare area # 0 ( 221, a user data area 222, a spare area # 1 223, and the lead-out area 230 includes a DMA # 3 231 and a DMA # 4 232.

The structure of the write once medium shown in FIG. 20 is almost similar to that of the rewritable medium shown in FIG. 3 except that in the case of the write once medium 200, a temporary defect management area (TDMA) 216 is further added. It can be seen that.                     

Temporary Defect Management Area (TDMA) 216 records Temporary Disc Definition Structure (TDDS), Temporary DeFect List (TDFL), and Recording Management Data (RMD). When the disk is initialized, as shown in FIG. 20, the initial TDDS including the allocation information of the spare area, the size information of the user data area, and the state information of the ACD block, and the initial TDFL having the initial information of defect management. 218, an initial RMD 219 containing initialization information of record management.

21 is a flowchart showing the procedure of a method of initializing a recording medium once according to the third embodiment of the present invention.

Referring to FIG. 21, a blank disc, which is a write-once medium, is loaded into a drive system (2110), and the drive system receives a disc initialization command from a host (2120) by a user's initialization request.

The drive receiving the initialization command writes a default ACD in the ACD area (2130). At this time, the recording of the default ACD may be performed by the system controller of the drive system itself, or may be performed by a write command by providing information to be set by the host in the default ACD, or both. At this time, it is preferable that the information in the common information in the default ACD be set to " 0 " in order to indicate that the information can be played / recorded for all the specific areas so that the disc can be used. In addition, individual information of the default ACD may be set appropriately according to the user's intention at the time of disk initialization or the intention of the drive system.

Next, a spare area is allocated to the data area to replace the defective block in defect management (2140), and accordingly, a start address and an end address of the user data area are determined (2150), allocation information of the spare area and a user data area TDDS, initial TDFL, and initial RMD, which contain the size information and the default ACD, and state information for each ACD block, are recorded in the TDMA (2160). Since only the default ACD is included in the ACD area, status information indicating that a valid ACD is included in the default ACD block may be recorded in the status information of the ACD block, and status information indicating that the ACD block is a usable block.

In operation 2170, initial file system information is recorded in the user data area by a host recording command for management information about data to be recorded in the user data area. In practice step 2170 may be performed at any of the previous steps.

22 is a flowchart showing a procedure of a method of reinitializing a rewritable medium according to a fourth embodiment of the present invention.

Referring to FIG. 22, first, a disk 100 already used in a drive system is loaded (2210), and the system controller 10 of the drive system rebuilds the disk from the host 3 through the host I / F 20. An initialization command is received (2220).

Then, first, the system controller 10 controls the recording / reading unit 2 to read the information contained in the defect management area and the access control area provided in the lead-in area of the disc 100, and obtains this information ( 2230, it is determined whether the information permits re-initialization of the disk (2240).

If the system controller 10 determines that reinitialization is not allowed, an error message is transmitted to the host 3 through the host I / F 20 (2280).

However, as a result of the determination of the system controller 10, when re-initialization is allowed, the system controller 10 allocates a spare area in the data area of the disk 100 to determine the size, and user data in the data area is recorded. The user data area is allocated to determine a start address and an end address of the user data area (2250).

Next, the system controller 10 writes "00h" or "FFh" to the host's command or the drive itself in the unrecognized ACD block of the access control area, and writes status information about the ACD block to the host's command or the drive itself. Update to a block state that can be used as a result (2255).

