WO2005066954A1 - Method and apparatus for recording and/or reproducing data and write-once information storage medium - Google Patents

Method and apparatus for recording and/or reproducing data and write-once information storage medium Download PDF

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Publication number
WO2005066954A1
WO2005066954A1 PCT/KR2004/003482 KR2004003482W WO2005066954A1 WO 2005066954 A1 WO2005066954 A1 WO 2005066954A1 KR 2004003482 W KR2004003482 W KR 2004003482W WO 2005066954 A1 WO2005066954 A1 WO 2005066954A1
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WO
WIPO (PCT)
Prior art keywords
last
recordng
border
data
recorded
Prior art date
Application number
PCT/KR2004/003482
Other languages
French (fr)
Inventor
Sung-Hee Hwang
Jung-Wan Ko
Original Assignee
Samsung Electronics Co., Ltd.
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Priority claimed from KR1020040034293A external-priority patent/KR20050072042A/en
Application filed by Samsung Electronics Co., Ltd. filed Critical Samsung Electronics Co., Ltd.
Priority to EP04808611A priority Critical patent/EP1702329A4/en
Priority to JP2006549107A priority patent/JP2007519155A/en
Publication of WO2005066954A1 publication Critical patent/WO2005066954A1/en

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Classifications

    • GPHYSICS
    • G11INFORMATION STORAGE
    • G11BINFORMATION STORAGE BASED ON RELATIVE MOVEMENT BETWEEN RECORD CARRIER AND TRANSDUCER
    • G11B27/00Editing; Indexing; Addressing; Timing or synchronising; Monitoring; Measuring tape travel
    • G11B27/10Indexing; Addressing; Timing or synchronising; Measuring tape travel
    • G11B27/19Indexing; Addressing; Timing or synchronising; Measuring tape travel by using information detectable on the record carrier
    • G11B27/28Indexing; Addressing; Timing or synchronising; Measuring tape travel by using information detectable on the record carrier by using information signals recorded by the same method as the main recording
    • G11B27/32Indexing; Addressing; Timing or synchronising; Measuring tape travel by using information detectable on the record carrier by using information signals recorded by the same method as the main recording on separate auxiliary tracks of the same or an auxiliary record carrier
    • G11B27/327Table of contents
    • G11B27/329Table of contents on a disc [VTOC]
    • GPHYSICS
    • G11INFORMATION STORAGE
    • G11BINFORMATION STORAGE BASED ON RELATIVE MOVEMENT BETWEEN RECORD CARRIER AND TRANSDUCER
    • G11B20/00Signal processing not specific to the method of recording or reproducing; Circuits therefor
    • G11B20/10Digital recording or reproducing
    • G11B20/12Formatting, e.g. arrangement of data block or words on the record carriers
    • G11B20/1217Formatting, e.g. arrangement of data block or words on the record carriers on discs
    • GPHYSICS
    • G11INFORMATION STORAGE
    • G11BINFORMATION STORAGE BASED ON RELATIVE MOVEMENT BETWEEN RECORD CARRIER AND TRANSDUCER
    • G11B27/00Editing; Indexing; Addressing; Timing or synchronising; Monitoring; Measuring tape travel
    • G11B27/10Indexing; Addressing; Timing or synchronising; Measuring tape travel
    • G11B27/102Programmed access in sequence to addressed parts of tracks of operating record carriers
    • G11B27/105Programmed access in sequence to addressed parts of tracks of operating record carriers of operating discs
    • GPHYSICS
    • G11INFORMATION STORAGE
    • G11BINFORMATION STORAGE BASED ON RELATIVE MOVEMENT BETWEEN RECORD CARRIER AND TRANSDUCER
    • G11B2220/00Record carriers by type
    • G11B2220/20Disc-shaped record carriers
    • G11B2220/21Disc-shaped record carriers characterised in that the disc is of read-only, rewritable, or recordable type
    • G11B2220/215Recordable discs
    • G11B2220/218Write-once discs
    • GPHYSICS
    • G11INFORMATION STORAGE
    • G11BINFORMATION STORAGE BASED ON RELATIVE MOVEMENT BETWEEN RECORD CARRIER AND TRANSDUCER
    • G11B2220/00Record carriers by type
    • G11B2220/20Disc-shaped record carriers
    • G11B2220/25Disc-shaped record carriers characterised in that the disc is based on a specific recording technology
    • G11B2220/2537Optical discs
    • G11B2220/2541Blu-ray discs; Blue laser DVR discs

Definitions

  • the present invention relates to a write-once information storage medum inducing a data area that can be dvided into a plurality of borders, and more particularly, to a method and apparatus for recordng data in a sequential recordng mode or a rancbm recordng mode when a data area is dvided into a plurality of borders and/or for reproducing the data, and a write-once information storage medum.
  • a data area of an information storage medum may be dvided into a plurality of borders and user data may be recorded in units of borders to enhance ease of using the information storage medum, such as compatibility in data reproduction.
  • a data area may be dvided into a plurality of recordng zones, and the user data may be recorded in units of recordng zones to efficiently use the data area of an information storage medum.
  • data can be recorded on a write-once information storage medum in a sequential recordng mode or a rancbm recordng mode.
  • the sequential recordng mode refers to a mode for sequentially recordng user data in a data area of the write-once information storage medum
  • the rancbm recording mode refers to a mode for recordng user data at a rancbm location in an empty space of the data area of the write-once information storage medum.
  • a write-once information storage medum storing recordng management data needed to record data in a sequential recordng mode or a rancbm recordng mode if a data area of the write-once information storage medum is dvided into a plurality of borders is provided.
  • a method and apparatus for recordng data in the sequential recordng mode or the rancbm recordng mode if the data area of the write-once information storage medum is dvided into a plurality of borders are provided.
  • RMD accordng to aspects of the present invention is recorded on a write-once information storage medum and a data area is dvided into a plurality of borders and/ or recordng zones, data can be recorded on the write-once information storage medum in a sequential recordng mode or a rancbm recordng mode. Therefore, the write-once information storage medum can be used with enhanced ease and efficiency.
  • FIG. 1 illustrates the structure of a single-recordng-layer-write-once information storage medum accordng to an embodiment of the present invention
  • FIG. 2 illustrates the structure of a cbuble-recordng-layer-write-once information storage medum accordng to an embodiment of the present invention
  • FIGS. 3 A and 3B are views illustrating a method of updating recordng management data (RMD) in an RMD area accordng to an embodment of the present invention
  • FIG. 4 illustrates a format of RMD accordng to an embodment of the present invention
  • FIG. 5 illustrates the structure of a last border entry illustrated in FIG. 4 accordng to an embodment of the present invention
  • FIG. 6 illustrates a 'list of closed border entries' and a 'recordng state of last open border' when data was recorded in a last open border in a rancbm recordng mode accordng to an embodment of the present invention
  • FIG. 7 illustrates a 'list of closed border entries' and a 'recordng state of last open border' when data was recorded in a last open border in a sequential recordng mode accordng to an embodment of the present invention
  • FIGS. 8 A and 8B illustrate a data area where a last border, in which data was recorded in the rancbm recordng mode, is closed and where a new last border is created accordng to an embodment of the present invention
  • FIGS. 9A and 9B illustrate a data area where a last border, in which data was recorded in the sequential recordng mode, is closed and where a new last border is created accordng to an embodment of the present invention
  • FIG. 10 illustrates RMD updated after closing a last open border accordng to an embodment of the present invention
  • FIG. 11 is a block dagram of a data recordng and/or reproducing apparatus accordng to an embodment of the present invention.
  • FIG. 12 is a flowchart illustrating a method of recordng data on a write-once information storage medum accordng to an embodment of the present invention
  • FIG. 13 is a flowchart illustrating S830 of FIG. 12 accordng to an embodment of the present invention.
  • FIG. 14 is a flowchart illustrating a method of reproducing data accordng to an embodment of the present invention. Best Mode
  • a write-once information storage medum includng at least one data area for recordng user data; and at least one recordng management data area for recordng recordng management data needed to use the at least one data area by dvidng the at least one data area into a plurality of borders when recordng the user data in a sequential recordng mode and/or a rancbm recordng mode in the at least one data area.
  • a method of recordng data on a write-once information storage medum includng a data area dvided into a plurality of closed borders for reproduction and a last open border in which new data can be recorded.
  • the method includes recordng user data in a sequential recordng mode or a rancbm recordng mode in the last border; and creating and recordng recordng management data includng a last border entry, which contains a starting address and a last recorded address of the last border and state information indcating whether the last border is a closed border for reproduction and whether the last border will be used in the sequential recordng mode or the rancbm recordng mode.
  • a data recordng apparatus recordng data on a write-once information storage medum includng a data area dvided into a plurality of closed borders for reproduction and a last open border in which new data can be recorded.
  • the apparatus includes a recordng/readng unit recordng data on the write-once information storage medum and readng the recorded data; and a controlling unit controlling the recordng/readng unit to record user data in a sequential recordng mode or a rancbm recordng mode, creating recordng management data includng a last border entry, which contains a starting address and a last recorded address of the last border and state information indcating whether the last border is a closed border for reproduction and whether the last border will be used in the sequential recordng mode or the rancbm recordng mode, and controlling the recordng/readng unit to record the recordng management data on the write-once information storage medum.
  • a method of reproducing data recorded on a write-once information storage medum includng a data area dvided into a plurality of borders.
  • the method includes readng last recorded recordng management data from the write-once information storage medum; obtaining a starting address and a last recorded address of a last border from the recordng management data; determining where a last updated file system was recorded based on the starting address and the last recorded address of the last border; and readng and reproducing the last updated file system.
