JP3745284B2 - RECORDING CONDITION DETERMINING METHOD FOR OPTICAL DISK DEVICE, OPTICAL DISC DEVICE, CONTROL PROGRAM, AND COMPUTER-READABLE RECORDING MEDIUM CONTAINING THE CONTROL PROGRAM - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an optical disc apparatus for recording and reproducing information on an optical disc. Specifically, the present invention relates to a recording condition determination method in an optical disc apparatus capable of accurately setting appropriate recording conditions in a short time, an optical disc apparatus, a control program, and a computer-readable recording medium on which the control program is recorded. It is.
[0002]
[Prior art]
In recent years, research on increasing the recording density of optical disks including magneto-optical disks has been actively conducted. In order to increase the recording density of the optical disc, the optical disc apparatus needs to perform uniform recording on the optical disc, that is, the size of the recording mark recorded by irradiating the optical beam with the optical beam needs to be almost constant. There is. For this reason, it is desirable for the optical disk apparatus to make recording conditions such as the recording light amount of the light beam and the magnetic field strength applied to the magneto-optical disk substantially constant.
[0003]
However, since individual optical discs have different recording sensitivities due to manufacturing variations, the optical disc apparatus has different optimum recording conditions for each optical disc. Further, the recording sensitivity changes depending on the environmental temperature.
[0004]
For this reason, the optical disk apparatus needs to check the optimum recording condition for each loaded optical disk or for each change in environmental temperature. Actually, the optimum recording condition is acquired by performing trial writing in a test area provided in the recording area on the optical disc. That is, in the test area, information is recorded under various recording conditions, and the recorded information is reproduced and compared to obtain the optimum recording conditions.
[0005]
At this time, if information is recorded by changing the recording condition for each round of the optical disc, it takes time to obtain the optimum recording condition. Therefore, information is recorded under a plurality of recording conditions within one round of the optical disc. Has been done.
[0006]
[Problems to be solved by the invention]
However, in the optical disc, there may be uneven recording sensitivity in the circumferential direction due to tilt variation in the circumferential direction, variation on the raw film of the recording film, and the like. In this case, if information is recorded under a plurality of recording conditions within one round of the optical disc, there arises a problem that the optimum recording conditions cannot be obtained with high accuracy.
[0007]
As a solution to this problem, there is an optical disk recording / reproducing apparatus disclosed in an open patent publication "Japanese Patent Laid-Open No. 11-273073". In this apparatus, the optimum recording power in the area where the recording bit is formed is obtained based on the bit formation information of the recording bit formed with different recording power, and this is similarly performed at a plurality of locations in the circumferential direction of the optical disk. The optimum recording power at each location is obtained, and the average value of these optimum recording powers is set as the optimum recording power of the optical disc.
[0008]
Thereby, the error in the optimum recording power due to the uneven recording sensitivity in the circumferential direction of the optical disc can be reduced, and the influence on the recording characteristics due to the uneven recording sensitivity can be improved.
[0009]
In addition, there is an optical disc drive apparatus disclosed in the published patent publication "Japanese Patent Laid-Open No. 2001-60320" as another means for solving the above problems. In this apparatus, a predetermined test area is divided into a plurality of areas, recording power is changed and recorded in each area, an average value of a plurality of detection amounts obtained from the reproduction signals of the plurality of areas is calculated, and the calculated average value The optimum recording power is set based on
[0010]
Since this apparatus averages a plurality of detection amounts obtained from regions of different angular positions on the optical disc, it is possible to reduce the influence of periodic fluctuations of the optical disc.
[0011]
However, in the apparatuses described in the above two publications, if the recording sensitivity varies in the recording area by changing the recording power, an error due to the uneven recording sensitivity remains in the obtained optimum recording power. .
[0012]
The present invention has been made to solve the above-described problems, and an object of the present invention is to set appropriate recording conditions accurately in a short time even when uneven recording sensitivity occurs in the circumferential direction of the optical disk. An optical information recording / reproducing method, an optical information recording / reproducing apparatus, a control program for the apparatus, and a computer-readable recording medium on which the control program is recorded.
[0013]
[Means for Solving the Problems]
In order to solve the above problems, a recording condition determination method in an optical disc apparatus according to the present invention is a method for determining a recording condition in an optical disc apparatus that records and reproduces information on an optical disc, and A first measurement step for measuring the detection amount detected by performing reproduction from a plurality of small regions in the direction recording region for each small region, and a combination creation step for creating a combination of the small regions having different detection amounts A second measurement step of recording for each of the combinations by recording on a small area in the combination under the same recording conditions and measuring a detection amount detected by reproducing the recording for each combination. And a recording condition determining step for determining a recording condition based on the detected amount measured in step (b).
[0014]
Here, the detection amount means a value representing the quality of the reproduction signal. For example, the amplitude of the reproduction signal indicating the strength of the reproduction signal, BER (bit error rate), jitter, and the metric is minimized in the maximum likelihood decoding method. And the like based on the likelihood difference of paths.
[0015]
In the above method, first, the detection amount detected by performing reproduction from a plurality of small areas in the recording area in the circumferential direction of the optical disc is measured for each small area. Next, a combination of the small regions having different detection amounts is created. At this time, since each of the small areas included in a certain combination has a different detection amount, there is a high possibility that the recording sensitivity is different.
[0016]
Next, recording is performed on the small areas in the combination under the same recording conditions, and the detection amount detected by reproducing the recording is measured for each combination. That is, recording is performed under the same recording conditions in each of the small areas included in a certain combination. At this time, it is desirable to perform recording under different recording conditions for each combination.
[0017]
Therefore, since recording is performed under the same recording conditions for a small area with a high possibility of different recording sensitivities, the sum or average value of detection amounts detected by reproduction from the small area is an error due to uneven recording sensitivity. There will be less.
[0018]
Then, since the recording condition is determined based on the detected amount measured for each combination, the determined recording condition has a small error due to uneven recording sensitivity.
[0019]
Accordingly, since the method of the present invention can determine the recording condition by changing the recording condition for a plurality of small areas and measuring the detection amount, the recording amount can be recorded in the plurality of small areas under the same recording condition. The processing time can be shortened as compared with the conventional method of determining the recording condition by measuring the above and changing the recording condition and repeating this.
[0020]
In addition, since the recording conditions are determined by recording under the same recording conditions and measuring the detection amount for a small area having a high possibility of different recording sensitivities, the recording sensitivity is determined for the small areas having a different recording sensitivity. It is possible to determine a recording condition with less error due to uneven recording sensitivity, as compared with the two methods described in the above publications, in which the recording condition is determined by recording under different recording conditions and measuring the detection amount.
