KR100462620B1 - Methods for storing and recovering data in image processing apparatus having hard disk drive, and the image processing apparatus for processing the methods - Google Patents

Abstract

Disclosed are data storage and recovery methods of an image processing apparatus having a hard disk drive and an image processing apparatus performing the methods. The method may include determining whether to store data on a hard disk drive, storing data on the hard disk drive if it is determined that the data is to be stored, and a situation in which data is stored on the hard disk drive. Checking as a table and storing it separately at predetermined intervals, judging whether the storage of data has ended, and if determining that the storage of data has not been ended, proceeding to storing the data, and determining that the storage of data has ended And updating the second file allocation table by matching the second file allocation table representing the state of the hard disk drive with the first file allocation table, and deleting the separately stored first file allocation table. . Therefore, it is possible to recover from the loss of data that may occur due to unintended data storage interruption that may occur during data storage in an image processing apparatus having a hard disk drive, for example, a power failure such as a power failure. This has the effect of allowing data to be stored stably with minimal loss.

Description

Methods for storing and recovering data in an image processing apparatus having a hard disk drive and an image processing apparatus for performing the methods

The present invention relates to an image processing apparatus having a hard disk drive (HDD), and more particularly, to data storage and recovery methods of an image processing apparatus having a hard disk drive and an image processing apparatus for performing the methods. .

An image processing apparatus having a hard disk drive is a television broadcast recording apparatus having an HDD. Here, the television broadcasting recording apparatus may be, for example, an NTSC analog television broadcasting recording apparatus or a digital television broadcasting recording apparatus.

In a conventional image processing apparatus that uses a hard disk drive to store data, data stored on the hard disk drive is lost from the beginning unlike an analog video cassette recorder when the power supply is cut off due to a power failure. There is a problem that can be. This phenomenon is caused by the characteristics of the hard disk drive. That is, data storage is completed only when a file allocation table (FAT), which is a table for file allocation, is configured from the time when data is stored on the hard disk drive until the storage is completed. Therefore, if the power is cut off while storing data, the file allocation table as well as the stored data may be lost because the file allocation table of the hard disk drive containing the storage list of the entire data is not updated.

SUMMARY OF THE INVENTION The first technical problem to be solved by the present invention is to store data in an image processing apparatus capable of storing data while periodically checking and updating a situation of data stored in the hard disk drive in an image processing apparatus having a hard disk drive. To provide a storage method.

A second technical object of the present invention is to provide an image processing apparatus having a hard disk drive and capable of storing data while periodically checking and updating a situation of data stored in the hard disk drive.

Another object of the present invention is to provide a data recovery method of an image processing apparatus having a hard disk drive capable of maximally recovering lost data while storing data using the data storage method.

A fourth technical object of the present invention is to provide an image processing apparatus having a hard disk drive and capable of recovering lost data as much as possible while storing data using the data storage method.

1 is a flowchart for explaining a data storage method of an image processing apparatus having a hard disk drive according to the present invention.

2 is a flowchart for explaining a data recovery method according to the present invention performed in an image processing apparatus having a hard disk drive.

3 is a block diagram of an image processing apparatus according to the present invention for performing the above-described data storage and recovery methods.

In order to achieve the first object, a data storage method of an image processing apparatus according to the present invention having a hard disk drive and storing data includes: (a) determining whether to store the data on the hard disk drive; If it is determined that the data is to be stored, storing the data on the hard disk drive; and checking the situation in which the data is stored on the hard disk drive as a first file allocation table and storing the data separately every predetermined period ( c) determining whether the storage of the data has ended, and if it is determined that the storage of the data has not been ended, proceeding to the step (b) and if the storage of the data is ended, A second file allocation table indicating the state of the hard disk drive and the first file allocation table Matching was preferable consisting of (f) wherein the step 2 (e) the step of updating the file allocation table, and to delete the first file allocation table of the stored separately.