  • a data reproducing apparatus reproducing data recorded on a write-once information storage medum includng a data area dvided into a plurality of borders.
  • the apparatus includes a readng unit readng data recorded on the write-once information storage medum; and a controlling unit controlling the readng unit to read last recorded recordng management data from the write-once information storage medum, determining where a last updated file system was recorded based on a starting address and a last recorded address of a last border included in the recordng management data, and controlling the readng unit to read the last updated file system from the write-once information storage medum.
  • FIG. 1 illustrates the structure of a single-recordng-layer-write-once information storage medum 100 accordng to an embodment of the present invention.
  • FIG. 2 illustrates the structure of a cbuble-recordng-layer-write-once information storage medum 200 accordng to an embodment of the present invention.
  • the single-recordng-layer-write-once information storage medum 100 includes a lead-in area, a data area, and a lead-out area dsposed sequentially from the inner circumference to the outer circumference thereof.
  • the lead-in area includes at least one finalized dsc management area (FDMA) and a recordng management area.
  • FDMA finalized dsc management area
  • the lead-in area includes FDMA 1 and FDMA 2, and RMD area 0.
  • the data area includes spare area 0 and spare area 1, and a user area.
  • the lead-out area includes FDMA 3 and FDMA 4, and RMD area 1.
  • An RMD area is an area where RMD accordng to aspects of the present invention is recorded. A detailed description of the RMD area will be made later.
  • the spare areas are areas used for replacing defective user data recorded in the user area.
  • at least one spare area is allotted to the data area by a data recordng and/or reproducing apparatus or by a user's choice when the single- recordng-layer-write-once information storage medum 100 is initialized.
  • TDDS temporary dsc defect structure
  • TDFL temporary defect list
  • the TDDS may include a TDDS identifier, an update counter, information regardng where a last TDFL, and final dsc and drive information are recorded, and information regardng the size of the spare area allotted to the data area.
  • the TDFL may include a TDFL identifier, an update counter, the number of defective factors, and defective factors.
  • a defective factor includes state information, position information of a defective cluster, and position information of a replacement cluster.
  • the state information may indcate the type of defects and replacement information.
  • the TDFL and TDDS in the spare area are updated at predetermined intervals.
  • last updated TDFL and TDDS are recorded in FDMA 1, FDMA 2, FDMA 3 and FDMA 4 as a defect list (DFL) and a dsc defect structure (DDS), respectively.
  • DFL defect list
  • DDS dsc defect structure
  • the cbuble-recordng-layer-write-once information storage medum 200 includes a first recordng layer (L0) includng a lead-in area, a first data area (data area 0), and a first middle area (middle area 0) and a second recordng layer (LI) includng a second middle area (middle area 1), a second data area (data area 1), and a lead-out area.
  • the structures of the L0 and LI are almost the same as the single- recordng-layer-write-once information storage medum 100 of FIG. 1.
  • User data is recorded from the inner circumference to the outer circumference of user area 0 of the first recordng layer L0.
  • the user data is recorded in the second recordng layer LI from the inner circumference to the outer circumference of user area 1.
  • the RMD areas may be allotted to the data area by the data recordng and/or reproducing apparatus or accordng to a user's choice in order to increase the number of times that the RMD is updated.
  • the RMD areas for recordng only RMD are allotted to the lead-in and/or lead-out areas of the single-recordng-layer-write-once information storage medum 100 of FIG. 1 and the cbuble-recordng-layer-write-once information storage medum 200 of FIG. 2.
  • TDDS and RMD may be recorded together in one cluster or in separate clusters in the RMD areas.
  • FIGS. 3 A and 3B are views for illustrating a method of updating RMD in an RMD area accordng to an embodment of the present invention.
  • RMD #0 through #n is recorded from the inner circumference to the outer circumference of the RMD area 310, which is for example, one of the RMD areas in either the single- recordng-layer-write-once information storage medum or the first recordng layer L0 of the cbuble-recordng-layer-write-once information storage medum.
  • RMD #0 through #n is recorded from the outer circumference to the inner circumference of the RMD area 330 which is, for example, the second recordng layer LI of the cbuble-recordng-layer-write-once information storage medum.
  • the RMD areas are sequentially used. In other words, after an RMD area is used or filled, updated RMD is recorded in a next RMD area.
  • the RMD areas are sequentially used in the order of RMD area 0, RMD area 1, RMD area 2, and RMD area 3. Since the order in which the RMD areas are used and the drection in which each of the RMD areas is used are predetermined, the data recordng and/or reproducing apparatus can easily and quickly access the last updated RMD recorded on the cbuble-recordng-layer-write-once information storage medum 200.
  • FIG. 4 illustrates a format of RMD 400 accordng to an embodment of the present invention. Since the RMD 400 is recorded on the single-recordng-layer-write-once information storage medum 100 or the cbuble-recordng-layer-write-once information storage medum 200, the data recordng and/or reproducing apparatus can record and reproduce data in a sequential recordng mode and/or a rancbm recordng mode.
  • the single-recordng-layer-write-once information storage medum 100 or the cbuble- recordng-layer-write-once information storage medum 200 can be dvided into a plurality of borders before being used.
  • the RMD 400 includes an RMD header 410, a list of closed border entries 430, and a recordng state of last open border 450.
  • the RMD header 410 includes an RMD identifier 411, a last border entry 413, and a total number of borders 415.
  • the RMD identifier 411 is for identifying each RMD recorded in the RMD area.
  • the last border entry 413 is information regardng the position and state of a last border out of a plurality of borders in the data area of the single- recordng-layer-write-once information storage medum 100 or the cbuble- recordng-layer-write-once information storage medum 200.
  • the total number of borders 415 indcates a total number of borders in the single- recordng-layer-write-once information storage medum 100 or the cbuble- recordng-layer-write-once information storage medum 200.
  • the single-recordng-layer-write-once information storage medum 100 or the cbuble-recordng-layer-write-once information storage medum 200 is used in units of borders accordng to the drection in which the user area is used.
  • the last border denotes a border used last among a plurality of borders. Thus, only the last border can be an open border, and the borders before the last border are closed borders.
  • FIG. 5 illustrates the structure of the last border entry 413 illustrated in FIG. 4 accordng to an embodment of the present invention.
  • the last border entry 413 includes state information indcating a state of a last border, a starting address of the last border, and a last recorded address (LRA).
  • the starting address denotes an address of a physical starting sector of the last border.
  • the LRA denotes an address of a physical sector of a position where data is last recorded in the last border.
  • the state information indcates whether the last border is empty, being used in the rancbm recordng mode or in the sequential recordng mode, or closed.
  • Each closed border entry in the list of closed border entries 430 includes a starting address of each closed border and an LRA of a position where data is last recorded in each closed border.
  • the closed border entries cb not include state information of the closed borders unlike the last border entry 413.
  • the reason why only the last border entry 413 includes the state information of a last border is that data is not recorded in the closed borders and that the closed borders are used only for reproduction. Thus, it cbes not matter in what recordng mode that the data was recorded in the closed borders. Further, if the last border is closed, it denotes that the single- recordng-layer-write-once information storage medum 100 or the cbuble- recordng-layer-write-once information storage medum 200 is completed and will be used for only reproduction.
  • the recordng state of last open border 450 indcates the recordng state of a last open border. Different recordng state information is recorded in the recordng state of last open border 450 dependng on whether data was recorded in the sequential recordng mode or the rancbm recordng mode.
  • FIG. 6 illustrates a 'list of closed border entries' 430 and a 'recordng state of last open border' 450 when data was recorded in a last open border in the rancbm recordng mode accordng to an embodment of the present invention.
  • the 'list of closed border entries' includes border entries #1 through #k (k is a variable equal to or greater than 1), which are entries of k closed borders used before a last border.
  • the 'recordng state of last open border' 450 includes a bitmap to indcate the recordng state of the last open border.
  • a bitmap is formed by allocating dfferent bit values to a data-recorded cluster and a data-unrecorded cluster.
  • a cluster is a unit of recordng and reproducing data on/from a write-once information storage medum.
  • FIG. 7 illustrates a 'list of closed border entries' 430' and a 'recordng state of last open border' 450' when data was recorded in a last open border in the sequential recordng mode accordng to an embodment of the present invention.
  • the 'list of closed border entries' 430' includes (k is a variable equal to or greater than 1) #1 through #k border entries, which are entries of k closed borders used before a last border.
  • the 'recordng state of last open border' 450' includes a list of recordng zone (R-zone) entries, which are entries of R-zones included in the last open border, to indcate the recordng state of the last open border.
  • R-zone recordng zone
  • the last open border is dvided into at least one R-zone. Then, the data is recorded in the sequential recordng mode in the last open border in units of R-zones.
  • the 'recordng state of last open border' 450' includes R- zone entries #(k+l) through #(k+n) (k and n are variables equal to or greater than 1).
  • Each of the R-zone entries #(k+l) through #(k+n) includes a starting address and an LRA of each R-zone.
  • the total number of borders 415 in the RMD 400 illustrated in FIG. 4 indcates a starting R-zone entry number of the last border.
  • the total number of borders 415 can be used to determine a position where the bitmap, which indcates the recordng state of the last open border, starts in the RMD 400 when the state information of the last border in the last border entry 413 indcates that the last border is being used in the rancbm recordng mode.
  • a starting position of the bitmap of the last open border in the RMD 400 can be calculated using the following equation:
  • the total number of borders 415 can be used to calculate a position where the first R-zone entry in the 'list of R-zone entries of last open border,' which indcates the recordng state of a last open border, starts in the RMD 400.