[0021]
Further, the recording condition determining method in the optical disc apparatus of the present invention is the above method, wherein the combination creating step includes a small area having a maximum detection amount and a small detection amount having a minimum detection amount among the plurality of small regions. It is a step that repeats creating a combination with a region and creating a similar combination for the remaining small regions.
[0022]
According to the above method, the small area having the maximum detection amount and the small area having the minimum detection amount are combined, and the remaining small areas are similarly combined. For this reason, it is considered that the sum or average value of the detection amounts of the small areas included in a certain combination is approximately the same as that of the other combinations, that is, errors due to uneven recording sensitivity are remarkably reduced.
[0023]
Therefore, in the above method, since the recording condition is determined based on the detected amount measured for each combination, the recording condition can be determined with high accuracy.
[0024]
Further, the recording condition determining method in the optical disc apparatus of the present invention is the above method, wherein the combination creating step classifies the plurality of small regions into a plurality of region groups according to the detection amount, And a selection step of creating a combination by selecting each of the small regions from different region groups.
[0025]
When creating the combination, it is desirable to select the small regions from a region group with a large detection amount and a region group with a small detection amount.
[0026]
In the above method, a plurality of small regions are classified into a plurality of region groups according to the detection amount, and combinations are created by selecting the small regions from different region groups. If the region groups are different, the detection amounts of the small regions included in each region group are also different. Therefore, each of the small regions included in a certain combination is likely to have different recording sensitivity.
[0027]
Therefore, according to the above method, as described above, it is possible to determine a recording condition with less error due to uneven recording sensitivity.
[0028]
The recording condition determination method for an optical disc apparatus according to the present invention is the above-described method, wherein the optical disc apparatus includes storage means for storing information, and the combination of the small areas is stored in the storage after the combination creation step. And further comprising a combination storage step for storing in the means, and when the combination is stored in the storage means, a second measurement step is performed based on the combination stored in the storage means. It is said.
[0029]
In the above method, since the combination of the small areas is stored in the storage means, for example, when an appropriate recording condition is re-determined due to a change in the environmental temperature of the optical disk loaded in the optical disk apparatus, the storage area is stored. The above combination stored in the means can be used, whereby the processing of the first measurement step can be omitted. Therefore, the method of the present invention can simplify the process up to the determination when re-determining an appropriate recording condition, and can further shorten the processing time until the determination.
[0030]
The recording condition determination method for an optical disc apparatus according to the present invention is the above-described method, wherein the optical disc apparatus includes storage means for storing information, and after the region classification step, a plurality of the small regions and a plurality of small regions are stored. In the case where it further includes a classification storage step of creating area classification information indicating a correspondence relationship with the area group and storing the area classification information in the storage means, and the selection step stores the area classification information in the storage means Is a step of creating a combination by selecting each of the small regions from the different region groups based on the region classification information stored in the storage means.
[0031]
In the above method, since the area classification information indicating the correspondence between the plurality of small areas and the plurality of area groups is created and stored in the storage means, when re-determining appropriate recording conditions, The region classification information stored in the storage unit can be used, and thus the first measurement step and the region classification step can be omitted. Therefore, the method of the present invention can simplify the process up to the determination when re-determining an appropriate recording condition, and can further shorten the processing time until the determination.
[0032]
In the recording condition determination method for the optical disc apparatus of the present invention, in the above method, the first measurement step performs recording on the plurality of small areas under predetermined recording conditions, and reproduces the recording. It is characterized by being a step.
[0033]
In the above method, since the detection amount is measured by reproducing information recorded under a predetermined recording condition, there is a very high possibility that the recording sensitivity is different between small areas having different detection amounts. .
[0034]
Therefore, according to the above method, since the recording condition is determined by recording under the same recording condition and measuring the detection amount in a small area where the possibility of different recording sensitivities is extremely high, the recording condition is accurately determined. Can be determined.
[0035]
Also, the recording condition determining method in the optical disc apparatus of the present invention is characterized in that, in the above method, the first measurement step is a step of reproducing from the preformat portion in each small area.
[0036]
Here, the preformat portion refers to a region of the recording region of the optical disc where a meandering side wall on one side or both sides of the track groove, a concavo-convex mark or the like is formed in advance. Usually, the reproduction signal from the preformat portion includes timing for reading / writing the optical disc, information specific to the optical disc, and the like. In addition, the reproduction signal from the preformat portion fluctuates due to the influence of a tilt change in the circumferential direction of the optical disc.
[0037]
According to the above method, since the first measurement step reproduces from the preformat portion in each small area, the detection amount can be measured without performing the recording process. Accordingly, it is possible to shorten the processing time until the recording condition is determined.
[0038]
The optical disc apparatus of the present invention is an optical disc apparatus comprising recording / reproducing means for recording and reproducing information on an optical disc, and control means for controlling the recording / reproducing means, wherein the control means comprises the recording / reproducing means. And the first measurement means for measuring the detected amount for each of the small areas by performing reproduction from a plurality of small areas in the recording area in the circumferential direction of the optical disc, This is detected by controlling the combination creating means for creating a combination of small areas and the recording / reproducing means, performing recording on the small areas in the combination under the same recording conditions, and reproducing the recording. A recording condition is determined based on a second measuring means for measuring the detected amount for each combination and the detected amount for each of the combinations measured by the second measuring means. It is characterized by comprising a recording condition determination means.
[0039]
In the above configuration, the first measuring unit controls the recording / reproducing unit to measure the detection amount detected by performing reproduction from the plurality of small regions for each small region. Further, the combination creating means creates a combination of the small regions having different detection amounts. Further, the second measuring means performs recording on the small area in the combination under the same recording conditions, and measures the detection amount detected by reproducing the recording for each combination.
[0040]
At this time, as described above, each of the small areas included in a certain combination is highly likely to have different recording sensitivities, and recording is performed under the same recording conditions. Note that it is desirable to perform recording under different recording conditions for each combination.
[0041]
Therefore, since recording is performed under the same recording conditions for a small area with a high possibility of different recording sensitivities, the sum or average value of detection amounts detected by reproduction from the small area is an error due to uneven recording sensitivity. The detection amount is small.
[0042]
Then, the recording condition determining means determines the recording condition based on the detection amount measured for each combination by the second measuring means. As a result, the determined recording condition has few errors due to uneven recording sensitivity.
[0043]
Therefore, the optical disc apparatus of the present invention can determine the recording condition by recording with different recording conditions and measuring the detection amount for a plurality of small areas. The recording conditions can be determined in a shorter time than a conventional apparatus that determines the recording conditions by measuring the amount, changing the recording conditions, and repeating this.
[0044]
In addition, since the recording conditions are determined by recording under the same recording conditions and measuring the detection amount for a small area with a high possibility of different recording sensitivities, It is possible to determine a recording condition with less error due to uneven recording sensitivity, as compared with the apparatuses described in the above two publications, in which the recording condition is determined by recording under different recording conditions and measuring the detected amount.