In order to achieve the second object, the image processing apparatus according to the present invention having a hard disk drive and storing data includes a storage unit for separately storing a first file allocation table and whether storage of data is required in the hard disk drive. Generate a first control signal in response to the inspected result, check a situation in which the data is stored in the hard disk drive, and store the first file allocation table generated by using the checked result at predetermined intervals. Storing the data in the storage unit, checking whether the storage of the data is completed, outputting the first file allocation table read out from the storage unit to the hard disk drive in response to a second control signal that is a result of the checking; The hard disk configured to clear the first file allocation table in response to a signal; The hard drive stores the data in response to the first control signal, updates the second file allocation table by matching the first file allocation table input from the host with a second file allocation table indicating its status. And generate the third control signal in response to the updated result.

In order to achieve the third object, the data recovery method according to the present invention of the image processing apparatus having a hard disk drive for recovering the data in the image processing apparatus comprises: determining whether the first file allocation table stored separately exists; And if it is determined that the separately stored first file allocation table exists, notifying that the separately stored first file allocation table exists, determining whether recovery of the data is required, and restoring the data. Is determined that the second file allocation table is updated by using the separately stored first file allocation table, and when it is determined that the recovery of the data is not required, the first stored file allocation is performed. Preferably, the table is erased.

In order to achieve the fourth task, the image processing apparatus according to the present invention for achieving the second task is further configured in response to a fourth control signal, the notification unit notifying that the separately stored first file allocation table exists. The host checks whether the first file allocation table stored separately in the storage unit exists and generates the fourth control signal in response to the checked result, and checks whether the recovery of the data is required and the checked result. Is output as a fifth control signal, the table erasing unit erases the first file allocation table existing in the storage unit in response to the fifth control signal, and the table reading unit stores the storage in response to the fifth control signal. Outputting the first file allocation table read from the data to the hard disk drive, and the hard disk drive Using a first file allocation table to which the present input from chulbu table dock is preferable to update the second file allocation table.

Hereinafter, a data storage method of an image processing apparatus having a hard disk drive according to the present invention will be described with reference to the accompanying drawings.

1 is a flowchart illustrating a data storage method of an image processing apparatus having a hard disk drive according to an embodiment of the present invention, which includes storing data on HDDs (steps 10 to 16) and informing a HDD of a stored situation. Step (18th and 20th steps).

The data storage method according to the present invention is performed in an image processing apparatus having a hard disk drive. First, the data storage method determines whether to store data in the hard disk drive (step 10). That is, it is determined whether the user requests to store data on the hard disk drive. Here, the data may be a program such as a television broadcast.

If it is determined that data is stored in the hard disk drive, the data is stored in the hard disk drive (step 12).

After the twelfth step, a situation in which data is stored in the hard disk drive is checked and stored separately as a first file allocation table at predetermined intervals (step 14). Here, the first file allocation table may include a capacity in which data is stored in the hard disk drive, an address of the hard disk drive, and the like.

After the fourteenth step, it is determined whether or not the storage of the data has ended (step 16). That is, it is determined whether the user requests to terminate the operation of storing data on the hard disk drive or whether all the data required by the user are stored on the hard disk drive.

If it is determined that the storage of data on the hard disk drive has not been completed, the process proceeds to step 12. However, if it is determined that the storage of the data on the hard disk drive is completed, the second file allocation table is updated by matching the first file allocation table which is updated and stored separately from the second file allocation table indicating the state of the hard disk drive. Step 18). That is, as described above, the contents of the second file allocation table are updated by using the contents of the first file allocation table separately generated at predetermined intervals.

After the eighteenth step, the separately stored first file allocation table is deleted (step 20).

Hereinafter, a data recovery method of an image processing apparatus having a hard disk drive according to the present invention will be described with reference to the accompanying drawings.

FIG. 2 is a flowchart illustrating a data recovery method according to the present invention performed in an image processing apparatus having a hard disk drive, and notifying whether a separately stored first file allocation table exists (40th and 42nd steps). And recovering the data according to the data recovery request (44 th-48 th steps).

When data is stored in the image processing apparatus by the data storage method illustrated in FIG. 1, when the data storage operation is unintentionally interrupted in a situation where all the data is not stored, the data that was being stored due to the interruption of the data storage operation In order to recover the loss of the file allocation table, the data recovery method according to the present invention recovers data as follows.