  • the position where the first R-zone entry in the 'list of R-zone entries of last open border' starts in the RMD 400 can be calculated using the following equation:
  • each border has a border entry includng a starting address of the border and an LRA of the border. Therefore, the data recordng and/or reproducing apparatus can quickly obtain information regardng the latest file system from the single-recordng-layer-write-once information storage medum 100 or the cbuble- recordng-layer-write-once information storage medum 200.
  • an anchor point of a closed border must be at least two out of: 1) logical sector number 256, 2) last logical sector number-256, or 3) a last logical sector number. Since it is possible to know the starting address and the LRA of each border in the case of the UDF file system, the data recordng and/or reproducing apparatus can quickly obtain information regardng where a file system was recorded .
  • bitmaps of borders that have already been closed are not included in the RMD 400. Instead, a bitmap of a newly created open border is included in the RMD 400, thereby securing the maximum number of useable borders. If the bitmaps of the closed borders are included in the RMD 400, bitmap data to be included in the RMD 400 increases. In this case, if the size of the RMD 400 is fixed, recordng space available for border entries #1 through #k will be reduced.
  • the bitmaps of the closed borders are not included in the RMD 400, thereby increasing the space available for border entries #1 through #k. Accordngly, more borders can be allotted to the single- recordng-layer-write-once information storage medum 100 or the cbuble- recordng-layer-write-once information storage medum 200.
  • the second border can use only 2,000 R-zones.
  • FIGS. 8 A and 8B illustrate a data area where a last border, in which data was recorded in the rancbm recordng mode, is closed and where a new last border is created accordng to an embodment of the present invention.
  • FIG. 8 A illustrates k closed borders and the (k+1) border that is a last open border of the user area. Data was recorded from a first position 501 to a last position 503 in the (k+1) border in the rancbm recordng mode.
  • the bitmap of the (k+1) border in RMD correspondng to the data area is also illustrated in FIG. 8A. The bitmap was formed by allotting T to clusters where data was recorded and '0' to clusters where data was not recorded.
  • FIG. 8B illustrates the data area where the (k+1) border of FTG. 8 A is closed and the (k+2) border, which is a new last border, is open within the user area.
  • the scope of the (k+1) border extends from the first position 501 to the last position 503.
  • the bitmap of the (k+2) border in the RMD correspondng to the data area is also illustrated in FTG. 8B. Since no data has been recorded in the (k+2) border, bit values in the bitmap are '0.'
  • FTGS. 9A and 9B illustrate a data area where a last border, in which data was recorded in the sequential recordng mode, is closed and where a new last border is created accordng to an embodment of the present invention.
  • FTG. 9A illustrates k closed borders 510 through 550 and the (k+1) border 570, which is a last open border.
  • the (k+1) border 570 includes (k+1) through (k+n) R-zones 571 through 575. Data was recorded from a first position to a second position in the (k+n) R-zone in the sequential recordng mode. Thus, the second position would correspond with the LRA of the last border entry.
  • FTG. 9B illustrates the data area where the (k+1)* border 570 of FTG. 9A is closed and the (k+2) border 590, which is a new last border, is open.
  • the (k+1) R-zone 571 through a last position of the (k+n) R-zone 575, where data was recorded, are merged into one R-zone to become the (k+1) border.
  • the starting position of the (k+1) R-zone 571 through the last position of the (k+n) R-zone 575 where data was recorded becomes the (k+1) border that is closed.
  • FTG. 10 illustrates RMD 620 reflecting the recordng management state of a write- once information storage medum after, as illustrated in FTGS. 8B and 915, closing the (k+1) border, which is a previous last open border accordng to an embodment of the present invention.
  • the write-once information storage medum includes (k+2) borders, and a last border entry includes the state information, the starting address, and the LRA of the (k+2) border, which is a new last open border.
  • the data recordng and/or reproducing apparatus updates previous RMD, creates the RMD 620 illustrated in FTG. 10, and records the RMD 620 in the appropriate RMD area. Since the last open border has become the (k+2) border, the RMD 620 will be dfferent from the previous RMD. As such, the last border entry will be changed, the 'total number of borders' will be increased by one, and the (k+1) border entry will be added to the 'list of closed border entries.'
  • the 'recordng state of last open border' in the RMD 620 of FTG. 10 indcates the state of being empty. In other words, no data has been recorded in the (k+2) border, which is a new last open border. If the write-once information storage medum in this state is loaded into the data recordng and/or reproducing apparatus, the data recordng and/or reproducing apparatus informs a host of the state of a last open border read from the 'recordng state of last open border' of last recorded RMD on the write-once information storage medum. Then, the host determines in which recordng mode data will be recorded in the last open border (k+2) and issues a recordng command.
  • the last border is closed to complete the write-once information storage medum, there is no need to create a new last border in the data area.
  • final management information of the write-once information storage medum such as the TDFL and the TDDS, is recorded in the FDMA.
  • the data recordng and/or reproducing apparatus can access the FDMA and determine whether the write-once information storage medum is complete.
  • last recorded RMD may be obtained, and, based on the state information of a last border entry read from the last recorded RMD, it may be dete rmined whether the write-once information storage medum is complete.
  • FTG. 11 is a block dagram of a data recordng and/or reproducing apparatus accordng to an embodment of the present invention.
  • the data recordng and/or reproducing apparatus includes a recordng/readng unit 1, a controlling unit 2, and a memory 3.
  • a write-once information storage medum 10 is either the single-recordng-layer-write-once information storage medum 100 or the cbuble-recordng-layer-write-once information storage medum 200 of FTG. 1 or 2, respectively, accordng to an embodment of the present invention.
  • the controlling unit 2 controls the recordng/readng unit 1 to record and/or reproduce data on/from the write-once information storage medum 10. After recordng the data, the recordng/readng unit 1 reads the recorded data to confirm the existence of the recorded data. The controlling unit 2 controls the entire operation of the data recordng and/or reproducing apparatus.
  • the data recordng and/or reproducing apparatus After the write-once information storage medum 10 is loaded into the data recordng and/or reproducing apparatus, the data recordng and/or reproducing apparatus reads information, such as a last updated RMD, a TDDS, and a TDFL, from the write-once information storage medum 10 and stores the information in the memory 3. Thereafter, if user data is recorded in a last open border of the write-once information storage medum 10 in the sequential recordng mode or the rancbm recordng mode and RMD needs to be updated, the controlling unit 2 creates updated RMD with reference to the RMD, which is stored in the memory 3 and read from the write-once information storage medum 10.
  • information such as a last updated RMD, a TDDS, and a TDFL
  • FTG. 12 is a flowchart illustrating a method of recordng data on the write-once information storage medum 10 accordng to an embodment of the present invention.
  • the data recordng and/or reproducing apparatus is initialized to use the write-once information storage medum 10.
  • the controlling unit 2 reads basic control information needed to use the write-once information storage medum 10 and the last updated TDFL, TDDS, and RMD from the lead-in and/or lead-out area and stores the basic control information and the last updated TDFL, TDDS, and RMD in the memory 3.
  • the controlling unit 2 obtains the state information, the starting address and the LRA of the last border from the last updated RMD.
  • the controlling unit 2 determines where a last updated file system was recorded based on the starting address and the LRA of the last border, reads the last updated file system, and stores the last updated file system in the memory 3.
  • the controlling unit 2 obtains the 'recordng state of last open border' of the RMD and informs the host (not shown) of the state of a last open border.
  • the controlling unit 2 After the data recordng and/or reproducing apparatus is initialized to use the write- once information storage medum 10, if the data recordng and/or reproducing apparatus receives a command to record user data on the write-once information storage medum 10 and the user data from the host (S810), the controlling unit 2 records the user data in the last open border of the write-once information storage medum 10 in the sequential recordng mode or the rancbm recordng mode (S830).
  • the host determines a data recordng mode based on information regardng the recordng state of the last open border received from the controlling unit 2. In other words, if the 'recordng state of last open border' indcates that no data has been recorded in the last open border, the host determines in which recordng mode data will be recorded in the last open border and transmits a recordng command to the controlling unit 2. However, if the 'recordng state of last open border' indcates that data has already been recorded in the last open border in the rancbm recordng mode or the sequential recordng mode, the host commands the controlling unit 2 to record new data in a matching recordng mode.
  • the data recordng and/or reproducing apparatus creates updated RMD with reference to the RMD, which is stored in the memory 3 at predetermined timing and read from the write-once information storage medum 10, and records the updated RMD in the RMD area (S850).
  • the structure of the updated RMD is identical to the RMD 400 of FTG. 4.
  • the contents of the 'recordng state of last open border' included in the updated RMD dffer accordng to whether data was recorded in the rancbm recordng mode or the sequential recordng mode in the last open border.
  • FTG. 13 is a flowchart illustrating S830 of FTG. 12 accordng to an embodment of the present invention. Specifically, FTG. 13 illustrates a method of closing a last open border after recordng data in the last open border in the sequential recordng mode.
  • user data is recorded in the last open border in units of R-zones (S831).
  • the controlling unit 2 determines the extent from a starting position to a last position of the last open border where the user data was recorded as a last closed border (S833).
  • the controlling unit 2 merges at least one R-zone included in the last closed border into one R-zone (S835).
  • S833 and S835 may be better understood with reference to FIGS. 9A and 9B.
  • the controlling unit 2 when closing the last open border, creates updated RMD and records the updated RMD in the RMD area of the write- once information storage medum 10.
  • the time when the RMD will be updated can be determined in dverse ways.