[0045]
Further, in the optical disk device according to the present invention, in the above configuration, the combination creating unit may combine a combination of a small area with the maximum detection amount and a small area with the minimum detection amount among the plurality of small areas. It is a means for repeating the creation and creation of similar combinations for the remaining small areas.
[0046]
According to the above configuration, the small area with the maximum detection amount and the small area with the minimum amount are combined, and the remaining small areas are combined in the same manner. For this reason, it is considered that the sum or average value of the detection amounts of the small areas included in a certain combination is approximately the same as that of the other combinations, that is, errors due to uneven recording sensitivity are remarkably reduced.
[0047]
Therefore, since the optical disk apparatus of the present invention determines the recording condition based on the detected amount measured for each combination, the recording condition can be determined with high accuracy.
[0048]
Further, in the optical disk device of the present invention having the above configuration, the combination creating unit classifies the plurality of small regions into a plurality of region groups according to the detected amount measured by the first measuring unit. Information creating means for creating area classification information indicating the correspondence between the plurality of small areas and the plurality of area groups, and the different area groups based on the area classification information created by the information creating means. And selecting means for selecting each of the small areas and creating a combination.
[0049]
It is preferable that the selection means creates a combination by selecting the small regions from a region group having a large detection amount and a region group having a small detection amount.
[0050]
In the above configuration, a plurality of the small regions are classified into a plurality of region groups according to the detection amount, and combinations are created by selecting the small regions from different region groups. If the region groups are different, the detection amounts of the small regions included in each region group are also different. Therefore, each of the small regions included in a certain combination is likely to have different recording sensitivity.
[0051]
Therefore, the optical disc apparatus of the present invention can determine a recording condition with less error due to uneven recording sensitivity as described above.
[0052]
The optical disc apparatus of the present invention further includes storage means for storing the combination created by the combination creation means in the above configuration, and the second measurement means is created by the combination creation means. Any one of the combination and the combination stored by the storage means is used.
[0053]
In the above configuration, since the storage unit stores the combination, the combination stored by the storage unit can be used when determining an appropriate recording condition again. Thereby, the recording condition can be determined again without using the first measuring means. Therefore, when the recording condition is re-determined, the optical disk apparatus of the present invention can shorten the time required until the determination.
[0054]
Further, the optical disc apparatus of the present invention, in the above configuration, further comprises recording control means for controlling the recording / reproducing means to record the combination created by the combination creating means on the optical disc. The second measuring means uses one of the combination created by the combination creating means and the combination recorded on the optical disc by the recording control means.
[0055]
According to said structure, the said combination is recorded on the said optical disk by the said recording control means. Therefore, for example, when the recording condition is re-determined by exchanging the optical disk loaded in the optical disk apparatus, the above-described combination recorded on the optical disk can be used. Thereby, the recording condition can be determined again without using the first measuring means. Therefore, the optical disk apparatus of the present invention can shorten the time required for the determination even when the recording condition is determined again by exchanging the optical disk.
[0056]
The optical disc apparatus according to the present invention further includes storage means for storing the area classification information in the configuration described above, and the selection means includes the area classification information created by the information creation means, and the storage Any one of the region classification information stored by the means is used.
[0057]
In the above configuration, since the storage means stores the area classification information, the area classification information can be used when determining appropriate recording conditions again. Thereby, the recording condition can be determined again without using the first measuring means and the information creating means. Therefore, when the recording condition is re-determined, the optical disk apparatus of the present invention can shorten the time required until the determination.
[0058]
The optical disc apparatus according to the present invention may further include a recording control unit configured to control the recording / reproducing unit to record the area classification information on the optical disc in the above configuration. Is characterized by using either the area classification information created by the information creation means or the area classification information recorded on the optical disc by the recording control means.
[0059]
According to the above configuration, the area classification information is recorded on the optical disc by the recording control unit. Therefore, for example, when re-determining the recording condition by exchanging the optical disk device, the area classification information recorded on the optical disk can be used. Thereby, the recording condition can be determined again without using the first measuring means and the information creating means. Therefore, the optical disk apparatus of the present invention can shorten the time required for the determination even when the recording condition is determined again by exchanging the optical disk.
[0060]
In the optical disk device of the present invention having the above-described configuration, the first measuring means controls the recording / reproducing means to perform recording on the plurality of small areas under predetermined recording conditions, and the recording It is characterized by playing back.
[0061]
In the above configuration, the first measuring means measures the detected amount by reproducing the information recorded under a predetermined recording condition. Therefore, the small areas having different measured detected amounts are recorded. The possibility of different sensitivities is very high. Therefore, according to the optical disc apparatus of the present invention, since the recording condition is determined by recording under the same recording condition and measuring the detected amount in a small area where the possibility of different recording sensitivities is extremely high, the recording condition is It can be determined with high accuracy.
[0062]
Further, the optical disk device of the present invention is characterized in that, in the above configuration, the first measuring means controls the recording / reproducing means to perform reproduction from a preformat portion in each small area.
[0063]
According to the above configuration, since the first measuring means reproduces from the preformat portion in each small area, the detection amount can be measured without recording as described above. Accordingly, it is possible to shorten the time required until the recording condition is determined.
[0064]
The optical disk apparatus of the present invention is characterized in that, in the above configuration, the first measuring means and the second measuring means control the recording / reproducing means to perform reproduction from a test area on the optical disk.
[0065]
As a result, the recording condition can be determined without affecting the user area on the optical disc. For example, the recording condition can be determined even if information is recorded in the entire user area.
[0066]
Each step performed by the recording condition determining method in the optical disc apparatus can be executed on a computer by a control program. Furthermore, the control program can be executed on any computer by storing the control program in a computer-readable recording medium.
[0067]
DETAILED DESCRIPTION OF THE INVENTION
[Embodiment 1]
An embodiment of the present invention will be described with reference to FIGS. 1 to 11, taking the case of a magneto-optical recording system as an example. For convenience of explanation, a case where the recording light amount is optimized in the magnetic field modulation recording method will be described. Therefore, hereinafter, a method for examining an appropriate recording light amount (recording condition) while changing the recording light amount while keeping the intensity of the recording magnetic field constant will be described.
[0068]
FIG. 2 shows a schematic configuration of the optical disc apparatus 1 according to the present embodiment. When recording information on the magneto-optical disk D (optical disk), the optical disk apparatus 1 first has a control unit 20 (control means) on the recording area of the rotating magneto-optical disk D via the pickup drive circuit 14. The pickup 13 (recording / reproducing means) is moved. The pickup 13 is provided with an optical head 11 and a magnetic head 12.
