JP4366821B2 - Information processing apparatus and method, and program storage medium - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an information processing apparatus and method, and a program storage medium. In particular, when data is recorded on a recording medium of a device connected to a network, or when the capacity of a recordable area of the recording medium is reduced, The present invention relates to an information processing apparatus and method for moving recorded data to a recording medium of another device connected to a network, and a program storage medium.
[0002]
[Prior art]
As a recording medium of a video recorder for recording a program, there is a recording medium that can record a digital signal such as a hard disk instead of a video tape. Compared with a video recorder using a video tape, a video recorder using a hard disk or the like has features such that recording can be performed at the same time as playback and a desired portion can be played back immediately.
[0003]
In recent years, networks are becoming widespread, and data can be exchanged between a plurality of devices connected to the networks.
[0004]
[Problems to be solved by the invention]
Since the video recorder using the hard disk described above has the built-in hard disk, the video tape is replaced when the recording data is full like the video tape recorder using the video tape as a recording medium. It was not easy to perform the same processing as the processing such as. Therefore, there is a problem that the user must perform recording while paying attention to the remaining capacity (capacity of the recordable area) so that the capacity of the hard disk does not become full.
[0005]
In addition, many devices connected to a network include recording media, and a recordable area of a predetermined device is secured by exchanging data between the recording media of these devices. It wasn't.
[0006]
The present invention has been made in view of such a situation, and an object thereof is to effectively use a recording medium by recording data on a recording medium of a device connected to a network. In addition, the present invention moves the recorded data to the recordable area of the recording medium of another device connected to the network when the capacity of the recordable area of the recording medium decreases, It is an object to always have a recording area on a recording medium provided for itself.
[0007]
[Means for Solving the Problems]
The information processing apparatus of the present invention investigates the capacity of each recordable area of the recording means for recording content and a plurality of recording apparatuses connected via a network, and is proportional to the capacity of the recordable area. A recording control unit that divides the entire data of one content to be moved recorded in the recording unit, moves the divided data to each recording device, and records the recording data separately from an area for recording the content. In an area provided in the means, information indicating that the data is the first data among the data obtained by dividing the entire data of one content to be moved, and the first data The name of the recording device that records the data, the file name of the file storing the first data, and the data following the first data are recorded. Record the name of the recording device and the file name of the file that stores the data following the first data, and record the data other than the first and last as information about the data other than the first and last The name of the recording device, the file name of the file storing the data other than the first and last, the name of the recording device recording the data following the data other than the first and last, and the first and last The file name of the file that stores the data subsequent to the data other than the above is recorded, and information indicating that the data is the last data as the information related to the last data, and the record that records the last data Management means for recording the name of the device and the file name of the file storing the last data and managing the destination of each divided data Obtain.
[0008]
The information processing method of the present invention investigates the capacity of each recordable area of a plurality of recording devices connected via a network, and records the contents in a recording means for recording the content in proportion to the capacity of the recordable area. The entire data of one content to be moved is divided, and the divided data is moved to the respective recording devices to be recorded, and the area provided in the recording unit separately from the area for recording the content, Information indicating that the data is the first data among the data obtained by dividing the entire data of one content to be moved, information indicating that the data is the first data, and the recording device that records the first data A name, a file name of a file storing the first data, a name of the recording device that records data following the first data, and The file name of the file that stores the data following the first data is recorded, and as the information about the data other than the first and last data, the name of the recording device that records the data other than the first and last data, and the first And the file name of the file storing the data other than the last, the name of the recording device that records the data following the data other than the first and last, and the file storing the data following the data other than the first and last Information indicating that the data is the last data, the name of the recording device that records the last data, and the last data. Recording a file name of a file to be stored and managing a movement destination of each divided data.
[0009]
The program stored in the program storage medium of the present invention investigates the capacity of each recordable area of a plurality of recording devices connected via a network, and records the content in proportion to the capacity of the recordable area. Dividing the whole data of one content to be moved recorded in the recording means, moving the divided data to the respective recording devices, and recording the data,
As the information about the first data among the data obtained by dividing the entire data of the one content to be moved in an area provided in the recording means separately from the area for recording the content, the data is the first data Information indicating that, the name of the recording device that records the first data, the file name of the file that stores the first data, and the recording device that records the data following the first data And the name of the recording device that records the data other than the first and last data as information relating to data other than the first and last data. And the file name of the file storing the data other than the first and last data, and the data following the data other than the first and last data are recorded. Recording the name of the recording device and the file name of the file that stores the data following the data other than the first and last, as information about the last data, information indicating that the data is the last data, Recording the name of the recording device that records the last data and the file name of the file that stores the last data, and processing the computer including the step of managing the movement destination of each divided data Let it run.