  • the RMD may be updated at predetermined intervals or after the completion of a round of recordng operation.
  • the RMD may be updated if a predetermined amount of user data is recorded on the write- once information storage medum 10.
  • a method of reproducing RMD recorded on the write-once information storage medum 10 accordng to an embodment of the present invention will now be described.
  • a data reproducing apparatus accordng to the present embodment uses the data recordng and/or reproducing apparatus of FTG. 10. However, since the data reproducing apparatus is for reproduction only, the recordng/readng unit 1 functions as a readng unit only, and the controlling unit 2 performs only readng-related functions.
  • FTG. 14 is a flowchart illustrating a method of reproducing data accordng to an embodment of the present invention.
  • the data reproducing apparatus When the write-once information storage medum 10 is loaded into the data reproducing apparatus (S910), the data reproducing apparatus reads a last updated RMD from the write-once information storage medum 10 and stores the last updated RMD in the memory 3 (S930).
  • the last updated RMD from the write-once information storage medum 10 is read when the data reproducing apparatus is initialized to use the write-once information storage medum 10.
  • the controlling unit 2 reads basic control information needed to use the write-once information storage medum 10 and the last updated TDFL, TDDS stored in an FDMA, and RMD from the lead-in and/or lead-out area and stores the basic control information and the last updated TDFL, TDDS, and RMD in the memory 3.
  • the controlling unit 2 obtains the state information, starting address, and the LRA of the last border from the last updated RMD structured like the RMD 400 of FTG. 4 (S950). The controlling unit 2 determines where a last updated file system was recorded based on the starting address and the LRA of the last border (S970). For example, in the case of an UDF file system, an anchor point must be at least two out of: 1) a logical sector number 256, 2) a last logical sector number-256, or 3) a last logical sector number in the last border. Therefore, the data reproducing apparatus can determine where the last updated file system was recorded based on the starting address and the LRA of the last border .
  • the controlling unit 2 obtains the starting address and the LRA of a last closed border from the list of closed border entries 430 in the RMD 400. Then, the controlling unit 2 can determine where the last updated file system was recorded based on the starting address and the LRA of the last closed border.
  • the controlling unit 2 reads and reproduces the last updated file system from the write-once information storage medum 10 (S990). By reproducing the last updated file system, the controlling unit 2 interprets the read file system and recognizes the type of user data recorded on the write-once information storage medum 10, the location where the user data was recorded, and a drectory structure.
  • the host determines a data reproducing mode based on information regardng the recordng state of the last open border received from the controlling unit 2. In other words, the host determines in which recordng mode data was recorded in the last open border based on the 'recordng state of last open border' and commands the controlling unit 2 to reproduce the data accordng to the determined recordng mode.
  • the present invention can also be implemented as computer-readable code on a computer-readable recordng medum.
  • the computer-readable recordng medum is any data storage device that can store data which can be thereafter read by a computer system. Examples of the computer-readable recordng medum include read-only memory (ROM), rancbm-access memory (RAM), CD-ROMs, magnetic tapes, floppy dsks, optical data storage devices, and carrier waves (such as data transmission through the Internet).
  • the computer-readable recordng medum can also be dstributed over network- coupled computer systems so that the computer-readable code is stored and executed in a dstributed fashion.

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Abstract

A method and apparatus for recording and/or reproducing data, and a write-once information storage medium. The write-once information storage medium includes at least one data area for recording user data and at least one recording management data (RMD) area for recording recording management data needed to use the at least one data area by dividing the at least one data area into a plurality of borders when recording the user data in a sequential recording mode and/or a random recording mode in the at least one data area. If RMD is recorded on the write-once information storage medium and the data area is divided into a plurality of borders and/or recording zones, data can be recorded on the write-once information storage medium in a sequential recording mode or a random recording mode. Therefore, the write-once information storage medium can be used with enhanced ease and efficiency.

Description

Description METHOD AND APPARATUS FOR RECORDING AND/OR REPRODUCING DATA AND WRITE-ONCE INFORMATION STORAGE MEDIUM Technical Field
[1] The present invention relates to a write-once information storage medum inducing a data area that can be dvided into a plurality of borders, and more particularly, to a method and apparatus for recordng data in a sequential recordng mode or a rancbm recordng mode when a data area is dvided into a plurality of borders and/or for reproducing the data, and a write-once information storage medum. Background Art
[2] Data recorded on a re-recordable information storage medum can be overwritten with new data. On the other hand, data can be recorded in a recordng area of a write- once information storage medum only once. Thus, the data recorded on the write-once information storage medum cannot be overwritten with new data, nor can it be deleted or modified.
[3] Accordng to the conventional art, a data area of an information storage medum may be dvided into a plurality of borders and user data may be recorded in units of borders to enhance ease of using the information storage medum, such as compatibility in data reproduction. Accordng to the conventional art, when recordng user data in a sequential recordng mode, a data area may be dvided into a plurality of recordng zones, and the user data may be recorded in units of recordng zones to efficiently use the data area of an information storage medum.
[4] Accordng to the conventional art, data can be recorded on a write-once information storage medum in a sequential recordng mode or a rancbm recordng mode. The sequential recordng mode refers to a mode for sequentially recordng user data in a data area of the write-once information storage medum and the rancbm recording mode refers to a mode for recordng user data at a rancbm location in an empty space of the data area of the write-once information storage medum.
[5] Accordng to the conventional art, when the write-once information storage medum is initialized, a recordng mode is selected. Once a recordng mode is selected, data is recorded on the write-once information storage medum only in the selected recordng mode. Disclosure of Invention Technical Solution
[6] In accordance with an aspect of the present invention, a write-once information storage medum storing recordng management data needed to record data in a sequential recordng mode or a rancbm recordng mode if a data area of the write-once information storage medum is dvided into a plurality of borders is provided.
[7] In accordance with an aspect of the present invention, a method and apparatus for recordng data in the sequential recordng mode or the rancbm recordng mode if the data area of the write-once information storage medum is dvided into a plurality of borders are provided.
[8] In accordance with an aspect of the present invention, a method and apparatus for reproducing data recorded on the write-once information storage medum in the sequential recordng mode or the rancbm recordng mode if the data area of the write- once information storage medum is dvided into a plurality of borders are provided. Advantageous Effects
[9] If RMD accordng to aspects of the present invention is recorded on a write-once information storage medum and a data area is dvided into a plurality of borders and/ or recordng zones, data can be recorded on the write-once information storage medum in a sequential recordng mode or a rancbm recordng mode. Therefore, the write-once information storage medum can be used with enhanced ease and efficiency. Description of Drawings
[10] These and/or other aspects and advantages of the invention will become apparent and more readly appreciated from the following description of the embodments, taken in conjunction with the accompanying drawings of which:
[11] FIG. 1 illustrates the structure of a single-recordng-layer-write-once information storage medum accordng to an embodiment of the present invention;
[12] FIG. 2 illustrates the structure of a cbuble-recordng-layer-write-once information storage medum accordng to an embodiment of the present invention;
[13] FIGS. 3 A and 3B are views illustrating a method of updating recordng management data (RMD) in an RMD area accordng to an embodment of the present invention;
[14] FIG. 4 illustrates a format of RMD accordng to an embodment of the present invention;
[15] FIG. 5 illustrates the structure of a last border entry illustrated in FIG. 4 accordng to an embodment of the present invention;
[16] FIG. 6 illustrates a 'list of closed border entries' and a 'recordng state of last open border' when data was recorded in a last open border in a rancbm recordng mode accordng to an embodment of the present invention;
[17] FIG. 7 illustrates a 'list of closed border entries' and a 'recordng state of last open border' when data was recorded in a last open border in a sequential recordng mode accordng to an embodment of the present invention;
[18] FIGS. 8 A and 8B illustrate a data area where a last border, in which data was recorded in the rancbm recordng mode, is closed and where a new last border is created accordng to an embodment of the present invention;
[19] FIGS. 9A and 9B illustrate a data area where a last border, in which data was recorded in the sequential recordng mode, is closed and where a new last border is created accordng to an embodment of the present invention;
[20] FIG. 10 illustrates RMD updated after closing a last open border accordng to an embodment of the present invention;
[21] FIG. 11 is a block dagram of a data recordng and/or reproducing apparatus accordng to an embodment of the present invention;
[22] FIG. 12 is a flowchart illustrating a method of recordng data on a write-once information storage medum accordng to an embodment of the present invention;
[23] FIG. 13 is a flowchart illustrating S830 of FIG. 12 accordng to an embodment of the present invention; and
[24] FIG. 14 is a flowchart illustrating a method of reproducing data accordng to an embodment of the present invention. Best Mode
[25] Accordng to an aspect of the present invention, there is provided a write-once information storage medum includng at least one data area for recordng user data; and at least one recordng management data area for recordng recordng management data needed to use the at least one data area by dvidng the at least one data area into a plurality of borders when recordng the user data in a sequential recordng mode and/or a rancbm recordng mode in the at least one data area.
[26] Accordng to another aspect of the present invention, there is provided a method of recordng data on a write-once information storage medum includng a data area dvided into a plurality of closed borders for reproduction and a last open border in which new data can be recorded. The method includes recordng user data in a sequential recordng mode or a rancbm recordng mode in the last border; and creating and recordng recordng management data includng a last border entry, which contains a starting address and a last recorded address of the last border and state information indcating whether the last border is a closed border for reproduction and whether the last border will be used in the sequential recordng mode or the rancbm recordng mode.