[0069]
Then, the control unit 20 sets recording conditions via the laser drive circuit 15 and irradiates the recording part of the recording area of the magneto-optical disk D with the recording laser beam from the optical head 11, and the control unit 20 performs the magnetic head. A recording magnetic field is generated from the magnetic head 12 via the drive circuit 16. Thereby, the optical disk apparatus 1 can record information in the recording area of the magneto-optical disk D.
[0070]
In the optical disk apparatus 1, when reproducing information recorded on the magneto-optical disk D, first, the control unit 20 moves the pickup 13 to the recording part of the magneto-optical disk D via the pickup drive circuit 14. . Next, the control unit 20 irradiates the magneto-optical disk D with a reproducing laser beam from the optical head 11 via the laser driving circuit 15. The irradiated laser beam is reflected at the recording site, and the reflected light is detected by the optical head 11. The reflected light detected by the optical head 11 is converted into an electric signal f, then converted into a reproduction signal g by the reproduction circuit 17 and input to the control unit 20. Thereby, the optical disk apparatus 1 can reproduce the information recorded in the recording area of the magneto-optical disk D.
[0071]
Here, the optical disk apparatus 1 is particularly provided with a memory 31 and a sensor 32. The memory 31 is a storage device that can read and write area classification information described later as data a with the control unit 20. The sensor 32 is a sensor for detecting a change in the recording environment on the magneto-optical disk D, for example, a temperature sensor for detecting the temperature of the recording part of the magneto-optical disk D. The result detected by the sensor 32 is output to the control unit 20 as a detection signal b.
[0072]
The optical disc apparatus 1 sets recording conditions based on trial writing to the test area Db of the magneto-optical disc D shown in FIG. Then, the optical disc apparatus 1 records information in the user area Da of the magneto-optical disc D shown in the figure under the set recording conditions.
[0073]
The recording operation to the user area Da is the same as a well-known recording operation, and thus the description thereof is omitted. In FIG. 3, the position of the test area Db is defined at the innermost peripheral portion of the magneto-optical disk D, but can be defined at an arbitrary circumferential portion such as the outermost peripheral portion. In addition, when test areas exist in a plurality of circumferential portions, appropriate recording conditions may be set by performing test writing in the plurality of test areas.
[0074]
Further, in an optical disk such as the magneto-optical disk D, a recording area is formed concentrically or spirally, and the recording area is divided every round. Hereinafter, the recording area for each round is referred to as a “track”. Furthermore, the track is divided into a plurality of small areas. Hereinafter, this small area is referred to as a “sector”.
[0075]
Next, setting of recording conditions in the optical disc apparatus 1 will be described with reference to FIG. The control unit 20 includes a recording condition control unit 21, an area classification information management unit 22, a test writing condition setting unit 23, and a recording condition setting unit 24.
[0076]
In addition to when the magneto-optical disk D is loaded in the optical disk apparatus 1, the recording condition control unit 21 is used when a predetermined change is detected in the recording environment by the sensor 32 even during the information recording operation. The recording condition setting operation is appropriately started when a predetermined time has elapsed since the last trial writing.
[0077]
The area classification information management unit 22 manages area classification information used by the test writing condition setting unit 23. As described above, the recording area of the magneto-optical disk D is affected by the tilt in the circumference and the unevenness of the recording sensitivity, so even if the same signal is recorded, the reproduced signal is not always the same.
[0078]
For this reason, under the control of the information creation unit 22a (information creation means) in the region classification information management unit 22, recording is performed on a certain track in the test region Db with a predetermined recording power (recording condition), and the reproduction signal is recorded in the sector Detect every time. This reproduced signal will be referred to as an “intra-circle variation signal”. This intra-circumference variation signal represents the in-periphery tilt and uneven recording sensitivity.
[0079]
Next, a plurality of sectors in one track are classified into a plurality of groups on the basis of the magnitude of the detection amount related to the intra-circumference variation signal. The number of sectors included in one group may be one or plural. Control is performed so that the storage control unit 22b in the region classification information management unit 22 stores in the memory 31 information indicating which group each sector is classified as region classification information.
[0080]
Here, the detection amount related to the intra-circumference variation signal is a quantitative indication of the tilt within the circumference and the recording sensitivity unevenness, for example, error, jitter, and the likelihood of the path having the minimum Euclidean distance in the maximum likelihood decoding method. A representation of the quality of the reproduced signal, such as that based on the difference, or the amplitude of the reproduced signal can be used.
[0081]
In many cases, one or both of the error and the jitter define the power margin of the optical disc. In this case, the recording state can be indicated by a value that matches the margin regulation threshold of the optical disc.
[0082]
Further, since the quality of the reproduced signal can be evaluated based on the likelihood difference in the maximum likelihood decoding method, a value based on the likelihood difference can be used as the detection amount. For example, T. Perkins, “a Window Margin Like Procedure for Evaluating PRML Channel Performance”; IEEE Transactions on Magnetics, Vol. 31, No. 2, 1995, pp. 1109-1114.
[0083]
Next, the test writing condition setting unit 23 sets recording conditions used for the test writing operation based on the region classification information provided from the region classification information management unit 22. Trial writing is performed by recording on a plurality of sectors in a track under a plurality of recording conditions.
[0084]
At this time, a recording condition for each sector is set based on the area classification information. Specifically, among the plurality of recording conditions, at least one recording condition is set so as to be assigned to a combination of sectors respectively selected from at least two groups.
[0085]
As described above, each group is classified based on the magnitude of the detection amount related to the intra-circumference variation signal, that is, the degree of tilt within the circumference and the unevenness of recording sensitivity. Therefore, for multiple groups, recording is performed on each sector selected from each group under the same recording condition, and the degree of unevenness in tilt and recording sensitivity is averaged by detecting a reproduction signal corresponding to the recording condition. Thus, the influence of tilt within the circumference and uneven recording sensitivity is reduced.
[0086]
The recording condition setting unit 24 performs a test writing operation based on the conditions set by the test writing condition setting unit 23, and sets appropriate recording conditions based on a plurality of recording conditions and playback signals.
[0087]
Thereafter, when the recording condition setting operation is resumed by the recording condition control unit 21, the information acquisition unit 22 c in the region classification information management unit 22 acquires the region classification information from the memory 31 and outputs it to the test writing condition setting unit 23. As a result, it is possible to reduce the time spent until an appropriate recording condition is set.
[0088]
The above operation will be described by taking as an example a case where trial writing is performed using 12 sectors in one track of the test area Db and the recording light quantity is changed in six stages to set an appropriate recording light quantity. Note that the detection amount is set using the BER of the reproduction signal, and the appropriate recording light amount is set based on the recording light amount at which the BER becomes the threshold value 5E-4.