[0010]
In the present invention, the capacity of each recordable area of a plurality of recording devices connected via a network is investigated, and the movement recorded in the recording means for recording the content so as to be proportional to the capacity of the recordable area The entire data of one target content is divided, and the divided data is moved to each of the recording devices and recorded. Further, as the information about the first data among the data obtained by dividing the entire data of the one content to be moved in an area provided in the recording means separately from the area for recording the content, the data is the first data Information indicating that, the name of the recording device that records the first data, the file name of the file that stores the first data, and the data that follows the first data The recording device in which a name of a recording device and a file name of a file that stores data following the first data are recorded, and the data other than the first and last are recorded as information on data other than the first and last Record the name of the file, the file name of the file storing the data other than the first and last, and the data following the data other than the first and last A name of the recording device and a file name of a file for storing data following the data other than the first and last data, and information indicating that the data is the last data as information about the last data; The name of the recording device that records the last data and the file name of the file that stores the last data are recorded, and the movement destination of each divided data is managed.
[0015]
DETAILED DESCRIPTION OF THE INVENTION
FIG. 1 is a diagram for explaining a connection relationship between a video recorder to which the present invention is applied and another device. The television receiver 1, personal computer 2, home server 3, DVD (Digital Video Disk) changer 4, and video recorder 5 are connected to each other by an IEEE1394 bus 6.
[0016]
FIG. 2 is a block diagram showing an internal configuration of the video recorder 5. A CPU (Central Processing Unit) 11, a ROM (Read Only Memory) 12, a RAM (Random Access Memory) 13, an IEEE1394 interface 14, an interface 15, an encoder 16, and a decoder 17 are connected to each other by a bus 18. An infrared receiver 19 and a hard disk drive (HDD) 20 are connected to the interface 15, and a tuner 21 is connected to the encoder 16.
[0017]
The CPU 11 controls each unit by a program stored in the ROM 12. The RAM 13 writes and reads data necessary for the CPU 11 to control each unit. The RAM 13 can also be configured with a flash memory or the like.
[0018]
Since the IEEE1394 interface 14 exchanges data via the IEEE1394 bus 6, the data converted into the data packet structure conforming to the IEEE1394 standard is output to the IEEE1394 bus 6 or input from the IEEE1394 bus 6. Interface processing such as conversion of a data packet conforming to the IEEE 1394 standard into a data structure to be handled in the video recorder 6 is performed. The interface 15 interfaces an operation signal from a remote controller (not shown) received by the infrared receiver 19 and also performs an interface for writing and reading data to the HDD 20. A drive 22 is connected to the interface 15, and a magnetic disk 101, an optical disk 102, a magneto-optical disk 103, or a semiconductor memory 104 can be mounted.
[0019]
The tuner 21 extracts a program program signal desired by the user from a plurality of program program signals received by an antenna (not shown), and outputs the program program signal to the encoder 16. The encoder 16 encodes, for example, a program program signal received as analog data or digital data by compressing it based on the MPEG (Moving Picture Experts Group) method, and the like. To the television receiver 1. When the signal encoded by the encoder 16 is a signal of a program program that has been reserved for recording, the signal is recorded on the HDD 20 via the interface 15. The decoder 17 decodes and outputs the MPEG compressed data recorded on the HDD 20 to other recording media or devices that cannot directly transmit the MPEG compressed data.
[0020]
Therefore, for example, when the television receiver 1 does not include a decoder, the program program to be viewed is once decoded in the decoder 17 and then output via the IEEE1394 interface 14 and the IEEE1394 bus 6. On the other hand, when the television receiver 1 has a built-in decoder, it is directly output via the IEEE1394 interface 14 and the IEEE1394 bus 6.
[0021]
FIG. 3 is a block diagram showing the internal configuration of the personal computer 2, home server 3, and DVD changer 4. The personal computer 2 is connected to the IEEE1394 bus 6 via a 1394 interface (I / F) 30. The CPU 31 executes various processes according to programs stored in the ROM 32. The RAM 33 appropriately stores data and programs necessary for the CPU 31 to execute various processes. A keyboard 35 and a mouse 36 are connected to the input / output I / F 34, and signals input from them are output to the CPU 31.
[0022]
Further, a hard disk (HDD) 37 is connected to the input / output I / F 34, and data, programs, and the like can be recorded and reproduced there. A display 38 as a display device is also connected to the input / output I / F 34. For example, an internal bus 39 configured by PCI (Peripheral Component Interconnect), a local bus, and the like connects these units to each other.