[27] Accordng to another aspect of the present invention, there is provided a data recordng apparatus recordng data on a write-once information storage medum includng a data area dvided into a plurality of closed borders for reproduction and a last open border in which new data can be recorded. The apparatus includes a recordng/readng unit recordng data on the write-once information storage medum and readng the recorded data; and a controlling unit controlling the recordng/readng unit to record user data in a sequential recordng mode or a rancbm recordng mode, creating recordng management data includng a last border entry, which contains a starting address and a last recorded address of the last border and state information indcating whether the last border is a closed border for reproduction and whether the last border will be used in the sequential recordng mode or the rancbm recordng mode, and controlling the recordng/readng unit to record the recordng management data on the write-once information storage medum.
[28] Accordng to another aspect of the present invention, there is provided a method of reproducing data recorded on a write-once information storage medum includng a data area dvided into a plurality of borders. The method includes readng last recorded recordng management data from the write-once information storage medum; obtaining a starting address and a last recorded address of a last border from the recordng management data; determining where a last updated file system was recorded based on the starting address and the last recorded address of the last border; and readng and reproducing the last updated file system.
[29] Accordng to another aspect of the present invention, there is provided a data reproducing apparatus reproducing data recorded on a write-once information storage medum includng a data area dvided into a plurality of borders. The apparatus includes a readng unit readng data recorded on the write-once information storage medum; and a controlling unit controlling the readng unit to read last recorded recordng management data from the write-once information storage medum, determining where a last updated file system was recorded based on a starting address and a last recorded address of a last border included in the recordng management data, and controlling the readng unit to read the last updated file system from the write-once information storage medum.
[30] Additional aspects and/or advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention. Mode for Invention
[31] Reference will now be made in detail to the present embodments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the like elements throughout. The embodments are described below in order to explain the present invention by referring to the figures.
[32] FIG. 1 illustrates the structure of a single-recordng-layer-write-once information storage medum 100 accordng to an embodment of the present invention. FIG. 2 illustrates the structure of a cbuble-recordng-layer-write-once information storage medum 200 accordng to an embodment of the present invention.
[33] Referring to FIG. 1, the single-recordng-layer-write-once information storage medum 100 includes a lead-in area, a data area, and a lead-out area dsposed sequentially from the inner circumference to the outer circumference thereof. The lead-in area includes at least one finalized dsc management area (FDMA) and a recordng management area. In the example of FIG. 1, the lead-in area includes FDMA 1 and FDMA 2, and RMD area 0. The data area includes spare area 0 and spare area 1, and a user area. The lead-out area includes FDMA 3 and FDMA 4, and RMD area 1.
[34] An RMD area is an area where RMD accordng to aspects of the present invention is recorded. A detailed description of the RMD area will be made later.
[35] The spare areas are areas used for replacing defective user data recorded in the user area. In the present embodment, at least one spare area is allotted to the data area by a data recordng and/or reproducing apparatus or by a user's choice when the single- recordng-layer-write-once information storage medum 100 is initialized.
[36] Also, a temporary dsc defect structure (TDDS) and a temporary defect list (TDFL) other than the user data re-recorded for defect management are recorded in the spare area.
[37] The TDDS (not separately shown) may include a TDDS identifier, an update counter, information regardng where a last TDFL, and final dsc and drive information are recorded, and information regardng the size of the spare area allotted to the data area.
[38] The TDFL (not separately shown) may include a TDFL identifier, an update counter, the number of defective factors, and defective factors. A defective factor includes state information, position information of a defective cluster, and position information of a replacement cluster. The state information may indcate the type of defects and replacement information.
[39] Until the single-recordng-layer write-once information storage medum 100 is completed, the TDFL and TDDS in the spare area (spare area 0 and/or spare area 1) are updated at predetermined intervals. When the single-recordng-layer write-once information storage medum 100 is completed, last updated TDFL and TDDS are recorded in FDMA 1, FDMA 2, FDMA 3 and FDMA 4 as a defect list (DFL) and a dsc defect structure (DDS), respectively. In cbing so, a reproducing apparatus for re- recordable information storage meda can reproduce data from the single- recordng-layer write-once information storage medum 100.
[40] Referring to FIG. 2, the cbuble-recordng-layer-write-once information storage medum 200 includes a first recordng layer (L0) includng a lead-in area, a first data area (data area 0), and a first middle area (middle area 0) and a second recordng layer (LI) includng a second middle area (middle area 1), a second data area (data area 1), and a lead-out area. The structures of the L0 and LI are almost the same as the single- recordng-layer-write-once information storage medum 100 of FIG. 1. User data is recorded from the inner circumference to the outer circumference of user area 0 of the first recordng layer L0. When the user data cannot be recorded in user area 0 anymore, the user data is recorded in the second recordng layer LI from the inner circumference to the outer circumference of user area 1.
[41] Although not shown in FIGS. 1 and 2, when a data recordng and/or reproducing apparatus is initialized to use the single-recordng-layer-write-once information storage medum 100 or the cbuble-recordng-layer-write-once information storage medum 200, the RMD areas may be allotted to the data area by the data recordng and/or reproducing apparatus or accordng to a user's choice in order to increase the number of times that the RMD is updated.
[42] The RMD areas for recordng only RMD are allotted to the lead-in and/or lead-out areas of the single-recordng-layer-write-once information storage medum 100 of FIG. 1 and the cbuble-recordng-layer-write-once information storage medum 200 of FIG. 2. However, TDDS and RMD may be recorded together in one cluster or in separate clusters in the RMD areas.
[43] FIGS. 3 A and 3B are views for illustrating a method of updating RMD in an RMD area accordng to an embodment of the present invention. Referring to FIG. 3 A, RMD #0 through #n is recorded from the inner circumference to the outer circumference of the RMD area 310, which is for example, one of the RMD areas in either the single- recordng-layer-write-once information storage medum or the first recordng layer L0 of the cbuble-recordng-layer-write-once information storage medum. Referring to FIG. 3B, RMD #0 through #n is recorded from the outer circumference to the inner circumference of the RMD area 330 which is, for example, the second recordng layer LI of the cbuble-recordng-layer-write-once information storage medum.
[44] In the present embodment, if the single-recordng-layer-write-once information storage medum 100 or the cbuble-recordng-layer-write-once information storage medum 200 includes a plurality of RMD areas, the RMD areas are sequentially used. In other words, after an RMD area is used or filled, updated RMD is recorded in a next RMD area.
[45] In the case of the cbuble-recordng-layer-write-once information storage medum 200 of FIG. 2, the RMD areas are sequentially used in the order of RMD area 0, RMD area 1, RMD area 2, and RMD area 3. Since the order in which the RMD areas are used and the drection in which each of the RMD areas is used are predetermined, the data recordng and/or reproducing apparatus can easily and quickly access the last updated RMD recorded on the cbuble-recordng-layer-write-once information storage medum 200.
[46] FIG. 4 illustrates a format of RMD 400 accordng to an embodment of the present invention. Since the RMD 400 is recorded on the single-recordng-layer-write-once information storage medum 100 or the cbuble-recordng-layer-write-once information storage medum 200, the data recordng and/or reproducing apparatus can record and reproduce data in a sequential recordng mode and/or a rancbm recordng mode. The single-recordng-layer-write-once information storage medum 100 or the cbuble- recordng-layer-write-once information storage medum 200 can be dvided into a plurality of borders before being used.
[47] Referring to FIG. 4, the RMD 400 includes an RMD header 410, a list of closed border entries 430, and a recordng state of last open border 450. The RMD header 410 includes an RMD identifier 411, a last border entry 413, and a total number of borders 415. The RMD identifier 411 is for identifying each RMD recorded in the RMD area.
[48] The last border entry 413 is information regardng the position and state of a last border out of a plurality of borders in the data area of the single- recordng-layer-write-once information storage medum 100 or the cbuble- recordng-layer-write-once information storage medum 200. The total number of borders 415 indcates a total number of borders in the single- recordng-layer-write-once information storage medum 100 or the cbuble- recordng-layer-write-once information storage medum 200.
[49] In the present embodment, the single-recordng-layer-write-once information storage medum 100 or the cbuble-recordng-layer-write-once information storage medum 200 is used in units of borders accordng to the drection in which the user area is used. The last border denotes a border used last among a plurality of borders. Thus, only the last border can be an open border, and the borders before the last border are closed borders.
[50] FIG. 5 illustrates the structure of the last border entry 413 illustrated in FIG. 4 accordng to an embodment of the present invention. The last border entry 413 includes state information indcating a state of a last border, a starting address of the last border, and a last recorded address (LRA). The starting address denotes an address of a physical starting sector of the last border. The LRA denotes an address of a physical sector of a position where data is last recorded in the last border.
[51] The state information indcates whether the last border is empty, being used in the rancbm recordng mode or in the sequential recordng mode, or closed. Each closed border entry in the list of closed border entries 430 includes a starting address of each closed border and an LRA of a position where data is last recorded in each closed border. The closed border entries cb not include state information of the closed borders unlike the last border entry 413. The reason why only the last border entry 413 includes the state information of a last border is that data is not recorded in the closed borders and that the closed borders are used only for reproduction. Thus, it cbes not matter in what recordng mode that the data was recorded in the closed borders. Further, if the last border is closed, it denotes that the single- recordng-layer-write-once information storage medum 100 or the cbuble- recordng-layer-write-once information storage medum 200 is completed and will be used for only reproduction.
[52] The recordng state of last open border 450 indcates the recordng state of a last open border. Different recordng state information is recorded in the recordng state of last open border 450 dependng on whether data was recorded in the sequential recordng mode or the rancbm recordng mode.