Unrecognized ACDs are literally unknown to the user or drive system or application, so details are unknown. Therefore, if you do not delete the ACD for this unknown function at the time of reinitialization, it may cause inconvenience to users of the disk. For example, if an ACD for the "Read Protection" function is recorded on a disc and the disc is reinitialized by a drive system and application that is not aware of the playback prohibition function, the ACD for the prohibit playback function This is because if the disc is not deleted, the disc is prohibited from being reproduced in recording and reproducing data on the disc after reinitialization of the disc, and thus the recorded data cannot be reproduced, causing problems. In other words, this reproduction prohibition function is set by a previous user and a problem arises because the current user uses the disc without knowing it. In a drive system including an application that recognizes a predetermined ACD, when the disc on which the ACD is recorded is loaded into a drive system including an application that does not know the ACD in the future, the value set in the common information of the ACD is known even if the ACD is not known. Therefore, since access control data is provided to make the disk available, it is desirable that the original unrecognized ACD is not modified or deleted during the use of the disk. However, since reinitialization is the initialization of the disc for use by the new user from the beginning, the function of the unrecognized ACD as described above is no longer meaningful to the new user.

The recognizable ACD block of the access control region modifies, deletes, or adds a new ACD according to the user's intention, and updates the state information of the ACD block accordingly (2260). That is, a recognizable ACD is a function that is known to the user or drive system that is literally reinitializing, or the application that supports the ACD, so that it can be modified or removed to suit the user's intention through a special interface with the user, or a new ACD Addition of is possible. As the ACD is modified, removed, and added, the state information in the DDS is updated accordingly. This recognizable ACD block may include a default ACD as described in the third embodiment above.                     

Then, after the system controller 10 clears the defect management area in the lead-in area of the disk 100, the disk including the spare area allocation information, the size information of the user data area, and the updated ACD block status information. The recording / reading unit 2 and the servo 50 are controlled in the defect management area DMA to record the definition structure DDS and the initial DFL which is the initial defect list (2270).

In addition, the system controller 10 controls the recorded file system to be reinitialized by the host's write command and recorded in the user data area in order to reinitialize management information about the data recorded in the user data area (2290). ).

The initialization method and the re-initialization method as described above may also be embodied as computer readable codes on a computer readable recording medium. The computer-readable recording medium includes all kinds of recording devices in which data that can be read by a computer system is stored. Examples of computer-readable recording media include ROM, RAM, CD-ROM, magnetic tape, floppy disk, optical data storage, and the like, and may also be implemented in the form of a carrier wave (for example, transmission over the Internet). Include. The computer readable recording medium can also be distributed over network coupled computer systems so that the computer readable code is stored and executed in a distributed fashion. In addition, functional programs, codes, and code segments for implementing the initialization method and the reinitialization method can be easily inferred by programmers in the art to which the present invention belongs.                     

So far I looked at the center of the preferred embodiment for the present invention. Those skilled in the art will appreciate that the present invention can be implemented in a modified form without departing from the essential features of the present invention. Therefore, the disclosed embodiments should be considered in descriptive sense only and not for purposes of limitation. The scope of the present invention is shown in the claims rather than the foregoing description, and all differences within the scope will be construed as being included in the present invention.

According to the present invention as described above, a drive system for recognizing a function applied to a disc by recording common information on a disc access control that can be known even at a drive system having a different standard when the disc is initialized or reinitialized. In addition, non-functional drive systems can refer to this common information and take appropriate action to improve disk compatibility.

Claims (51)