[0023]
The home server 3 is connected to the IEEE1394 bus 6 via the 1394 I / F 50. The CPU 51 executes various processes according to programs stored in the ROM 52. The RAM 53 appropriately stores data and programs necessary for the CPU 51 to execute various processes. The operation unit 54 includes a keyboard, a mouse, and the like, and is operated when a user inputs an instruction. The HDD 55 can record and reproduce data and programs. The internal bus 56 connects these parts to each other.
[0024]
The DVD changer 4 is connected to the IEEE1394 bus 6 via the 1394 I / F 60. The CPU 61 executes various processes in accordance with programs stored in the ROM 62, and the RAM 63 appropriately stores data and programs necessary for the CPU 61 to execute various processes. The operation unit 64 includes buttons, switches, a remote controller, and the like. When operated by a user, the operation unit 64 outputs a signal corresponding to the operation. The drive 65 drives the disk 66 to reproduce data recorded therein or record data. Further, there are a plurality of disks 66, and each disk can be exchanged as necessary. The internal bus 67 connects these parts to each other.
[0025]
The capacity of the HDD 20 of the video recorder 5 described above is limited, and when a predetermined number of programs are recorded, the capacity of the recordable area may be insufficient. When the CPU 11 of the video recorder 5 determines that the capacity of the HDD 20 is insufficient, it transfers the data recorded on the HDD 20 to a recording medium such as an HDD provided in a device connected to the IEEE1394 bus 6. Such processing will be described with reference to the flowchart of FIG. However, here, the capacity of the HDD 20 is 6 GB (gigabytes), and among the devices connected to the IEEE1394 bus 6, the HDD 37 of the personal computer 2, the HDD 55 of the home server 3, and the disk 66 of the DVD changer 4 are respectively A recording medium that can transfer program data recorded in the HDD 20 of the video recorder 5 is used. The personal computer 2 to the video recorder 5 can execute a so-called NFS (Network Filing System) compatible program. Using this NFS, these devices can mutually check the recordable free space information of the built-in HDD 20, HDD 37, HDD 55, and disk 66 via the IEEE1394 bus 6.
[0026]
In step S1, the CPU 11 of the video recorder 5 determines whether or not the capacity of the recordable area of the HDD 20 has become a predetermined amount or less. For example, when 1 GB is set as the predetermined capacity of the recordable area, it is determined whether or not the remaining capacity of the HDD 20 has become 1 GB or less. The process of step S1 is repeated until it is determined that the remaining capacity is equal to or less than a predetermined amount (hereinafter referred to as 1 GB). Note that the value of the predetermined amount is arbitrarily set by the user, or is set in advance at the time of factory shipment. The value of the predetermined amount is determined based on a predetermined criterion such as a value corresponding to half of the recording area or 10 minutes in the high-quality video recording mode.
[0027]
If it is determined in step S1 that the remaining capacity of the HDD 20 is 1 GB or less, the process proceeds to step S2. In step S <b> 2, the CPU 11 checks whether a device including a recording medium that can move data recorded (recorded) on the HDD 20 is connected to the network (IEEE1394 bus 6).
[0028]
In other words, in the case of a system compliant with the IEEE1394 standard, data relating to devices are stored in each other by broadcasting each connected device as an initial process. The CPU 11 of the video recorder 5 inquires of each connected device whether or not the storage medium is owned by using a predetermined inquiry command. Further, the CPU 11 inquires the remaining capacity of the storage medium sequentially from the device that owns the storage medium using the above-described NFS. Each device investigates the remaining capacity of the built-in storage medium every predetermined period, stores the investigation results (remaining capacity) in the RAM 33, 53, 63, etc. in advance, and in response to an inquiry from the video recorder 5, the remaining capacity. Reply. Alternatively, when an inquiry is made from the video recorder 5, each device investigates the remaining capacity of the storage medium, stores it in the RAMs 33, 53, and 63 and returns the remaining capacity to the video recorder 5.
[0029]
As described above, the personal computer 2, the home server 3, and the DVD changer 4 have been investigated as having a recording medium capable of transferring program data recorded in the HDD 20, respectively. In S3, the CPU 11 calculates a data distribution indicating how much data is to be moved to the recording medium of each device. Here, since the HDD 20 has a capacity of 6 GB and the remaining capacity is determined to be 1 GB or less, data of 5 (= 6-1) GB is moved. Therefore, all of this 5 GB data may be moved to a device having a recording medium having 5 GB of free space. However, in the device itself, for example, the personal computer 2, the data processed by the personal computer 2 itself is recorded. You also have to leave the capacity to do it.