[53] FIG. 6 illustrates a 'list of closed border entries' 430 and a 'recordng state of last open border' 450 when data was recorded in a last open border in the rancbm recordng mode accordng to an embodment of the present invention. Referring to FTG. 6, the 'list of closed border entries' includes border entries #1 through #k (k is a variable equal to or greater than 1), which are entries of k closed borders used before a last border.
[54] When data is recorded in the last open border in the rancbm recordng mode, the 'recordng state of last open border' 450 includes a bitmap to indcate the recordng state of the last open border. A bitmap is formed by allocating dfferent bit values to a data-recorded cluster and a data-unrecorded cluster. A cluster is a unit of recordng and reproducing data on/from a write-once information storage medum.
[55] FIG. 7 illustrates a 'list of closed border entries' 430' and a 'recordng state of last open border' 450' when data was recorded in a last open border in the sequential recordng mode accordng to an embodment of the present invention. Referring to FIG. 7, the 'list of closed border entries' 430' includes (k is a variable equal to or greater than 1) #1 through #k border entries, which are entries of k closed borders used before a last border.
[56] When data is recorded in the last open border in the sequential recordng mode, the 'recordng state of last open border' 450' includes a list of recordng zone (R-zone) entries, which are entries of R-zones included in the last open border, to indcate the recordng state of the last open border. In the present embodment, before recordng data in the last open border in the sequential recordng mode, the last open border is dvided into at least one R-zone. Then, the data is recorded in the sequential recordng mode in the last open border in units of R-zones.
[57] Referring back to FIG. 7, the 'recordng state of last open border' 450' includes R- zone entries #(k+l) through #(k+n) (k and n are variables equal to or greater than 1). Each of the R-zone entries #(k+l) through #(k+n) includes a starting address and an LRA of each R-zone.
[58] If data was recorded in the last open border in the sequential recordng mode, the total number of borders 415 in the RMD 400 illustrated in FIG. 4 indcates a starting R-zone entry number of the last border.
[59] The total number of borders 415 can be used to determine a position where the bitmap, which indcates the recordng state of the last open border, starts in the RMD 400 when the state information of the last border in the last border entry 413 indcates that the last border is being used in the rancbm recordng mode. In other words, a starting position of the bitmap of the last open border in the RMD 400 can be calculated using the following equation:
[60] Equation 1 [61] 1. Starting position of bitmap of the last border = (length of RMD occupied by one border entry) * ('total number of borders'- 1)) + (starting position of 'list of closed border entries') [62] When the state information of the last border entry 413 indcates that the last border is being used in the sequential recordng mode, the total number of borders 415 can be used to calculate a position where the first R-zone entry in the 'list of R-zone entries of last open border,' which indcates the recordng state of a last open border, starts in the RMD 400. The position where the first R-zone entry in the 'list of R-zone entries of last open border' starts in the RMD 400 can be calculated using the following equation:
[63] Equation 2
[64] 1. Starting position of the first R-zone of the last ^)pen) border = (length of RMD occupied by one border entry) * ('total number of borders'- 1)) + (starting position of 'list of closed border entries')
[65] As described above, each border has a border entry includng a starting address of the border and an LRA of the border. Therefore, the data recordng and/or reproducing apparatus can quickly obtain information regardng the latest file system from the single-recordng-layer-write-once information storage medum 100 or the cbuble- recordng-layer-write-once information storage medum 200.
[66] For example, in the case of an universal dsk format (UDF) file system, an anchor point of a closed border must be at least two out of: 1) logical sector number 256, 2) last logical sector number-256, or 3) a last logical sector number. Since it is possible to know the starting address and the LRA of each border in the case of the UDF file system, the data recordng and/or reproducing apparatus can quickly obtain information regardng where a file system was recorded .
[67] In addtion, when closing a last border in which data was recorded in the rancbm recordng mode, bitmaps of borders that have already been closed are not included in the RMD 400. Instead, a bitmap of a newly created open border is included in the RMD 400, thereby securing the maximum number of useable borders. If the bitmaps of the closed borders are included in the RMD 400, bitmap data to be included in the RMD 400 increases. In this case, if the size of the RMD 400 is fixed, recordng space available for border entries #1 through #k will be reduced.
[68] Hence, in the present embodment, the bitmaps of the closed borders are not included in the RMD 400, thereby increasing the space available for border entries #1 through #k. Accordngly, more borders can be allotted to the single- recordng-layer-write-once information storage medum 100 or the cbuble- recordng-layer-write-once information storage medum 200.
[69] In addtion, when closing a last border in which data was recorded in the sequential recordng mode, all the R-zones in the last border are merged into one R-zone, which is represented by an R-zone entry (border entry). Thus, an open border can be dvided into as many R-zones as necessary to maximize the efficiency of use of the write-once information storage medum.
[70] For example, when the size of the RMD 400 is fixed and the number of R-zone entries that can be included in one RMD 400 is 7,000, if 5,000 R-zones are used in the first border and thus 5,000 R-zone entries are included in the RMD, the second border can use only 2,000 R-zones. However, accordng to aspects of the present invention, when closing a border, if all the R-zones included in the border are merged into one R- zone represented by one R-zone (=border) entry, the second border can use 6,999 R- zones, thereby enhancing efficiency of using the single-recordng-layer-write-once information storage medum 100 or the cbuble-recordng-layer-write-once information storage medum 200.
[71] FIGS. 8 A and 8B illustrate a data area where a last border, in which data was recorded in the rancbm recordng mode, is closed and where a new last border is created accordng to an embodment of the present invention.
[72] FIG. 8 A illustrates k closed borders and the (k+1) border that is a last open border of the user area. Data was recorded from a first position 501 to a last position 503 in the (k+1) border in the rancbm recordng mode. The bitmap of the (k+1) border in RMD correspondng to the data area is also illustrated in FIG. 8A. The bitmap was formed by allotting T to clusters where data was recorded and '0' to clusters where data was not recorded.
[73] FIG. 8B illustrates the data area where the (k+1) border of FTG. 8 A is closed and the (k+2) border, which is a new last border, is open within the user area. The scope of the (k+1) border extends from the first position 501 to the last position 503. The bitmap of the (k+2) border in the RMD correspondng to the data area is also illustrated in FTG. 8B. Since no data has been recorded in the (k+2) border, bit values in the bitmap are '0.'
[74] FTGS. 9A and 9B illustrate a data area where a last border, in which data was recorded in the sequential recordng mode, is closed and where a new last border is created accordng to an embodment of the present invention. FTG. 9A illustrates k closed borders 510 through 550 and the (k+1) border 570, which is a last open border. The (k+1) border 570 includes (k+1) through (k+n) R-zones 571 through 575. Data was recorded from a first position to a second position in the (k+n) R-zone in the sequential recordng mode. Thus, the second position would correspond with the LRA of the last border entry.
[75] FTG. 9B illustrates the data area where the (k+1)* border 570 of FTG. 9A is closed and the (k+2) border 590, which is a new last border, is open. The (k+1) R-zone 571 through a last position of the (k+n) R-zone 575, where data was recorded, are merged into one R-zone to become the (k+1) border. In other words, the starting position of the (k+1) R-zone 571 through the last position of the (k+n) R-zone 575 where data was recorded becomes the (k+1) border that is closed.
[76] FTG. 10 illustrates RMD 620 reflecting the recordng management state of a write- once information storage medum after, as illustrated in FTGS. 8B and 915, closing the (k+1) border, which is a previous last open border accordng to an embodment of the present invention. Referring to the RMD 620 of FTG. 10, the write-once information storage medum includes (k+2) borders, and a last border entry includes the state information, the starting address, and the LRA of the (k+2) border, which is a new last open border.
[77] As illustrated in FTGS. 8B and 915, if the (k+1) border, which is the previous last open border, is closed and the (k+2) border, which is the new last open border, is created, the data recordng and/or reproducing apparatus updates previous RMD, creates the RMD 620 illustrated in FTG. 10, and records the RMD 620 in the appropriate RMD area. Since the last open border has become the (k+2) border, the RMD 620 will be dfferent from the previous RMD. As such, the last border entry will be changed, the 'total number of borders' will be increased by one, and the (k+1) border entry will be added to the 'list of closed border entries.'
[78] The 'recordng state of last open border' in the RMD 620 of FTG. 10 indcates the state of being empty. In other words, no data has been recorded in the (k+2) border, which is a new last open border. If the write-once information storage medum in this state is loaded into the data recordng and/or reproducing apparatus, the data recordng and/or reproducing apparatus informs a host of the state of a last open border read from the 'recordng state of last open border' of last recorded RMD on the write-once information storage medum. Then, the host determines in which recordng mode data will be recorded in the last open border (k+2) and issues a recordng command. [79] If the last border is closed to complete the write-once information storage medum, there is no need to create a new last border in the data area. As described above, if the write-once information storage medum is complete, final management information of the write-once information storage medum, such as the TDFL and the TDDS, is recorded in the FDMA. Then, the data recordng and/or reproducing apparatus can access the FDMA and determine whether the write-once information storage medum is complete. Alternatively, last recorded RMD may be obtained, and, based on the state information of a last border entry read from the last recorded RMD, it may be dete rmined whether the write-once information storage medum is complete.
[80] FTG. 11 is a block dagram of a data recordng and/or reproducing apparatus accordng to an embodment of the present invention. Referring to FTG. 11, the data recordng and/or reproducing apparatus includes a recordng/readng unit 1, a controlling unit 2, and a memory 3. A write-once information storage medum 10 is either the single-recordng-layer-write-once information storage medum 100 or the cbuble-recordng-layer-write-once information storage medum 200 of FTG. 1 or 2, respectively, accordng to an embodment of the present invention.