First, the data recovery method according to the present invention determines whether a separately stored first file allocation table exists (step 40). Here, step 40 is performed in an initial state. That is, after power is not applied from the image processing apparatus and then applied, when the image processing apparatus is booted, step 40 may be performed.

If it is determined that the separately stored first file allocation table does not exist, i.e., it is determined that the storing operation is not interrupted due to an unintended situation such as a power failure while storing data, the present invention shown in FIG. Terminate the data recovery method. However, if it is determined that the separately stored first file allocation table exists, that is, if it is determined that the data is interrupted due to an unintended situation while storing data, the user is informed that the separately stored first file allocation table exists. step). Here, the message indicating that the first file allocation table stored separately may be known to the user through, for example, an on-screen display.

After step 42, it is determined whether data recovery is required (step 44). That is, it is determined whether the user has requested to recover the data after recognizing that the first file allocation table stored separately is present through the on-screen displayed message.

If it is determined that the recovery of data is required, the second file allocation table is updated using the separately stored first file allocation table (step 46). That is, the contents of the second file allocation table of the hard disk driver are updated by using the contents of the first file allocation table stored separately. At this time, as described above, since the first file allocation table is updated in units of predetermined periods, data stored for a period until the storage operation is stopped can be restored.

However, if it is determined that the recovery of the data is not required, the separately stored first file allocation table is deleted (step 48).

Hereinafter, a configuration and an operation of an image processing apparatus having a hard disk drive according to the present invention for performing the above-described data storage and recovery methods will be described with reference to the accompanying drawings.

FIG. 3 is a block diagram of an image processing apparatus according to the present invention for performing the above-described data storage and recovery methods, wherein a hard disk drive (HDD) 60, a storage unit 62, a host 64, and a notification unit 66. It is composed of

The storage unit 62 shown in FIG. 3 serves to separately store the first file allocation table. To this end, the storage 62 may be embodied as an electrically erasable and programmable ROM (EEPROM).

At this time, the host 64 performing the data storage method shown in FIG. 1 checks whether the data storage is required in the hard disk drive 60 and generates a first control signal C1 in response to the checked result. And outputs the generated first control signal C1 to the hard disk drive 60, checks a state in which data is stored in the hard disk drive 60, and creates a first file allocation table generated using the checked results. The storage unit 60 stores the first file allocation table read from the storage unit 60 in response to the second control signal C2, which is stored in the storage unit 60 at predetermined intervals, and checks whether data storage is completed. It outputs to the disk drive 60 and clears the first file allocation table in response to the third control signal C3 input from the hard disk drive 60.

The data transfer between the host 64 and the hard disk drive 60 may be performed by direct memory access (DMA) or ultra DMA (UDMA).

According to an embodiment of the present invention, as shown in FIG. 3, the host 64 includes a storage request checker 80, a table eraser 82, a status checker 84, a table readout 86, and the like. The storage end check unit 88 may be implemented.

Here, the storage request check unit 80 performing the tenth step checks whether data is required to be stored in the hard disk drive 60, and uses the checked result as the first control signal C1 to check the hard disk drive 60. Will output For example, the storage request checker 80 may check whether the storage request signal is provided by the user through the input terminal IN1, and generate the checked result as the first control signal C1. Here, the storage request signal may be generated from operation keys (not shown) operated by a user who requests to store data in the hard disk drive 60.

In order to perform the twelfth step, the hard disk drive 60 inputs and stores data from the outside through the input terminal IN2 in response to the first control signal C1 input from the host 64. For example, when the hard disk drive 60 recognizes that the user requests to store data in the hard disk drive 60 through the first control signal C1 input from the host 64, the hard disk drive 60 inputs and stores the data. .

In order to perform the fourteenth step, the status checker 84 checks a situation in which data is stored in the hard disk drive 60, generates a first file allocation table using the checked situation, and generates the first generated file. The file allocation table is output to the storage unit 62 at predetermined intervals. For example, in order to check a situation in which data is stored in the hard disk drive 60, the status check unit 84 reads a second file allocation table of the hard disk drive 60 to check a space for storing data. The start address is determined based on the checked result, and the determined start address is output to the hard disk driver 60. Thus, the hard disk drive 60 stores data from the determined starting address. In this way, the start address, the capacity of the data stored so far, the address where the data is stored, that is, the address change, etc., are configured as the first file allocation table and stored in the storage unit 62. As described above, when the first file allocation table is input to the hard disk drive 60 from the table reader 86 while storing data from the start address, the status checker 84 recognizes that the end of the storage is required. Determine the last address where data is stored. The situation check unit 84 newly reconfigures the first file allocation table using the start address and the last address, and stores the first file allocation table in the storage unit 62. The predetermined period described above may be set, for example, for 10 seconds.