[0030]
Therefore, the CPU 11 calculates a data distribution as to which device and how much the 5 GB data is moved based on the investigation result in step S2. For example, when it is determined that the free space of the HDD 37 of the personal computer 2 is 3 GB, the free space of the HDD 55 of the home server 3 is 9 GB, and the free space of the disk 66 of the DVD changer 4 is 3 GB, 5 GB to be moved to that free space Proportionately distribute data. That is, 1 GB is calculated for the personal computer 2, 3 GB for the home server 3, and 1 GB for the DVD changer 4.
[0031]
As described above, the data may be distributed in proportion to the free capacity of each device, but the data distribution may be calculated by another calculation method, or the data is preferentially moved to a predetermined device. You may do it. For example, in a home, when devices owned by each family member are connected to one bus, it is possible to set in advance so that data is preferentially moved to a dedicated device.
[0032]
In step S3, after calculating (determining) the data distribution, the CPU 11 moves the 5 GB data recorded in the HDD 20 based on the determination. At this time, the moved data and the information on the destination of the data are associated with each other and recorded in the HDD 20. This information is recorded in a management information area other than the recording area provided in the HDD 20. That is, in the management information area, the destination device name of the moved program program and the file name in the device are sequentially stored (FIG. 5).
[0033]
FIG. 5 is a diagram for explaining the management information stored in the management information area provided in the HDD 20. In the example of FIG. 5, data (management information) of the home server 3 and the file name of the file 10 is stored for the program A, and the device name is the personal computer 2 and the file name for the program B. The data of the file 100 is stored, and for the program C, the data of the DVD changer 4 with the device name and the file 250 with the file name is stored.
[0034]
That is, the program A is recorded in the file 10 of the home server 3, the program B is recorded in the file 100 of the personal computer 2, and the program C is recorded in the file 250 of the DVD changer 4.
[0035]
The CPU 11 can also divide and record one program program on recording media of a plurality of devices. In that case, in step S3, the CPU 11 calculates the distribution of data, and on the basis of the distribution, the movement destination (recording destination) of the next program data subsequent to the rear end portion of the divided program program data. Information related to the management information is recorded in the management information area of the HDD 20. That is, in the management information area, the device name of the program program, the file name in the device name, the destination device name after the program program, and the file name in the device name are sequentially stored (FIG. 6).
[0036]
FIG. 6 is a diagram illustrating another example of management information stored in the management information area provided in the HDD 20.
[0037]
In the example of FIG. 6A, with respect to the divided program A, the first entry has “start” (or “Start”) indicating the first divided data. The device name is the home server 3, the file name is the file 10, the device name of the post data is the personal computer 2, and the file name is the data of the file 5 (for simplicity, the device name of the post data and The file name is shown only with a symbol). The second entry stores data of the personal computer 2 as the device name, the file 5 as the file name, the DVD changer 4 as the device name of the subsequent data, and the file 3 as the file name. The third entry stores “end” (or “End”), which means the last divided data, and the data of the device name DVD changer 4 and file name file 3. .
[0038]
In the example of FIG. 6B, for the divided program A, in the first entry, the device name is the home server 3, the file name is the file 10, and the device name of the previous data is Start (divided). Data (management information) in which the device name of the subsequent data is the personal computer 2 and the file name is the file 5 is stored. In the second entry, the device name is the personal computer 2, the file name is the file 5, the device name of the previous data is the home server 3, the file name is the file 10, and the device name of the subsequent data is the DVD changer 4. The data of the file whose file name is file 3 is stored. In the third entry, the device name is the DVD changer 4, the file name is the file 3, the previous data device name is the personal computer 2, the file name is the file 5, and the subsequent data device name is End ( Data (which means the last data of the divided data) is stored.
[0039]
That is, the divided program A is recorded first in the file 10 of the home server 3, secondly in the file 5 of the personal computer 2, and thirdly in the DVD changer 4. Recorded in file 3.
[0040]
In the example of FIG. 6A, the capacity of the management information area can be minimized by storing only the data movement destination following the divided data as the management information. In the example of FIG. 6B, the search for the divided data is facilitated by storing the data destinations before and after the divided data as management information.
[0041]
As described above, when one program program is recorded on a plurality of devices, the destination device name before and after the divided data and the file name in the device name are stored in the management information area of the HDD 20 in the video recorder 5. By storing the management information (FIG. 6), the divided data is reproduced without losing continuity based on the management information.
[0042]
Furthermore, another example in which one program program is divided and recorded on recording media of a plurality of devices will be described. In this example, the CPU 11 calculates the distribution of program program data, and on the basis of the distribution, each divided program program data is associated with each device by associating information on the recording destination of the subsequent program program data. Record.