[81] The controlling unit 2 controls the recordng/readng unit 1 to record and/or reproduce data on/from the write-once information storage medum 10. After recordng the data, the recordng/readng unit 1 reads the recorded data to confirm the existence of the recorded data. The controlling unit 2 controls the entire operation of the data recordng and/or reproducing apparatus.
[82] After the write-once information storage medum 10 is loaded into the data recordng and/or reproducing apparatus, the data recordng and/or reproducing apparatus reads information, such as a last updated RMD, a TDDS, and a TDFL, from the write-once information storage medum 10 and stores the information in the memory 3. Thereafter, if user data is recorded in a last open border of the write-once information storage medum 10 in the sequential recordng mode or the rancbm recordng mode and RMD needs to be updated, the controlling unit 2 creates updated RMD with reference to the RMD, which is stored in the memory 3 and read from the write-once information storage medum 10.
[83] A method of recordng data on the write-once information storage medum 10 by the data recordng and/or reproducing apparatus of FTG. 10 accordng to an embodment of the present invention will now be described. FTG. 12 is a flowchart illustrating a method of recordng data on the write-once information storage medum 10 accordng to an embodment of the present invention. [84] Although not shown in the drawings, when the write-once information storage medum 10 is loaded into the data recordng and/or reproducing apparatus, the data recordng and/or reproducing apparatus is initialized to use the write-once information storage medum 10. In other words, the controlling unit 2 reads basic control information needed to use the write-once information storage medum 10 and the last updated TDFL, TDDS, and RMD from the lead-in and/or lead-out area and stores the basic control information and the last updated TDFL, TDDS, and RMD in the memory 3.
[85] The controlling unit 2 obtains the state information, the starting address and the LRA of the last border from the last updated RMD. The controlling unit 2 determines where a last updated file system was recorded based on the starting address and the LRA of the last border, reads the last updated file system, and stores the last updated file system in the memory 3. In addtion, the controlling unit 2 obtains the 'recordng state of last open border' of the RMD and informs the host (not shown) of the state of a last open border.
[86] After the data recordng and/or reproducing apparatus is initialized to use the write- once information storage medum 10, if the data recordng and/or reproducing apparatus receives a command to record user data on the write-once information storage medum 10 and the user data from the host (S810), the controlling unit 2 records the user data in the last open border of the write-once information storage medum 10 in the sequential recordng mode or the rancbm recordng mode (S830).
[87] The host determines a data recordng mode based on information regardng the recordng state of the last open border received from the controlling unit 2. In other words, if the 'recordng state of last open border' indcates that no data has been recorded in the last open border, the host determines in which recordng mode data will be recorded in the last open border and transmits a recordng command to the controlling unit 2. However, if the 'recordng state of last open border' indcates that data has already been recorded in the last open border in the rancbm recordng mode or the sequential recordng mode, the host commands the controlling unit 2 to record new data in a matching recordng mode.
[88] The data recordng and/or reproducing apparatus creates updated RMD with reference to the RMD, which is stored in the memory 3 at predetermined timing and read from the write-once information storage medum 10, and records the updated RMD in the RMD area (S850). The structure of the updated RMD is identical to the RMD 400 of FTG. 4. As described above, the contents of the 'recordng state of last open border' included in the updated RMD dffer accordng to whether data was recorded in the rancbm recordng mode or the sequential recordng mode in the last open border.
[89] FTG. 13 is a flowchart illustrating S830 of FTG. 12 accordng to an embodment of the present invention. Specifically, FTG. 13 illustrates a method of closing a last open border after recordng data in the last open border in the sequential recordng mode.
[90] First, user data is recorded in the last open border in units of R-zones (S831). When the last open border is closed at the command of a user or the host, the controlling unit 2 determines the extent from a starting position to a last position of the last open border where the user data was recorded as a last closed border (S833).
[91] The controlling unit 2 merges at least one R-zone included in the last closed border into one R-zone (S835). S833 and S835 may be better understood with reference to FIGS. 9A and 9B.
[92] As described above, when closing the last open border, the controlling unit 2 creates updated RMD and records the updated RMD in the RMD area of the write- once information storage medum 10. The time when the RMD will be updated can be determined in dverse ways. For example, the RMD may be updated at predetermined intervals or after the completion of a round of recordng operation. Alternatively, the RMD may be updated if a predetermined amount of user data is recorded on the write- once information storage medum 10.
[93] A method of reproducing RMD recorded on the write-once information storage medum 10 accordng to an embodment of the present invention will now be described. A data reproducing apparatus accordng to the present embodment uses the data recordng and/or reproducing apparatus of FTG. 10. However, since the data reproducing apparatus is for reproduction only, the recordng/readng unit 1 functions as a readng unit only, and the controlling unit 2 performs only readng-related functions.
[94] FTG. 14 is a flowchart illustrating a method of reproducing data accordng to an embodment of the present invention. When the write-once information storage medum 10 is loaded into the data reproducing apparatus (S910), the data reproducing apparatus reads a last updated RMD from the write-once information storage medum 10 and stores the last updated RMD in the memory 3 (S930).
[95] The last updated RMD from the write-once information storage medum 10 is read when the data reproducing apparatus is initialized to use the write-once information storage medum 10. In other words, the controlling unit 2 reads basic control information needed to use the write-once information storage medum 10 and the last updated TDFL, TDDS stored in an FDMA, and RMD from the lead-in and/or lead-out area and stores the basic control information and the last updated TDFL, TDDS, and RMD in the memory 3.
[96] The controlling unit 2 obtains the state information, starting address, and the LRA of the last border from the last updated RMD structured like the RMD 400 of FTG. 4 (S950). The controlling unit 2 determines where a last updated file system was recorded based on the starting address and the LRA of the last border (S970). For example, in the case of an UDF file system, an anchor point must be at least two out of: 1) a logical sector number 256, 2) a last logical sector number-256, or 3) a last logical sector number in the last border. Therefore, the data reproducing apparatus can determine where the last updated file system was recorded based on the starting address and the LRA of the last border .
[97] If the last border is open and no data has been recorded in the last border, the last updated file system may not be recorded in the last border. In this case, the controlling unit 2 obtains the starting address and the LRA of a last closed border from the list of closed border entries 430 in the RMD 400. Then, the controlling unit 2 can determine where the last updated file system was recorded based on the starting address and the LRA of the last closed border.
[98] The controlling unit 2 reads and reproduces the last updated file system from the write-once information storage medum 10 (S990). By reproducing the last updated file system, the controlling unit 2 interprets the read file system and recognizes the type of user data recorded on the write-once information storage medum 10, the location where the user data was recorded, and a drectory structure.
[99] Although not shown in the drawings, the host determines a data reproducing mode based on information regardng the recordng state of the last open border received from the controlling unit 2. In other words, the host determines in which recordng mode data was recorded in the last open border based on the 'recordng state of last open border' and commands the controlling unit 2 to reproduce the data accordng to the determined recordng mode.
[100] The present invention can also be implemented as computer-readable code on a computer-readable recordng medum. The computer-readable recordng medum is any data storage device that can store data which can be thereafter read by a computer system. Examples of the computer-readable recordng medum include read-only memory (ROM), rancbm-access memory (RAM), CD-ROMs, magnetic tapes, floppy dsks, optical data storage devices, and carrier waves (such as data transmission through the Internet).
[101] The computer-readable recordng medum can also be dstributed over network- coupled computer systems so that the computer-readable code is stored and executed in a dstributed fashion.
[102] Although a few embodments of the present invention have been shown and described, it would be appreciated by those skilled in the art that changes may be made in this embodment without departing from the principles and spirit of the invention, the scope of which is defined in the claims and their equivalents.

Claims

Claims
[1] 1. A write-once information storage medum, comprising: at least one data area used to record user data; and at least one recordng management data area used to record recordng management data needed to use the at least one data area by dvidng the at least one data area into a plurality of borders when recordng the user data in a sequential recordng mode and/or a rancbm recordng mode in the at least one data area.
[2] 2. The medum of claim 1, wherein the recordng management data comprises a last border entry includng a starting address and a last recorded address of a last border, wherein the last border entry includes state information indcating whether the last border is a closed border for reproduction and whether the last border will be used in the sequential recordng mode and/or the rancbm recordng mode.
[3] 3. The medum of claim 2, wherein the recordng management data comprises a list of closed border entries includng a starting address and a last recorded address of each closed border for reproduction.
[4] 4. The medum of claim 2, wherein the last border entry comprises a list of at least one recordng zone entry of the last border, each recordng zone entry includng a starting address and a last recorded address of at least one recordng zone included in the last border when the user data was recorded in the last border in units of recordng zones in the sequential recordng mode.
[5] 5. The medum of claim 2, wherein the last border entry comprises a bitmap indcating a recordng state of the last border when the user data was recorded in the last border in the rancbm recordng mode.
[6] 6. The medum of claim 2, wherein the state information indcates that the last border is closed when the write-once information storage medum is complete.
[7] 7. A method of recordng data on a write-once information storage medum comprising a data area dvided into a plurality of closed borders for reproduction and a last open border in which new data is recordable, the method comprising: recordng user data in a sequential recordng mode or a rancbm recordng mode in the last open border; and creating and recordng recordng management data includng a last border entry, which contains a starting address and a last recorded address of the last open border and state information indcating whether the last border is a closed border for reproduction and whether the last open border will be used in the sequential recordng mode or the rancbm recordng mode.