An optical record information storage medium, The medium is provided with an access control area for recording access control data having common information set so as to control access to the medium even if the recording / reproducing apparatus which does not recognize a predetermined function applied to the medium, And an access control data relating to a function recognizable by the recording / reproducing apparatus at the time of initializing or reinitializing the medium is recorded in the access control area. The method of claim 1, Common information of access control data relating to the recognizable function is And an identifier relating to the recognizable function, information about whether the medium can be formatted, and information about whether to record / reproduce information about detailed areas provided on the medium. The method of claim 2, And the recordable information and the recordable / reproducible information of the sub-areas are set to be formatable and recordable, respectively. The method of claim 1, And the remaining unrecorded area is filled with a predetermined value after the access control data is recorded in the access control area. In the recording / reproducing apparatus, Even in a recording / reproducing apparatus that does not recognize a predetermined function applied to an optical recording information storage medium, data is provided on the medium provided with an access control area for recording access control data having common information set to control access to the medium. A recording / reading unit for recording or reading data from the medium; And a control unit for controlling the recording / reading unit to record, in the access control area, access control data relating to a function recognizable by the recording / reproducing apparatus at the time of initializing or reinitializing the medium. Device. The method of claim 5, Common information of access control data relating to the recognizable function is And an identifier relating to the recognizable function, information about whether the medium can be formatted, and information about whether to record / play back detailed areas provided on the medium. The method of claim 6, The control unit, And the recordable information and the recordable / reproducible information of the sub-areas are set as formatable and recordable, respectively. The method of claim 7, wherein The control unit, And the recording / reading unit is further controlled to record the access control data in the access control area and then fill the remaining unrecorded area with a predetermined value. In the recording / playback method, Use of the medium provided with an access control area for recording access control data having common information set so as to control access to the medium even in a recording / reproducing apparatus that does not recognize a predetermined function applied to an optical recording information storage medium. And recording, in the access control area, access control data relating to a function recognizable by the recording / reproducing apparatus at the time of initialization or reinitialization of the medium. The method of claim 9, Common information of access control data relating to the recognizable function is And information on whether the medium can be formatted, information on whether the medium can be formatted, and information on recording / playback of detailed areas provided on the medium. The method of claim 10, And when the medium is initialized or reinitialized, the format availability information and the recording / playback availability information for the sub-areas are set to be formatable and recordable, respectively. The method of claim 9, And the remaining unrecorded area is filled with a predetermined value after the access control data is recorded in the access control area. In the initialization method of an optical recording information storage medium provided with a lead-in area, a data area, and a lead-out area, Recording initialization information for defect management and disk management in a defect management area provided in the lead-in area so as to manage a defect occurring in the data area; The recording is made in the access control area provided in the lead-in area to record access control data having common information set so as to control access to the medium even in a recording / reproducing apparatus that does not recognize a predetermined function applied to the medium. And / or recording the access control data regarding the recognizable function by the playback device. The method of claim 13, Common information of access control data relating to the recognizable function is And an identifier relating to a function recognizable by the recording / reproducing apparatus, information on whether the medium can be formatted, and information about whether recording / playback is possible on detailed areas provided on the medium. The method of claim 14, And the format information and the record / reproducibility information of the sub-areas are set to formatable and recordable, respectively. The method of claim 13, And recording and filling predetermined data in the remaining unrecorded area after recording the access control data in the access control area. The method of claim 13, The initialization information, A disk definition including allocation information of a spare area allocated to the data area for recording replacement data replacing defective data generated in the data area, and allocation information of a user data area in which user data of the data area is recorded; Structure (DDS) and An initialization method comprising initial information (DFL) for defect management. In the re-initialization method of an optical recording information storage medium provided with a lead-in area, a data area, and a lead-out area, The recording / reproducing apparatus which does not recognize the initialization information recorded in the defect management area provided in the lead-in area and the predetermined function applied to the medium for defect management and disc management of the medium can control access to the medium. Determining whether to allow re-initialization of the medium by using access control data recorded in an access control area provided in the lead-in area to record access control data having set common information; Updating reinitialization information for defect management and disk management in the defect management area if reinitialization is allowed; Clearing the access control area, and recording access control data relating to a function recognizable by the recording / reproducing apparatus in the access control area. The method of claim 18, Common information of access control data relating to the recognizable function is And an identifier relating to a function recognizable by the recording / reproducing apparatus, information on whether the medium can be formatted, and information on whether recording / reproducing is possible on detailed areas provided on the medium. The method of claim 19, And the format availability information and the information on whether to record / reproduce the detailed areas are set to formatable and recordable, respectively. The method of claim 18, Recording the access control data in the access control area, and then recording and filling predetermined data in the remaining unrecorded area. The method of claim 18, The reinitialization information, A disk definition including allocation information of a spare area allocated to the data area for recording replacement data replacing defective data generated in the data area, and allocation information of a user data area in which user data of the data area is recorded; Structure (DDS) and Reinitialization method comprising the initial information (DFL) for defect management. The method of claim 22, Determining the size of the spare area as allocation information of the spare area, and determining a start address and an end address of the user data area as allocation information of the user data area. In the recording / reproducing apparatus, An access control area (ACA) for recording access control data having common information set to control access to the medium even if the recording / reproducing apparatus that does not recognize a predetermined function applied to the optical recording information storage medium and the access A recording / reading unit for recording data to or reading data from the medium, in which the access control data state information area for recording the state information relating to a defective state or a recording state of the control data block is provided; And a control unit for controlling the recording / reading unit to change and record state information of the access control data block upon reinitialization of the medium. The method of claim 24, The control unit, And status information of an ACD block indicating that the valid ACD is recorded before reinitialization is changed to status information indicating that an invalid ACD is recorded and available for future ACD recording. The method of claim 24, The control unit, And the state information of the ACD block indicating the defective block before reinitialization or the state information indicating that it is available for future ACD recording is controlled so as not to be changed by reinitialization. The method of claim 24, The control unit, A recording / reproducing apparatus, wherein status information of an ACD block, which indicates that the block is a defective one during reproduction, is changed to status information indicating that it is a defective block. The method of claim 24, The control unit, And further control the recording / reading unit to record "00h" or "FFh" in the identifier (ACD_ID) of the access control data to indicate whether the access control data block of the access control region is valid when reinitializing. Recording / reproducing apparatus. The method of claim 28, The control unit, And reading out the ACD block based on state information of the access control data when the ACD validity information indicated by the ACD_ID and the state information of the access control data are different from each other. The method of claim 28, The control unit, And determining the validity of the access control data block by referring to the ACD_ID of the access control data when an error occurs when reproducing the state information of the access control data. In the recording / playback method, An access control area (ACA) for recording access control data having common information set to control access to the medium even if the recording / reproducing apparatus that does not recognize a predetermined function applied to the optical recording information storage medium and the access Recording data to or reading data from the medium provided with an access control data state information area for recording state information relating to a defect state or a recording state of a control data block; And changing and recording state information of the access control data block upon reinitialization of the medium. The method of claim 31, wherein The state information change recording step, The status information of the ACD block indicating that the valid ACD is recorded prior to reinitialization includes changing to status information indicating that the invalid ACD is recorded and available for future ACD recording. How to play. The method of claim 31, wherein The state information change recording step, And controlling the state information of the ACD block indicating the defective block before reinitialization or the state information indicating that it is available for future ACD recording so as not to be changed by reinitialization. The method of claim 31, wherein The state information change recording step, And changing the state information of the ACD block, which indicates that the block is a defect during reproduction, to indicate that it is a valid ACD before reinitialization, to state information indicating that the block is a defective block. The method of claim 31, wherein And recording "00h" or "FFh" in the identifier (ACD_ID) of the access control data to indicate whether the access control data block of the access control region is valid when reinitializing. How to play. 36. The method of claim 35 wherein And reading out the ACD block based on state information of the access control data when the validity information of the ACD indicated by the ACD_ID and the state information of the access control data are different from each other. How to play. 36. The method of claim 35 wherein Determining whether the access control data block is valid by referring to the ACD_ID of the access control data when an error occurs when reproducing the state information of the access control data, and reading the ACD block based on a result of the determination; The recording / reproducing method further comprising. In the recording / reproducing apparatus, Access control for recording access control data (ACD) having common information set so as to control access to the medium even in a recording / reproducing apparatus that does not recognize a predetermined function applied to the optical recording information storage medium. A