[0043]
That is, in the example of FIG. 6 described above, the first program program data of the divided program A is recorded in the file 10 of the home server 3 in the management information area of the HDD 20 of the video recorder 5. Data indicating that (management information) is stored. In the file 10 of the home server 3, the first program program data of the divided program A and the second program program data following the first program program data are stored in the file 5 of the personal computer 2. Data indicating recording is recorded. In the file 5 of the personal computer 2, the third program program data following the second program program data is stored in the file 3 of the DVD changer 4 together with the second program program data of the divided program A. Data indicating that it is recorded is recorded. Then, in the file 3 of the DVD changer 4, the third program data of the divided program A is recorded together with data indicating that there is no subsequent program program data.
[0044]
Therefore, when reproducing the program A, the CPU 11 refers to the management information area of the HDD 20 of the video recorder 5 to find that the program A is recorded in the file 10 of the home server 3. To instruct the file 10 to be reproduced. Based on the command from the CPU 11, the home server 3 reproduces the first program program data recorded in the file 10 and confirms that the subsequent program program data is recorded in the file 5 of the personal computer 2. Recognize and instruct the personal computer 2 to reproduce the file 5 after the reproduction of the first program program data is completed.
[0045]
The personal computer 2 reproduces the second program program data recorded in the file 5 based on a command from the home server 3, and the subsequent program program data is recorded in the file 3 of the DVD changer 4. Recognizing this, the DVD changer 4 is instructed to reproduce the file 3 after the reproduction of the second program program data is completed. The DVD changer 4 reproduces the third program program data recorded in the file 3 based on a command from the personal computer 2 and recognizes that there is no subsequent program program data. After the program data has been reproduced, the reproduction process is terminated.
[0046]
In this example, as shown in FIG. 6A, the destination of program program data after the second program A of program A is sequentially recognized by each device as it is played back, and is stored in the management information area of HDD 20. Since only the data indicating that the first (first) program program data is stored in the file 10 of the home server 3 needs to be stored, the capacity of the management information area of the HDD 20 is This can be further suppressed from the example.
[0047]
As described above, when the free space of the HDD 20 becomes small, the user moves the recorded data to the recording medium of another device connected to the network, so that the user does not pay attention to the capacity of the HDD 20. In addition, a desired program can be recorded (recorded). Further, by moving the data of the HDD 20 to another device, the HDD 20 of the video recorder 5 can always ensure a predetermined recording capacity. Furthermore, even if the capacity of the HDD 20 provided in advance is small, a desired program can be recorded without any problem. Employing this method is particularly effective when recording must be performed immediately, such as when recording is started by manual operation, in which the time until recording starts is shorter than with reserved recording.
[0048]
A process for reproducing the recorded program in this way will be described with reference to the flowchart of FIG. In step S11, the CPU 11 of the video recorder 5 performs predetermined processing by the user, and when an instruction to reproduce a desired program is given, in step S12, the device in which the program instructed to reproduce is recorded is investigated. . In this investigation, when data is moved from the HDD 20 to another device, the movement information is associated with the moved data, and the management information recorded in the management information area of the HDD 20 (FIG. 5 or FIG. 6). Based on. Then, based on the management information, in step S13, the CPU 11 reads data.
[0049]
Based on the investigation result, data read from a predetermined device is input to the IEEE1394 interface 14 of the video recorder 5, decoded by the decoder 17, and output to a display device (not shown). Or when outputting to the television receiver 1 which has a decoding function, it outputs without going through the decoder 17. FIG. In step S14, the device that has received the output data performs reproduction. The processes in steps S13 and S14 are repeated until the instructed program is terminated or until reproduction is stopped by an instruction from the user.
[0050]
As described above, if the recorded data can be recorded on the recording medium of the device connected to the network, the video recorder 5 itself does not need to include the recording medium (HDD 20). That is, as shown in FIG. 8, a configuration like a video recording controller 81 in which the HDD 20 is removed from the video recorder 5 shown in FIG.
[0051]
Next, the recording operation in the video recording controller 81 as shown in FIG. 8 will be described with reference to the flowchart of FIG.
[0052]
In step S21, when recording is instructed by the user, the CPU 11 of the video recording controller 81 proceeds to step S22, and the CPU 11 determines whether or not it is an instruction for recording reservation. In the case of a recording instruction, there are a case where an instruction is given to record a program received at the specified time point, and a case where a recording reservation for a desired program is instructed. If it is determined in step S22 that the instruction is not a recording reservation instruction, that is, if a recording of a program received at the time when the recording instruction is given, the process proceeds to step S23, and the CPU 11 Recording of the program being received is started on the recording medium.
[0053]
Since the video recording controller 81 does not include a recording medium, the encoded data is output from the tuner 21 to the encoder 16, and the encoded data is recorded on a recording medium of a device set in advance as a recording destination via the IEEE1394 interface 14, for example, And output to the HDD 55 of the home server 3. The device set as the recording destination may be set by the user, or the video recording controller 81 selects the recording medium with the largest free space from the recording media of the devices connected to the network. Anyway.