In order to perform the sixteenth step, the storage end inspection unit 88 checks whether the storage of the data on the hard disk drive 60 has ended, and uses the checked result as the second control signal C2 to read the table reading unit 86. Will output For example, the storage end check unit 88 may check whether the end request signal is provided by the user through the input terminal IN3, and generate the checked result as the second control signal C2. Here, the termination request signal may be generated from operation keys (not shown) operated by a user who requests the hard disk drive 60 to terminate the storage of data.

In order to perform the eighteenth step, the table reader 86 reads the first file allocation table read from the storage 62 in response to the second control signal C2 input from the storage end checker 88. The hard disk drive 60 matches the first file allocation table and the second file allocation table inputted from the table reading unit 86, and outputs the matched result to the third control signal C3. The table is output to the table erasing unit 82 as a table. Here, the second file allocation table is stored in the hard disk drive 60 and indicates the state of the hard disk drive 60 itself. For example, when the table reading unit 86 recognizes that the user requests that data storage be terminated through the second control signal C2, the table reading unit 86 reads the first file allocation table from the storage unit 62 to display the hard disk drive 60. )

In order to perform the twentieth step, the table eraser 82 erases the first file allocation table stored in the storage 62 in response to the third control signal C3 input from the hard disk drive 60. For example, when the table eraser 82 recognizes that the update of the second file allocation table is completed in the hard disk drive 60 through the third control signal C3, the table erasing unit 82 does not need the first file allocation table. The first file allocation table stored in the section 62 is deleted.

At this time, in order to perform the data recovery method shown in FIG. 2, the host 64 of the image processing apparatus checks whether a first file allocation table stored separately in the storage unit 62 exists and responds to the checked result. The fourth control signal C4 is generated and output to the notification unit 66, and it is checked whether data recovery is required, and the inspected result is output as the fifth control signal C5.

To this end, according to another embodiment of the present invention, the host 64 may further provide a table check unit 90 and a repair request check unit 92. In order to perform step 40, the table inspecting unit 90 checks whether a first file allocation table stored separately in the storage unit 62 exists, and notifies the inspected result as a fourth control signal C4. Output to (66). In order to perform the 42nd step, the image processing apparatus illustrated in FIG. 3 may further include a notification unit 66. In response to the fourth control signal C4 input from the host 64, the notifying unit 66 notifies the user of the existence of a separately stored first file allocation table through the output terminal OUT. For example, if it is recognized through the fourth control signal C4 that the separately stored first file allocation table exists, the notifying unit 66 notifies the user of the message that the separately stored first file allocation table exists.

In order to perform the 44th step, the recovery request checker 92 checks whether data recovery is required, and uses the checked result as the fifth control signal C5 as the table eraser 82 and the table readout 86. Will be printed respectively. For example, the recovery request checker 92 may check whether the recovery request signal is provided by the user through the input terminal IN4, and generate the checked result as the fifth control signal C5. Here, the recovery request signal may be generated from operation keys (not shown) operated by a user who requests to recover lost data among data to be stored in the hard disk drive 60.

At this time, in order to perform the forty sixth step, the table reader 86 reads the first file allocation table read from the storage 62 in response to the fifth control signal C5 input from the recovery request checker 92. Is output to the hard disk drive 60, and the hard disk drive 60 updates the second file allocation table by using the existing first file allocation table input from the table reading unit 86. For example, when it is recognized that data recovery is required through the fifth control signal C5, the table reading unit 86 reads the first file allocation table from the storage unit 62 and outputs the first file allocation table to the hard disk drive 60. .