[0089]
FIG. 4 shows the result of recording with a predetermined recording light amount on 12 sectors in one track and detecting a reproduction signal with a predetermined reproduction light amount. That is, this reproduction signal is an intra-circumference variation signal.
[0090]
Next, the 12 sectors are classified into 12 groups based on the magnitude of the detection amount (BER) of the intra-circular fluctuation signal shown in FIG. Here, as shown in FIG. 5, classification is performed in ascending order of BER. At this time, the classification result as shown in FIG. 5 becomes the area classification information.
[0091]
Next, the recording light amount used for the trial writing operation is set. At this time, a combination of sectors respectively selected from the two groups is assigned to each of the six levels of recording light amounts Pw1 to Pw6. Note that the order of the recording light amounts Pw1 to Pw6 is the order from the smallest light amount.
[0092]
Here, the largest and smallest group numbers are assigned to the recording light quantity Pw1, and the group having the largest group number among the groups not yet assigned to the next recording light quantity. Repeat assigning the smallest one. At this time, the assignment is as shown in FIG. 6, and this is the test writing condition.
[0093]
When the test writing was performed on the track with the recording light amount allocated to each sector based on the test writing conditions shown in FIG. 6, the result shown in FIG. 7 was obtained. FIG. 7 shows the average value of BER detected from two sectors irradiated with the same recording light amount for each recording light amount.
[0094]
In addition to the measurement result (invention) according to the trial writing operation in the present embodiment, FIG. 7 shows the measurement result (one round) of the average BER of one track (12 sectors) for each recording light quantity as a reference example. Average) is shown.
[0095]
Further, in FIG. 7, as a comparative example, the recording light amount is changed in six steps for each sector in two areas of sector numbers 1 to 6 and sector numbers 7 to 12 in one track (12 sectors). Then, the test writing operation is performed, and the measurement results (average of two areas) when the BERs obtained in the two areas are averaged are shown.
[0096]
Although not shown in FIG. 7, the BER at the recording light quantity Pw1 was 1E-2 in both the present invention, the reference example, and the comparative example.
[0097]
Here, when the result of the trial writing is closer to the reference example, it is possible to set the recording light quantity that can be stably recorded with respect to one track (recording area of one circumference).
[0098]
Referring to FIG. 7, when comparing the recording light quantity at the BER threshold value 5E-4, in the comparative example, the result is far from the reference example due to the influence of the variation in the circumference due to the uneven recording sensitivity. On the other hand, in this embodiment, it can be understood that the result is close to the reference example. That is, it can be understood that the setting of the recording light quantity in the present invention can reduce the influence of the variation in the circumference and set an appropriate recording light quantity with high accuracy.
[0099]
The sector classification method and the group and sector allocation method for each recording light quantity can be variously changed. For example, the 12 sectors can be classified into two groups based on the magnitude of the detected amount of the intra-circular fluctuation signal shown in FIG. 4, and this case will be described below. Here, as shown in FIG. 8, classification is performed in ascending order of BER. At this time, the classification result as shown in FIG. 8 becomes the area classification information.
[0100]
Next, the recording light amount used for the trial writing operation is set. At this time, one sector is selected from each of the two groups and assigned to each of the six levels of recording light amounts Pw1 to Pw6. At this time, the assignment is as shown in FIG. 9, and this is the test writing condition.
[0101]
Based on the trial writing conditions shown in FIG. 9, when trial writing was performed on the track with the recording light quantity assigned to each sector, the result shown in FIG. 10 was obtained. FIG. 10 shows the measurement result of the reference example and the measurement result of the comparative example, in addition to the measurement result (the present invention) by the trial writing operation in the present embodiment, as in FIG.
[0102]
Referring to FIG. 10, when comparing the recording light quantity at the BER threshold value 5E-4, in the case of the comparative example, the result is far from the reference example due to the influence of the fluctuation in the circumference due to the unevenness of the recording sensitivity. On the other hand, in this embodiment, it can be understood that the result is close to the reference example. That is, it can be understood that the setting of the recording light quantity in the present invention can reduce the influence of the variation in the circumference and set an appropriate recording light quantity with high accuracy.
[0103]
FIG. 11 illustrates a specific operation for setting the recording light quantity in the optical disc apparatus 1. The basic operation for optimizing the recording light amount will be described below with reference to FIG.
[0104]
First, when the magneto-optical disk D is loaded in the optical disk apparatus 1, the test area Db is accessed through the area classification information management section 22 under the control of the recording condition control section 21 (step 1, hereinafter referred to as S1).
[0105]
Next, the region classification information management unit 22 determines whether there is region classification information in the memory 31 (S2). If there is area classification information in the memory 31, the area classification information is acquired from the memory 31 (S8), and the process proceeds to S5.
[0106]
On the other hand, when there is no area classification information in the memory 31, a test pattern is recorded on a track in the test area Db with a predetermined recording light amount, and a test pattern is read for each sector in the track with a predetermined reproduction light amount. An intra-circumference variation signal is detected (S3). Next, a plurality of sectors are classified into a plurality of groups based on the detected amount of the intra-circumference variation signal, and stored in the memory 31 as region classification information (S4).
[0107]
Next, based on the area classification information, the recording light quantity for each sector is set as the test writing condition (S5). Next, a trial writing operation is performed with the recording light amount assigned to each sector in step S5 (S6). Based on the result of step S6, an appropriate recording light amount is determined (S7).
[0108]
In step S3, a case where a test pattern recorded on a track with a predetermined recording light amount is read and an intra-circumference variation signal is detected has been described as an example. However, the preformat portion included in each of a plurality of areas is described. The detection amount of the reproduction signal can be used as the detection amount of the intra-circumference variation signal. In this case, since it is not necessary to record the test pattern, the time required to determine the recording light quantity can be shortened.
[0109]
Further, without performing the classification shown in FIG. 5 and FIG. 8, the sector numbers are combined based on the BER size of each sector shown in FIG. 4, and the recording conditions are assigned to each combination. Also, the test writing conditions shown in FIG. 9 may be set.
[0110]
At this time, it is desirable that the storage control unit 22 b store the combination in the memory 31 instead of the region classification information. In this case, when the recording condition setting operation is resumed by the recording condition control unit 21, the information acquisition unit 22 c acquires the above combination from the memory 31 and outputs it to the test writing condition setting unit 23, so that an appropriate recording condition is set. The time spent before setting can be shortened.
[0111]
In the present embodiment, the case where the BER that is the detection amount of the reproduction signal is set based on the recording light amount at which the threshold value is 5E-4, that is, the lower limit recording light amount is described as an example. Not limited to this, it may be set based on the upper limit recording light amount, or may be set based on both the lower limit and upper limit recording light amounts.