[0054]
On the other hand, if it is determined in step S22 that the instruction is a recording reservation, in step S24, the CPU 11 calculates the data amount of the program reserved for recording.
[0055]
For example, it is assumed that the recording time is set to 1 hour 30 minutes from 9:00 pm to 10:30 pm, and the recording image quality is set to the high image quality recording mode (recording of about 11 Mbit / sec is possible with MPEG2). The necessary disk capacity is calculated from the set recording time and recording image quality. That is, in this example, (1 hour 30 minutes =) 5400 seconds · 11 Mbit / second = 59400 Mbit = 7.425 GB. In this way, when a recording reservation is made, it is possible to calculate how much recording capacity is required to record the program. When the calculation is completed, in step S25, the video recording controller 81 is connected to the network, and the free capacity of each recording medium of the device provided with the recording medium is checked. This process is the same as the process in step S2 of the flowchart of FIG. 4 described above.
[0056]
In step S26, the CPU 11 calculates data distribution based on the investigation result in step S25. The process in step S26 is performed similarly to the process in step S3 of FIG. When the data distribution in step S26 is calculated, the process proceeds to step S27, and the CPU 11 secures a recording (recording) area in the recording media of each device according to the calculated data distribution. That is, if the calculation result in step S26 is calculated to record 1 GB in the HDD 37 of the personal computer 2 and 2 GB in the HDD 55 of the home server 3, the areas are set so that no other data is recorded in those recording areas. Secure.
[0057]
As a method for securing this area, for example, invalid data is recorded in a storage area corresponding to the recording medium (HDD 37, 55, disk 66) of each device (personal computer 2 to DVD changer 4). However, the area is secured in such a manner that there is no free area corresponding to that apparently. In this case, the video recording controller 81 stores, in the RAM 13, area information indicating which recording medium has a free area reserved in the RAM 13, so that when the reserved time arrives, the stored area Based on the information, recording on the recording medium of each device is performed. Alternatively, when a function for securing an area is provided for the controller of the recording medium of each device, the area is secured using that function. Recording (video recording) is started at the reserved date and time in the recording area secured in this way.
[0058]
The program recorded in this way is reproduced as already described with reference to the flowchart of FIG. Note that the video recording controller 81 shown in FIG. 8 is provided with a recording medium for recording information indicating the relationship between the recording destination and the recorded data in place of the HDD 20, so that the video recorder shown in FIG. 5 can be performed. In this case, the video recording controller 81 may be provided with a storage medium having a smaller capacity than the HDD 20.
[0059]
Next, another example of the recording operation in the video recorder 5 or the video recording controller 81 will be described with reference to FIGS. Here, the video recorder 5 is taken as an example and will be described below.
[0060]
In step S31, when recording is instructed by the user, the CPU 11 of the video recorder 5 proceeds to step S32, and the CPU 11 determines whether or not the instruction is a recording reservation instruction, which is a recording reservation instruction. If it is determined, the process proceeds to step S33, and the CPU 11 calculates the data amount of the program reserved for recording based on the recording time and the recording image quality (for example, high image quality recording mode). For example, it is assumed that the calculated data capacity required for recording is 7.425 GB. In step S34, the CPU 11 compares the data capacity calculated in step S33 (in this case, 7.425 GB) with the recordable area of the HDD 20. For example, assume that the capacity of the HDD 20 is 8 GB, 5 GB is in use, and the remaining 3 GB is a recordable area.
[0061]
In step S35, the CPU 11 determines whether the reserved program can be recorded in the recordable area of the HDD 20, that is, the recordable area (3 GB in this case) of the HDD 20 is the necessary data capacity calculated in the process of step S33. (In this case, 7.425 GB) is determined, and if it is determined that the reserved program can be recorded in the recordable area of the HDD 20, the process proceeds to step S36, the reservation is completed, and the process ends. Is done.
[0062]
In step S35, the reserved program is not recordable in the recordable area of the HDD 20, that is, the necessary data amount calculated in the process of step S33 from the recordable area of the HDD 20 (in this case, 3 GB) (in this case, 7 .425GB) is determined to be large, the process proceeds to step S37. In step S37, the video recorder 5 is connected to the network and a device having a recording medium is investigated.
[0063]
In step S38, the CPU 11 determines whether there is a device capable of recording, that is, whether there is a device equipped with a recording medium. If it is determined that there is no device capable of recording, the process proceeds to step S39. After displaying a message for giving a warning to the user (for example, “no recordable device”) on a monitor (not shown), the process is terminated.