recording / reading unit for recording data to or reading data from the medium provided with an area; A default ACD including common information and predetermined specific information configured to allow recording / reproduction of detailed areas of the medium upon initialization or reinitialization of the medium. And a control unit for controlling the recording / reading unit so that the recording / reading unit is recorded in the access control area. The method of claim 38, At least some of the values set in the default ACD are provided by the host, by the controller, or by the host and the controller. In the recording / reproducing apparatus, Even in a recording / reproducing apparatus that does not recognize a predetermined function applied to an optical recording information storage medium, data is provided on the medium provided with an access control area for recording access control data having common information set to control access to the medium. A recording / reading unit for recording or reading data from the medium; Common information and predetermined that allow recording / reproducing of at least detailed areas of the medium among the access control data relating to the recognizable function when the medium is initialized or reinitialized. And a control unit for controlling the recording / reading unit to record a default ACD including specific information of the data in the access control area. In the recording / reproducing apparatus, Even in a recording / reproducing apparatus that does not recognize a predetermined function applied to an optical recording information storage medium, data is provided on the medium provided with an access control area for recording access control data having common information set to control access to the medium. A recording / reading unit for recording or reading data from the medium; Among the access control data (ACD) blocks recorded in the access control area upon reinitialization of the medium, an ACD block relating to a function recognizable by the recording / reproducing apparatus is changed according to a user's intention, and recorded. And a control unit for controlling the recording / reading unit to record a value indicating a usable state in an ACD block regarding a function in which a reproducing apparatus is not recognizable. The method of claim 41, wherein The control unit, For the ACD block related to the recognizable function, the ACD block related to the recognizable function may be updated or recorded according to a user's intention, modified or deleted, or adds an ACD block related to the new recognizable function. And further controlling the recording / reading unit to control the recording / reading unit. The method of claim 42, wherein The ACD block for the new recognizable function is Recording / reproducing, characterized in that it comprises a default ACD including common information and predetermined specific information set to allow recording / reproducing of detailed areas of the medium. Device. The method of claim 41, wherein The control unit, "00h" or "FFh" is written to indicate that there is no valid data in the ACD block for the unrecognizable function, and correspondingly, the block can use the state information of the ACD block for the unrecognized function. And a recording / reading unit further controlling to record by changing to status information. In the recording / playback method, Access control for recording access control data (ACD) having common information set so as to control access to the medium even in a recording / reproducing apparatus that does not recognize a predetermined function applied to the optical recording information storage medium. Default ACD including common information and certain specific information set to allow recording / reproducing of detailed areas of the medium upon initializing or reinitializing the medium provided with an area. recording (default ACD) in the access control area. The method of claim 45, At least some of the values set in the default ACD are provided by the host, by the controller, or by the host and the controller. In the recording / playback method, Initialization of the medium provided with an access control area for recording access control data having common information set so as to control access to the medium even in a recording / reproducing apparatus that does not recognize a predetermined function applied to an optical recording information storage medium. At the time of reinitialization or at the time of re-initialization, common information and predetermined individual information set to allow recording / reproducing of at least detailed areas of the medium among the access control data concerning the recognizable function. recording a default ACD including specific information in the access control area. In the recording / playback method, Even if the recording / reproducing apparatus that does not recognize a predetermined function applied to the optical recording information storage medium, the medium of the medium provided with an access control area for recording access control data having common information set to control access to the medium. Changing and recording an ACD block related to a function recognizable by the recording / reproducing apparatus among the access control data (ACD) blocks recorded in the access control area at the time of initialization; And recording in the ACD block regarding the unrecognizable function by the recording / reproducing apparatus with a value indicating a usable state. The method of claim 48, ACD block writing step for the recognizable function, For the ACD block related to the recognizable function, the ACD block related to the recognizable function may be updated or recorded according to a user's intention, modified or deleted, or adds an ACD block related to the new recognizable function. Recording / reproducing method, comprising the step of; The method of claim 49, The ACD block for the new recognizable function is Recording / reproducing, characterized in that it comprises a default ACD including common information and predetermined specific information set to allow recording / reproducing of detailed areas of the medium. Way. The method of claim 48, The ACD block writing step for the unrecognizable function, "00h" or "FFh" is written to indicate that there is no valid data in the ACD block for the unrecognizable function, and correspondingly, the block can use the state information of the ACD block for the unrecognizable function. Recording by changing to status information.

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