[0112]
[Embodiment 2]
Another embodiment of the present invention will be described with reference to FIGS. Note that the description of the same configuration as that of the above-described embodiment is omitted or simplified.
[0113]
The optical disc apparatus 1 can record area classification information used for setting recording conditions on the magneto-optical disc D. Hereinafter, in the present embodiment, the test area Db is used as the area on the magneto-optical disk D for recording the area classification information. However, the area classification information is recorded in an arbitrary area on the magneto-optical disk D. be able to.
[0114]
FIG. 12 illustrates a specific operation of the recording control unit 22d (recording control means) that records the area classification information stored in the memory 31 on the magneto-optical disk D. First, the area classification information is read from the memory 31 (S11) and recorded in the test area Db of the magneto-optical disk D (S12).
[0115]
As described above, the optical disk apparatus 1 records the created area classification information on the magneto-optical disk D so that not only the same optical disk apparatus 1 but also different optical disk apparatuses can load the magneto-optical disk D. When recording information, recording conditions can be set based on the area classification information recorded on the magneto-optical disk D.
[0116]
The area classification information recorded on the magneto-optical disk D is read by the read control unit 22e. FIG. 13 shows an operation of reading the area classification information recorded on the magneto-optical disk D. First, the test area Db on the magneto-optical disk D is accessed (S21), then the area classification information of the test area Db is read (S22), and the area classification information is stored in the memory 31 (S23).
[0117]
As described above, the optical disc apparatus 1 according to the present embodiment and the recording condition determination method in the apparatus have the recording sensitivity in the circumferential direction of the optical disc due to the variation of tilt in the circumferential recording area and the variation in the formation of the recording film. Even when unevenness occurs, area classification information is created by classifying a plurality of sectors based on the variation in the circumference, and a trial writing operation is performed based on the area classification information to set an appropriate recording light quantity. Therefore, it can be set and recorded accurately in a short time.
[0118]
In addition, said embodiment does not limit the scope of the present invention, and various changes can be made within the scope of the present invention.
[0119]
For example, it is desirable to set the recording light quantity at least once for each track, but it is not always necessary to set it for all tracks, and may be set for a plurality of tracks.
[0120]
Further, an area obtained by dividing the sector into a plurality of areas can be used as the plurality of areas of the track.
[0121]
The present invention can also be applied to the case where the recording magnetic field strength is optimized as the recording condition to be set. Although the magnetic field modulation recording method has been described as an example, the recording light quantity can be set with good sensitivity even in the light modulation recording method. Further, the present invention is not limited to magneto-optical recording, and can be similarly applied to other optical disks such as phase change recording.
[0122]
The optical disc apparatus 1 also includes a CPU (central processing unit) that executes instructions of a program (control program, recording condition setting program, etc.) that realizes each function of the control unit 20, and a ROM (read only memory) that stores the program. A RAM (random access memory) for expanding the program, a storage device (storage medium) such as a memory for storing the program and various data, and the like may be provided.
[0123]
Another object of the present invention is to supply the optical disc apparatus 1 with a recording medium in which a program code (execution format program, intermediate code program, source program) of a control program, which is software that realizes the functions described above, can be read by a computer. This can also be achieved by reading and executing the program code recorded on the recording medium by the computer (or CPU or MPU).
[0124]
In this case, the program code itself read from the recording medium realizes the above-described functions, so that the recording medium on which the program code is recorded constitutes the present invention.
[0125]
【The invention's effect】
As described above, the recording condition determining method in the optical disc apparatus according to the present invention is a method for determining the recording condition in the optical disc apparatus that records and reproduces information on the optical disc, and the recording area in the circumferential direction of the optical disc. A first measurement step for measuring a detection amount detected by performing reproduction from a plurality of small regions for each of the small regions, a combination creation step for creating a combination of the small regions having different detection amounts, and the combination A second measurement step of recording for each of the above combinations and measuring the detected amount detected by performing recording on the small area in the same recording condition and reproducing the recording for each of the combinations. And a recording condition determining step for determining a recording condition based on the detected amount.
[0126]
Here, the detection amount is a value representing the quality of the reproduced signal. For example, the amplitude of the reproduced signal indicating the strength of the reproduced signal, the BER, the jitter, and the likelihood difference of the path with the smallest metric in the maximum likelihood decoding method. And the like.
[0127]
According to this, it is possible to determine the recording condition by changing the recording condition for a plurality of small areas and measuring the detection amount, so that the detection amount is recorded by recording in the plurality of small areas under the same recording condition, Compared to the conventional method of determining the recording condition by changing the recording condition and repeating this, the processing time can be shortened.
[0128]
In addition, since the recording conditions are determined by recording under the same recording conditions and measuring the detection amount for a small area having a high possibility of different recording sensitivities, the recording sensitivity is determined for the small areas having a different recording sensitivity. Compared to the methods described in the above two publications, which record under different recording conditions and measure the detection amount, the recording conditions can be determined with less error due to uneven recording sensitivity. .
[0129]
Further, as described above, the recording condition determination method in the optical disc apparatus of the present invention is the above-described method, wherein the combination creating step includes a small region having a maximum detection amount and a detection amount among the plurality of small regions. This is a step of repeatedly creating a combination with a small region having the smallest value and creating a similar combination for the remaining small regions.
[0130]
According to this, the sum or average value of the detection amounts of the small areas included in a certain combination is almost the same as that of other combinations, and errors due to uneven recording sensitivity are considered to be significantly reduced. The effect is that it can be determined.
[0131]
Further, as described above, in the recording condition determination method in the optical disc apparatus of the present invention, in the above method, the combination creating step classifies the plurality of small regions into a plurality of region groups according to the detection amount. This includes a region classification step and a selection step of creating a combination by selecting each of the small regions from different region groups.
[0132]
According to this, if the region group is different, the detection amount of the small region included in each region group is also different. Therefore, each of the small regions included in a certain combination is highly likely to have different recording sensitivity. Therefore, it is possible to determine a recording condition with less error due to uneven recording sensitivity.
[0133]
Further, as described above, the recording condition determining method in the optical disc device of the present invention is the above method, wherein the optical disc device is provided with storage means for storing information, and after the combination creating step, the small area is stored. A combination storage step for storing the combination in the storage means, and when the combination is stored in the storage means, a second measurement step based on the combination stored in the storage means It is a method of performing.
[0134]
Thereby, when the recording condition is re-determined, it is possible to simplify the process up to the determination and further shorten the processing time until the determination.