[0064]
If it is determined in step S38 that there is a recordable device, the process proceeds to step S40, and the CPU 11 detects the recordable area (empty area) of the recordable device found in the process of step S38. To do. In step S41, the CPU 11 determines whether there is a recordable area necessary for data saving from the recordable area of the device detected in the process of step S40, and if there is a recordable area necessary for data saving. If it is determined, the process proceeds to step S42. Here, it is assumed that the free capacity of the HDD 37 of the personal computer 2 is 3 GB, the free capacity of the HDD 55 of the home server 3 is 9 GB, and the free capacity of the disk 66 of the DVD changer 4 is 3 GB.
[0065]
In step S42, the CPU 11 calculates a data distribution based on the recordable area detected in the process of step S40. This process is performed similarly to the process in step S3 of FIG. 4 or step S26 of FIG. In step S43, the CPU 11 secures a recording (recording) area on the recording medium of each device based on the distribution of data calculated in the process of step S42.
[0066]
If it is determined in step S41 that there is no recordable area necessary for data saving, the process proceeds to step S44, and the CPU 11 displays a message for giving a warning to the user (for example, “recordable area cannot be secured”). The information is displayed on a monitor (not shown) and the process proceeds to step S45. In step S45, the CPU 11 determines whether or not the image quality has been changed by the user (for example, changed from the high image quality recording mode to the medium image quality recording mode). If the CPU 11 determines that the image quality has been changed, the process returns to step S33. Repeat the subsequent processing. If it is determined in step S45 that the image quality has not been changed by the user, the process ends.
[0067]
If it is determined in step S32 that the instruction is not for recording reservation, that is, if manual recording is instructed, the process proceeds to step S46, and the CPU 11 determines whether or not the recordable area of the HDD 20 is greater than or equal to a predetermined amount. If it is determined that there is a predetermined amount or more, the process proceeds to step S47, where the HDD 20 starts recording the received program. Note that the value of the predetermined amount is determined based on a predetermined criterion such as a value corresponding to half the recording area or 10 minutes in the high-quality video recording mode.
[0068]
In step S48, the CPU 11 determines whether or not the remaining capacity of the HDD 20 has become equal to or less than the predetermined amount. If it is determined, the process proceeds to step S49, where it is determined whether or not the recording is ended. If it is determined that the recording is ended, the process is ended. If it is determined in step S49 that the recording has not ended, the process proceeds to step S50, and the CPU 11 continues recording, returns to step S48, and repeats the above-described processing.
[0069]
If it is determined in step S48 that the remaining capacity of the HDD 20 has become equal to or less than the predetermined amount, the process proceeds to step S51, where the video recorder 5 is connected to the network and a device having a recording medium is investigated. In step S52, the CPU 11 determines whether there is a device capable of recording, that is, whether there is a device equipped with a recording medium. If it is determined that there is no device capable of recording, the process proceeds to step S53. After displaying a message for giving a warning to the user (for example, “no recordable device”) on a monitor (not shown), the process is terminated.
[0070]
If it is determined in step S52 that there is a recordable device, the process proceeds to step S54, and the CPU 11 detects the recordable area (free space) of the recording medium of the recordable device found in the process of step S52. To do. In step S55, the CPU 11 starts recording the received program in the recordable area detected in the process of step S54.
[0071]
In step S56, the CPU 11 determines whether or not the recordable area of the recording medium is exhausted. If it is determined that the recordable area of the recording medium is exhausted, the CPU 11 returns to step S51 and repeats the above-described processing. If it is determined in step S56 that the recordable area of the recording medium has not yet disappeared, the process proceeds to step S57, where it is determined whether the recording is finished or not. If it is determined that the recording is not finished, the process proceeds to step S58. move on. In step S58, the CPU 11 continues recording, returns to step S56, and repeats the above-described processing. If it is determined in step S57 that the recording is finished, the process is finished.
[0072]
In the above description, an example in which the present invention is applied to a video recorder has been described. However, the present invention can also be applied to devices other than the video recorder.
[0073]
The series of processes described above can be executed by hardware, but can also be executed by software. When a series of processing is executed by software, a program constituting the software executes various functions by installing a computer incorporated in dedicated hardware or various programs. For example, the program is installed in a general-purpose personal computer from the program storage medium.
[0074]
As shown in FIG. 2 or FIG. 8, a program storage medium that stores a program that is installed in a computer and can be executed by the computer includes a magnetic disk 101 (including a floppy disk), an optical disk 102 (CD-ROM ( Package media consisting of a compact disk-read only memory (DVD) (including digital versatile disk), magneto-optical disk 103 (including MD (mini-disk)), or semiconductor memory 104, or a program is temporarily or The ROM 13 is stored permanently, the hard disk of the HDD 20, and the like. The program is stored in the program storage medium using a wired or wireless communication medium such as a local area network, the Internet, or digital satellite broadcasting via an interface such as a router or a modem as necessary.