In order to perform the forty-eighth step, the table eraser 82 erases the first file allocation table existing in the storage 62 in response to the fifth control signal C5 input from the recovery request checker 92. For example, when it is recognized that the data is not to be recovered through the fifth control signal C5, the table eraser 82 controls the storage 62 to erase the first file allocation table.

As described above, the data storage and recovery methods of the image processing apparatus having the hard disk drive and the image processing apparatus performing the methods according to the present invention are generated during the data storage in the image processing apparatus having the hard disk drive. Possible unintended data storage interruption It is possible to recover the loss of data that may occur due to the interruption of power supply, such as a power failure, so that the data can be stored stably while minimizing the loss. .

Claims (8)

In the data storage method of the image processing apparatus having a hard disk drive, (a) determining whether to store data on the hard disk drive; (b) if it is determined that the data is to be stored, storing the data on the hard disk drive; (c) checking a situation in which the data is stored in the hard disk drive as a first file allocation table and storing the data separately for each predetermined period; (d) determining whether the storage of the data has ended, and if it is determined that the storage of the data has not ended, proceeding to the step (b); (e) updating the second file allocation table by matching the first file allocation table with a second file allocation table indicating a state of the hard disk drive when it is determined that the storage of the data is finished; And and (f) erasing said separately stored first file allocation table. A data recovery method of an image processing apparatus having a hard disk drive for recovering the data stored by the data storage method of claim 1, (g) determining whether the first file allocation table stored separately exists; (h) if it is determined that the separately stored first file allocation table exists, indicating that the separately stored first file allocation table exists; (i) determining whether recovery of the data is required; (j) if it is determined that recovery of the data is required, updating the second file allocation table using the separately stored first file allocation table; And and (k) clearing the separately stored first file allocation table if it is determined that the recovery of the data is not required. The method of claim 2, wherein step (g) is performed in an initial state. An image processing apparatus having a hard disk drive, A storage unit that separately stores the first file allocation table; And Check whether the storage of the data is required in the hard disk drive, generate a first control signal in response to the result of the check, check the situation in which the data is stored in the hard disk drive, and generate using the checked result. The first file allocation table is stored in the storage unit every predetermined period, and the first file allocation table read out from the storage unit in response to a second control signal which is a result of checking and checking whether or not the storage of the data is finished is checked. A host for outputting a to the hard disk drive and clearing the first file allocation table in response to a third control signal; The hard disk drive stores the data in response to the first control signal, matches the first file allocation table input from the host with a second file allocation table indicating its state, and thereby the second file allocation table. And generating the third control signal in response to the updated result. The host is A storage request checker which checks whether the data is required to be stored in the hard disk drive and outputs the checked result as the first control signal; A status checker which checks a state in which the data is stored in the hard disk drive, generates a first file allocation table, and outputs the first file allocation table to the storage unit every predetermined period; A storage end inspection unit which checks whether or not the storage of the data is terminated in the hard disk drive and outputs the result of the inspection as the second control signal; A table reading unit outputting the first file allocation table read from the storage unit to the hard disk drive in response to the second control signal; And A table erasing unit which erases the first file allocation table stored in the storage unit in response to the third control signal, And the hard disk drive matches the first file allocation table and the second file allocation table inputted from the table reading unit. delete The image processing apparatus of claim 4, wherein the storage unit is an electrically erasable programmable ROM. The image processing apparatus of claim 4, wherein the image processing apparatus is In response to a fourth control signal, further comprising a notification unit notifying that the separately stored first file allocation table exists; The host checks whether the first file allocation table stored separately in the storage unit exists, generates the fourth control signal in response to the checked result, checks whether the recovery of the data is required, and checks the checked result. Output as a fifth control signal, The table eraser deletes a first file allocation table present in the storage in response to the fifth control signal, The table reading unit outputs the first file allocation table read from the storage unit to the hard disk drive in response to the fifth control signal, And the hard disk drive updates the second file allocation table by using the existing first file allocation table inputted from the table reading unit. 8. The method of claim 7, wherein the host is A table checking unit which checks whether the first file allocation table stored separately in the storage unit exists and outputs the checked result as the fourth control signal; And And a recovery request checker for checking whether the data is to be recovered and outputting the checked result as the fifth control signal.