[8] 8. The method of claim 7, wherein the last border entry comprises a list of at least one recordng zone entry of the last border, each recordng zone entry includng a starting address and a last recorded address of at least one recordng zone included in the last border, when the user data was recorded in the last border in units of recordng zones and in the sequential recordng mode.
[9] 9. The method of claim 7, wherein the last border entry comprises a bitmap indcating a recordng state of the last border when the user data is recorded in the last border in the rancbm recordng mode.
[10] 10. The method of claim 7, wherein the last border entry comprises the state information indcating whether the last border is closed or open.
[11] 11. The method of claim 7, wherein the recordng management data comprises a list of closed border entries includng a starting address and a last recorded address of each of the plurality of closed borders.
[12] 12. The method of claim 7, wherein the state information indcates that the last border is closed when the write-once information storage medum is complete.
[13] 13. The method of claim 7, wherein the recordng of the user data comprises determining an extent from a starting position to a last position of the last border where the user data is recorded as a last closed border and merging at least one recordng zone included in the last closed border into one recordng zone, and the creating and recordng of the recordng management data comprises creating and recordng the recordng management data includng a list of closed border entries, which contain the starting address and the last recorded address of the last closed border, when recordng the user data in the last border in the sequential recordng mode and in units of recordng zones.
[14] 14. A data recordng apparatus recordng data on a write-once information storage medum comprising a data area dvided into a plurality of closed borders for reproduction and a last open border in which new data is recordable, the apparatus comprising: a recordng/readng unit recordng data on the write-once information storage medum and readng the recorded data; and a controlling unit controlling the recordng/readng unit to record user data in a sequential recordng mode or a rancbm recordng mode, creating recordng management data includng a last border entry, which contains a starting address and a last recorded address of the last border and state information indcating whether the last border is a closed border for reproduction and whether the last border will be used in the sequential recordng mode or the rancbm recordng mode, and controlling the recordng/readng unit to record the recordng management data on the write-once information storage medum.
[15] 15. The apparatus of claim 14, wherein the last border entry comprises a list of at least one recordng zone entry of the last border, each recordng zone entry includng a starting address and a last recorded address of at least one recordng zone included in the last border, when the user data was recorded in the last border in units of recordng zones and in the sequential recordng mode.
[16] 16. The apparatus of claim 14, wherein the last border entry comprises a bitmap indcating a recordng state of the last border when the user data is recorded in the last border in the rancbm recordng mode.
[17] 17. The apparatus of claim 14, wherein the last border entry comprises the state information indcating whether the last border is closed or open.
[18] 18. The apparatus of claim 14, wherein the recordng management data comprises a list of closed border entries includng a starting address and a last recorded address of each of the plurality of closed borders.
[19] 19. The apparatus of claim 14, wherein the state information indcates that the last border is closed when the write-once information storage medum is complete.
[20] 20. The apparatus of claim 14, wherein when recordng the user data in the last border in the sequential recordng mode and in units of recordng zones, the controlling unit determines an extent from a starting position to a last position of the last border where the user data is recorded as a last closed border, merges at least one recordng zone included in the last closed border into one recordng zone, and creates recordng management data includng a list of closed border entries, which contain a starting address and a last recorded address of the last closed border.
[21] 21. The apparatus of claim 20, wherein the controlling unit creates the recordng management data includng the last closed border at predetermined intervals.
[22] 22. The apparatus of claim 20, wherein the controlling unit creates the recordng management data includng the last closed border after a threshold amount of the user data is recorded on the information storage medum.
[23] 23. A method of reproducing data recorded on a write-once information storage medum comprising a data area dvided into a plurality of borders, the method comprising: readng last recorded recordng management data from the write-once information storage medum; obtaining a starting address and a last recorded address of a last border from the recordng management data; determining where a last updated file system was recorded based on the starting address and the last recorded address of the last border; and readng and reproducing the last updated file system.
[24] 24. The method of claim 23, wherein the recordng management data includes a last border entry comprising state information indcating whether the last border is a closed border for reproduction or an open border in which new data is recordable.
[25] 25. The method of claim 23, wherein the recordng management data comprises a list of closed border entries includng a starting address and a last recorded addresss of each closed border for reproduction.
[26] 26. The method of claim 23, wherein the recordng management data comprises a list of at least one recordng zone entry of the last border, each recordng zone entry includng a starting address and a last recorded address of at least one recordng zone included in the last border.
[27] 27. The method of claim 25, wherein the determining where the last updated file system was recorded comprises: obtaining from the list of closed border entries the starting address and the last recorded address of a last closed border if no data has been recorded in the last border; and determining where the last update file system was recorded based on the starting address and the last recorded address of the last closed border.
[28] 28. The method of claim 24, further comprising reproducing the data recorded in the last border in a sequential recordng mode or a rancbm recordng mode based on the state information indcating whether the data was recorded in the sequential recordng mode or the rancbm recodng mode.
[29] 29. A data reproducing apparatus reproducing data recorded on a write-once information storage medum comprising a data area dvided into a plurality of borders, the apparatus comprising: a readng unit readng data recorded on the write-once information storage medum; and a controlling unit controlling the readng unit to read last recorded recordng management data from the write-once information storage medum, determining where a last updated file system was recorded based on a starting address and a last recorded address of a last border included in the recordng management data, and controlling the readng unit to read the last updated file system from the write-once information storage medum.
[30] 30. The apparatus of claim 29, wherein the recordng management data comprises a last border entry comprising state information indcating whether the last border is a closed border for reproduction or an open border in which new data is recordable.
[31] 31. The apparatus of claim 29, wherein the recordng management data comprises a list of closed border entries includng a starting address and a last recorded address of each closed border for reproduction.
[32] 32. The apparatus of claim 29, wherein the recordng management data comprises a list of at least one recordng zone entry of the last border, each recordng zone entry includng a starting address and a last recorded address of at least one recordng zone included in the last border.
[33] 33. The apparatus of claim 31, wherein if no data has been recorded in the last border, the controlling unit obtains the starting address and the last recorded address of a last closed border, in which the data was last recorded, from the list of closed border entries and, based on the starting address and the last recorded address of the last closed border, determines where a last update file system was recorded.
[34] 34. The apparatus of claim 29, wherein the recordng management data comprises state information indcating whether the data was recorded in a sequential recordng mode or a rancbm recodng mode, and the controlling unit determines whether the data was in the sequential recordng mode or the rancbm recordng mode based on the state information.
[35] 35. A computer-readable recordng medum having stored thereon a program for executing a method of recordng data on a write-once information storage medum comprising a data area dvided into a plurality of closed borders for reproduction and a last open border in which new data is recordable, the method comprising: recordng user data in a sequential recordng mode or a rancbm recordng mode in the last border; and creating and recordng recordng management data includng a last border entry, which contains a starting address and a last recorded address of the last border and state information indcating whether the last border is a closed border for reproduction and whether the last border will be used in the sequential recordng mode or the rancbm recordng mode.
[36] 36. A computer-readable recordng medum having stored thereon a program for executing a method of reproducing data recorded on a write-once information storage medum comprising a data area dvided into a plurality of borders, the method comprising: readng last recorded recordng management data from the write-once information storage medum; obtaining a starting address and a last recorded address of a last border from the recordng management data; determining where a last updated file system was recorded based on the starting address and the last recorded address of the last border; and readng and reproducing the last updated file system.
[37] 37. A write once information storage medum for use with a recordng and or reproducing apparatus, comprising: a plurality of borders each having an open state in which new data is recordable or a closed state in which new data is not recordable; recordng management data which comprises information used by the reproducing apparatus to control the recordng of the data in the plurality of borders, such that only a last one of the plurality of borders is open or closed and the remaining plurality of borders are closed and a format of the last one of the plurality of borders depends on a type of recordng mode used to record the new data.
[38] 38. The information storage medum of claim 35, wherein the type of recordng mode is a sequential recordng mode.
[39] 39. The information storage medum of claim 36, wherein the format of the last one of the plurality of borders comprises a plurality of recordng zones used to record the new data and the recordng management data comprises a starting address and last recorded address of each of the plurality of recordng zones, and a border starting address and a border last recorded address for each of the plurality of borders except the last one.
[40] 40. The information storage medum of claim 35, wherein the type of recordng mode is a rancbm recordng mode.
[41] 41. The information storage medum of claim 40, wherein the format of the last one of the plurality of borders comprises a bitmap indcating a recordng state of clusters of the last one of the plurality of borders when in the open state.
[42] 42. The information storage medum of claim 41, wherein the recordng management data of the remaining plurality of borders includes only a starting address and a last recorded address of each of the remaining plurality of borders.
[43] 43. The information storage medum of claim 41, wherein the recordng management data of the remaining plurality of borders which are closed cbes not include bitmaps of each of the remaining plurality of borders thus increasing a storage amount available for the bitmap of the last one of the plurality of borders.
[44] 44. The information storage medum of claim 37, wherein the recordng management data of the last one of the plurality of borders includes state information indcating whether the last one of the plurality of borders is closed or open, a starting address of the last one of the plurality of borders, a last recorded address of the last one of the plurality of borders, and the recordng management data of the remaining plurality of borders includes a starting address and a last recorded address of each of the remaining plurality of borders.
[45] 45. The information storage medum of claim 44, wherein the state information further indcates whether the last one of the plurality of borders is open and empty and the type of the recordng mode.
Figure imgf000026_0001
PCT/KR2004/003482 2004-01-05 2004-12-28 Method and apparatus for recording and/or reproducing data and write-once information storage medium WO2005066954A1 (en)

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