[0135]
Further, as described above, the recording condition determining method in the optical disc device of the present invention includes a storage unit for storing information in the above method, and a plurality of the above-described region classification steps are performed after the region classification step. The method further includes a classification storage step of creating region classification information indicating a correspondence relationship between the small region and the plurality of region groups and storing the region classification information in the storage unit, and the selection step stores the region classification information in the storage unit. In the case of storage, this is a step of creating a combination by selecting each of the small regions from different region groups based on the region classification information stored in the storage means.
[0136]
Thereby, when the recording condition is re-determined, it is possible to simplify the process up to the determination and further shorten the processing time until the determination.
[0137]
Further, as described above, in the recording condition determination method in the optical disc apparatus of the present invention, in the above method, the first measurement step performs recording on the plurality of small areas under predetermined recording conditions, and This is a step of reproducing the recording.
[0138]
As a result, since the recording condition is determined by recording under the same recording condition and measuring the detected amount in a small area where the possibility of different recording sensitivities is extremely high, the recording condition can be accurately determined. Play.
[0139]
Further, as described above, in the recording condition determination method in the optical disc device of the present invention, in the above method, the first measurement step is a step of performing reproduction from the preformat portion in each small area.
[0140]
As a result, the detected amount can be measured without performing the recording process, so that the processing time until the recording condition is determined can be shortened.
[0141]
Further, as described above, the optical disc apparatus of the present invention is an optical disc apparatus comprising recording / reproducing means for recording and reproducing information on the optical disc, and control means for controlling the recording / reproducing means. A first measuring means for controlling the recording / reproducing means to measure the detected amount for each of the small areas by performing reproduction from a plurality of small areas in the circumferential recording area of the optical disc; The combination creating means for creating a combination of the small areas having different detection amounts and the recording / reproducing means are controlled to perform recording on the small areas in the combination under the same recording conditions and to reproduce the recording. A second measuring means for measuring the detected amount detected for each combination, and a recording based on the detected amount for each combination measured by the second measuring means. A structure and a recording condition determination means for determining a matter.
[0142]
According to this, it is possible to determine the recording condition by changing the recording condition for a plurality of small areas and measuring the detection amount, so that the detection amount is recorded by recording in the plurality of small areas under the same recording condition, Compared to the conventional apparatus that determines the recording condition by changing the recording condition and repeating this, the recording condition can be determined in a short time.
[0143]
Also, since recording conditions are determined by recording under the same recording conditions and measuring the detection amount for small areas that are likely to have different recording sensitivities, they differ for small areas that may have different recording sensitivities. There is an effect that it is possible to determine a recording condition with less error due to uneven recording sensitivity, as compared with the apparatuses described in the above two publications, in which the recording condition is determined by recording under the recording condition and measuring the detection amount.
[0144]
Further, as described above, the optical disc apparatus according to the present invention has the above-described configuration, in which the combination creating unit is configured such that, among the plurality of small regions, the small region having the maximum detection amount and the small region having the minimum detection amount. This is a configuration that repeats creating a combination with a region and creating a similar combination for the remaining small regions.
[0145]
According to this, the sum or average value of the detection amounts of the small areas included in a certain combination is almost the same as that of other combinations, and errors due to uneven recording sensitivity are considered to be significantly reduced. The effect is that it can be determined.
[0146]
Further, as described above, the optical disc apparatus according to the present invention has the above-described configuration, wherein the combination creating unit converts the plurality of small regions into a plurality of regions according to the detection amount measured by the first measuring unit. Based on the area classification information created by the information creation means, the information creation means for creating the area classification information indicating the correspondence between the plurality of small areas and the plurality of area groups. And selecting means for selecting each of the small regions from the region group to create a combination.
[0147]
According to this, if the region group is different, the detection amount of the small region included in each region group is also different, so that each small region included in a certain combination is highly likely to have different recording sensitivity. Therefore, it is possible to determine a recording condition with less error due to uneven recording sensitivity.
[0148]
In addition, as described above, the optical disc apparatus of the present invention further includes storage means for storing the combination created by the combination creation means in the above configuration, and the second measurement means is the combination creation described above. In this configuration, one of the combination created by the means and the combination stored by the storage means is used.
[0149]
As a result, when the recording condition is re-determined, the time required until the determination can be shortened.
[0150]
Further, as described above, the optical disc apparatus of the present invention has the above configuration, and the control unit controls the recording / reproducing unit to record the combination created by the combination creation unit on the optical disc. Control means is further provided, and the second measuring means uses either the combination created by the combination creating means or the combination recorded on the optical disc by the recording control means. .
[0151]
As a result, even when the recording conditions are re-determined by exchanging the optical disk, the time required for the determination can be shortened.
[0152]
In addition, as described above, the optical disc apparatus of the present invention further includes storage means for storing the area classification information in the above configuration, and the selection means is the area classification created by the information creation means. Either of the information and the region classification information stored by the storage means is used.
[0153]
As a result, when the recording condition is re-determined, the time required until the determination can be shortened.
[0154]
Further, as described above, the optical disc apparatus of the present invention further includes recording control means for controlling the recording / reproducing means to record the area classification information on the optical disc in the above configuration. The selection means uses either the area classification information created by the information creation means or the area classification information recorded on the optical disc by the recording control means.
[0155]
As a result, even when the recording conditions are re-determined by exchanging the optical disk, the time required for the determination can be shortened.
[0156]
Further, as described above, the optical disc apparatus of the present invention has the above-described configuration, wherein the first measuring means controls the recording / reproducing means to record on the plurality of small areas under predetermined recording conditions. And the recording is reproduced.
[0157]
As a result, since the recording condition is determined by recording under the same recording condition and measuring the detected amount in a small area where the possibility of different recording sensitivities is extremely high, the recording condition can be accurately determined. Play.
[0158]
Further, as described above, the optical disc apparatus of the present invention has a configuration in which, in the above configuration, the first measuring unit controls the recording / reproducing unit to perform reproduction from the preformat portion in each small area.
[0159]
As a result, since the detected amount can be measured without recording, the time required to determine the recording condition can be shortened.
[0160]
Further, as described above, the optical disc apparatus of the present invention has a configuration in which the first measurement unit and the second measurement unit perform reproduction from the test area on the optical disc by controlling the recording / reproduction unit. It is.
[0161]
Thus, since the recording condition can be determined without affecting the user area on the optical disc, for example, the recording condition can be determined even if information is recorded in the entire user area.
[0162]
Each step performed by the recording condition determining method in the optical disc apparatus can be executed on a computer by a control program. Furthermore, the control program can be executed on any computer by storing the control program in a computer-readable recording medium.
[Brief description of the drawings]
FIG. 1 is a block diagram showing in detail a configuration related to setting of recording conditions in an optical disc apparatus according to an embodiment of the present invention.
FIG. 2 is a block diagram showing a schematic configuration of an optical disc apparatus according to the present embodiment.