[0075]
In the present specification, the step of describing the program stored in the program storage medium is not limited to the processing performed in chronological order according to the described order, but is not necessarily performed in chronological order. Or the process performed separately is also included.
[0076]
【The invention's effect】
  According to the present invention,It is possible to effectively use recording media connected to the network.
[Brief description of the drawings]
FIG. 1 is a diagram illustrating a connection relationship of devices including a video recorder to which the present invention is applied.
FIG. 2 is a block diagram showing an internal structure of the video recorder 5 of FIG.
3 is a block diagram showing the internal configuration of a personal computer 2, a home server 3, and a DVD changer 4. FIG.
FIG. 4 is a flowchart for explaining processing when moving data recorded on the HDD 20;
FIG. 5 is a diagram for explaining management information stored in a management information recording area of the HDD 20;
6 is a diagram for explaining another example of management information stored in a management information recording area of the HDD 20. FIG.
FIG. 7 is a flowchart illustrating playback processing.
FIG. 8 is a block diagram showing another internal structure of the video recorder 5 of FIG.
FIG. 9 is a flowchart illustrating a recording process.
FIG. 10 is a flowchart illustrating another example of recording processing.
FIG. 11 is a flowchart following FIG. 10;
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Television receiver, 2 Personal computer, 3 Home server, 4 DVD changer, 5 Video recorder, 6 IEEE1394 bus, 11 CPU, 14 IEEE1394 interface, 16 Encoder, 17 Decoder, 20 HDD, 21 Tuner, 81 Video recording controller

Claims (3)

  Recording means for recording content;
  Investigate the capacity of each recordable area of a plurality of recording devices connected via a network, and the entire data of one content to be recorded recorded in the recording means so as to be proportional to the capacity of the recordable area Recording control means for moving and recording the divided data to the respective recording devices,
  As the information about the first data among the data obtained by dividing the entire data of the one content to be moved in an area provided in the recording means separately from the area for recording the content, the data is the first data Information indicating that, the name of the recording device that records the first data, the file name of the file that stores the first data, and the recording device that records the data following the first data And the name of the recording device that records the data other than the first and last data as information relating to data other than the first and last data. A file name of a file storing data other than the first and last data, and data following the data other than the first and last data are recorded. Recording the name of the recording device and the file name of the file that stores the data following the data other than the first and last, as information about the last data, information indicating that the data is the last data, A management unit that records the name of the recording device that records the last data and the file name of the file that stores the last data, and manages the movement destination of each divided data;
  An information processing apparatus comprising:   The content of the recordable area of each of a plurality of recording devices connected via the network is investigated, and one content to be moved recorded in the recording means for recording the content so as to be proportional to the capacity of the recordable area The entire data is divided, the divided data is moved to the respective recording devices and recorded,
  As the information about the first data among the data obtained by dividing the entire data of the one content to be moved in an area provided in the recording means separately from the area for recording the content, the data is the first data Information indicating that, the name of the recording device that records the first data, the file name of the file that stores the first data, and the recording device that records the data following the first data And the name of the recording device that records the data other than the first and last data as information relating to data other than the first and last data. A file name of a file storing data other than the first and last data, and data following the data other than the first and last data are recorded. Recording the name of the recording device and the file name of the file that stores the data following the data other than the first and last, as information about the last data, information indicating that the data is the last data, Records the name of the recording device that records the last data and the file name of the file that stores the last data, and manages the movement destination of each divided data
  An information processing method including steps.   The content of the recordable area of each of a plurality of recording devices connected via the network is investigated, and one content to be moved recorded in the recording means for recording the content so as to be proportional to the capacity of the recordable area The entire data is divided, the divided data is moved to the respective recording devices and recorded,
  As the information about the first data among the data obtained by dividing the entire data of the one content to be moved in an area provided in the recording means separately from the area for recording the content, the data is the first data Information indicating that, the name of the recording device that records the first data, the file name of the file that stores the first data, and the recording device that records the data following the first data And the name of the recording device that records the data other than the first and last data as information relating to data other than the first and last data. A file name of a file storing data other than the first and last data, and data following the data other than the first and last data are recorded. Recording the name of the recording device and the file name of the file that stores the data following the data other than the first and last, as information about the last data, information indicating that the data is the last data, Records the name of the recording device that records the last data and the file name of the file that stores the last data, and manages the movement destination of each divided data
  A program storage medium storing a program for causing a computer to execute processing including steps.

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