FIG. 3 is a schematic diagram showing a magneto-optical disk on which information is recorded in the present embodiment.
FIG. 4 is a graph showing an example of an intra-circumference variation signal related to a recording condition setting operation in the present embodiment.
5 is a chart showing an example of region classification information created based on the intra-circumference variation signal shown in FIG.
6 is a chart showing an example of test writing conditions set based on the area classification information shown in FIG. 5. FIG.
7 is a graph showing an example of a result of trial writing performed based on the trial writing conditions shown in FIG. 6. FIG.
8 is a chart showing another example of region classification information created based on the intra-circumference variation signal shown in FIG.
9 is a chart showing an example of test writing conditions set based on the area classification information shown in FIG.
10 is a graph showing an example of a result of trial writing performed based on the trial writing conditions shown in FIG.
FIG. 11 is a flowchart showing a specific operation for setting a recording light amount in the present embodiment.
FIG. 12 is a flowchart showing an outline of an operation for setting a recording condition in another embodiment of the present invention.
FIG. 13 is a flowchart showing an outline of an operation for setting a recording condition in the present embodiment.
[Explanation of symbols]
1 Optical disk device
13 Pickup (recording / reproducing means)
20 Control unit (control means)
22a Information creation unit (information creation means)
22d Recording control unit (recording control means)
23 Test writing condition setting section
31 Memory (storage means)
D Magneto-optical disk (optical disk)
Db test area

Claims (21)

A method for determining recording conditions in an optical disc apparatus for recording and reproducing information on an optical disc,
A first measurement step of measuring, for each small area, a detection amount detected by performing reproduction from a plurality of small areas in the recording area in the circumferential direction of the optical disc;
A union creation step of creating a combination of the above-mentioned small areas with different detection amounts;
A second measurement step of performing recording on the small area in the combination under the same recording condition and measuring a detection amount detected by performing reproduction of the recording for each combination;
And a recording condition determining step for determining a recording condition based on the detected amount measured for each combination. 2. The recording condition determination method for an optical disc apparatus according to claim 1, wherein the detected amount is a value representing the quality of a reproduction signal. The union creation step is
Create a combination of a small region with the maximum detection amount and a small region with the minimum detection amount among the plurality of small regions,
3. The recording condition determining method in the optical disc apparatus according to claim 1, wherein the step is a step of repeatedly creating a similar combination for the remaining small areas. The union creation step is
A region classification step of classifying the plurality of small regions into a plurality of region groups according to the detection amount;
3. The recording condition determination method for an optical disc apparatus according to claim 1, further comprising a selection step of selecting each of the small areas from the different area groups to create a combination. The optical disc apparatus includes a storage unit for storing information,
After the combination creation step, further includes a combination storage step of storing the combination of the small areas in the storage means,
5. The method according to claim 1, wherein when the combination is stored in the storage unit, a second measurement step is performed based on the combination stored in the storage unit. Recording condition determination method in the optical disc apparatus of the present invention. The optical disc apparatus includes a storage unit for storing information,
After the region classification step, the method further includes a classification storage step of creating region classification information indicating a correspondence relationship between the plurality of small regions and the plurality of region groups and storing the information in the storage unit.
In the selection step, when the area classification information is stored in the storage means, the small areas are respectively selected from the different area groups based on the area classification information stored in the storage means. 5. The recording condition determination method for an optical disc apparatus according to claim 4, wherein the recording condition determination step is a step of creating a combination. 7. The first measurement step is a step of performing recording on a plurality of the small areas under a predetermined recording condition and reproducing the recording. Recording condition determination method in the optical disc apparatus of the present invention. 7. A recording condition determining method in an optical disc apparatus according to claim 1, wherein the first measuring step is a step of performing reproduction from a preformat portion in each small area. In an optical disc apparatus comprising recording / reproducing means for recording and reproducing information on an optical disc and control means for controlling the recording / reproducing means, the control means comprises:
A first measuring means for controlling the recording / reproducing means to perform reproduction from a plurality of small areas in the recording area in the circumferential direction of the optical disc, thereby measuring the detected amount for each small area;
A combination creating means for creating a combination of the above-described small areas having different detection amounts;
Controlling the recording / reproducing means to perform recording on the small area in the combination under the same recording conditions, and measuring a detection amount detected by reproducing the recording for each combination; Measuring means;
An optical disc apparatus comprising: a recording condition determining unit that determines a recording condition based on the detected amount for each combination measured by the second measuring unit. 10. The optical disc apparatus according to claim 9, wherein the detected amount measured by the first measuring unit and the second measuring unit is a value representing the quality of the reproduction signal. The combination creation means creates a combination of a small area with the maximum detection amount and a small area with the minimum detection amount among the plurality of small areas, and creates a similar combination for the remaining small areas. 11. The optical disk apparatus according to claim 9, wherein the optical disk apparatus is means for repeating the above. The union creation means
A region classification indicating a correspondence relationship between the plurality of small regions and the plurality of region groups by classifying the plurality of small regions into a plurality of region groups according to the detection amount measured by the first measuring unit. Information creation means for creating information;
11. The selecting device according to claim 9, further comprising: a selecting unit configured to select each of the small regions from different region groups based on the region classification information generated by the information generating unit and generate a combination. Optical disk device. A storage means for storing the combination created by the association creation means;
The second measuring means uses any one of the combination created by the combination creating means and the combination memorized by the storage means. The optical disk device described. The control means further includes a recording control means for controlling the recording / reproducing means to record the combination created by the combination creating means on the optical disc,
The second measuring means uses any one of the combination created by the combination creating means and the combination recorded on the optical disc by the recording control means. The optical disc device according to any one of the above. A storage means for storing the region classification information;
13. The optical disc according to claim 12, wherein the selection unit uses any one of the region classification information created by the information creation unit and the region classification information stored by the storage unit. apparatus. The control means further comprises recording control means for controlling the recording / reproducing means to record the area classification information on the optical disc,
13. The selection unit uses any one of the region classification information created by the information creation unit and the region classification information recorded on an optical disc by the recording control unit. The optical disk device described. 17. The first measuring unit controls the recording / reproducing unit to perform recording on a plurality of the small areas under a predetermined recording condition, and to reproduce the recording. The optical disc device according to any one of the above. The optical disk apparatus according to any one of claims 9 to 16, wherein the first measuring means controls the recording / reproducing means to perform reproduction from a preformat portion in each small area. 19. The optical disc according to claim 9, wherein the first measuring unit and the second measuring unit control the recording / reproducing unit to perform reproduction from a test area on the optical disc. apparatus. A control program for causing a computer to execute each step performed by the recording condition determining method in the optical disc apparatus according to any one of claims 1 to 8. A computer-readable recording medium on which the control program according to claim 20 is recorded.

Images