JP3697820B2 - Image compression recording device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an image compression recording apparatus, and more particularly to an image compression recording apparatus that compresses and encodes an image or the like taken with a digital still camera and records the image on a recording medium such as a semiconductor memory.
[0002]
[Prior art]
Conventionally, in order to reduce the amount of image data and efficiently record an image on a recording medium in a digital still camera or the like, an image signal is compressed and recorded. A method called JPEG compression that combines DCT (Discrete Cosine Transfer) and Huffman coding is widely used.
[0003]
Here, in the JPEG compression, a fixed length method for changing the compression parameter (quantization table or scale factor) for changing the capacity of the compressed image file for each image in order to make the capacity of the compressed image file constant, By making the compression parameter constant regardless of the image, there are two types: a variable length method, in which the file size of the compressed image is not constant, but the degradation of image quality is the same for any image.
[0004]
[Problems to be solved by the invention]
As described above, the variable length method has less variation in image quality deterioration and has the advantage that the calculation burden is less than the fixed length method because compression compression is performed with a constant compression parameter. Since the size of the compressed image file does not become constant, it is not known whether the new compressed image file will fit in the remaining capacity of the recording medium, and if the compressed image file does not fit after recording starts, record the image file. Therefore, there is a problem that the remaining capacity is wasted and a photographed image may not be recorded.
[0005]
The present invention has been made in view of the above problems, and it is possible to record a compressed image file on a recording medium by efficiently using the recording medium while taking advantage of a simple compression encoding process by the variable length method. An object of the present invention is to provide an image compression recording apparatus that can perform this.
[0006]
[Means for Solving the Problems]
Therefore, the invention described in claim 1 is an image compression recording apparatus that compresses and encodes image data and records the image data on a recording medium. In the compression encoding, the compression parameter for changing the capacity of the compressed image file is fixed, and the image data Variable length compression means for performing compression encoding of the image, fixed length compression means for performing compression encoding of image data by changing the compression parameter for each image in order to set the capacity of the compressed image file to a target amount, and Selection means for selecting and using the fixed length compression means instead of the variable length compression means when the remaining capacity of the recording medium reaches a predetermined capacity, and the variable length compression means records on the recording medium Based on the average capacity of the compressed image file and the remaining capacity of the recording medium, the fixed compression parameter is corrected so as to leave the predetermined capacity on the recording medium. Fixed length compression means has a configuration for compressing and encoding the image data to fit on the recording medium remaining within the predetermined capacity.
[0007]
The compression encoding of the image data can be performed using general JPEG compression.
Further, the fixed length compression means changes the compression parameter to the higher compression side as the image is more complex, based on the result of compression coding processing trial, the analysis result of spatial frequency using DCT transform, etc. The capacity of the compressed image file after encoding matches the target value. The fixed-length compression means may be configured to compress all pixel areas with the same compression parameter, and each pixel area is divided into a plurality of blocks, and each block has a target capacity so as to have a target capacity. A compression parameter may be set for each block.
[0008]
On the other hand, since the variable-length compression means performs compression encoding with a fixed compression parameter regardless of the complexity of the target image, if the image is complicated, the capacity of the compressed image file increases. If the image is simple, the capacity of the compressed image file becomes small, and the capacity of the compressed image file changes for each image.
In the present invention, the recording capacity of the recording medium excluding the capacity used for recording the compressed image file, the capacity capable of newly recording the compressed image file, that is, the remaining capacity is monitored, and the remaining capacity is monitored. The variable length and the fixed length are used separately according to the above. Basically, the variable length compression means is used at first, and when the remaining capacity decreases, the fixed length compression means can be switched. is there.
That is, the selection unit is configured to select and use the fixed length compression unit instead of the variable length compression unit when the remaining capacity of the recording medium reaches a predetermined capacity. When switching from the means to the fixed length compression means is performed, the image data is compressed and encoded so as to fit within the predetermined capacity remaining on the recording medium. When the remaining capacity of the recording medium is smaller than the minimum capacity of the compressed image file capable of maintaining the minimum image quality, the recording medium is compressed and recorded by the fixed-length compression means so as to fit in the small remaining capacity. However, since the image quality of the recorded image falls below the allowable level, it is preferable to set the predetermined capacity to be equal to or greater than the minimum capacity and not perform subsequent recording when the predetermined capacity is exceeded.
Here, the variable length compressing means, when compressing and encoding image data, stores the compressed data on the recording medium based on the average capacity of the compressed image file recorded on the recording medium and the remaining capacity of the recording medium. By configuring the fixed compression parameter so as to leave the predetermined capacity, it is possible to determine the capacity tendency (in other words, the tendency of the image characteristics) of the compressed image file in the variable length compression, and to obtain an appropriate compressed image file. The fixed compression parameter is corrected so that the capacity is reached, and finally a predetermined capacity remains on the recording medium.
[0009]
In the invention according to claim 2, the variable length compression means obtains an average capacity of the compressed image files compressed by the variable length compression means from the number and capacity of the compressed image files recorded on the recording medium, and the average The fixed compression parameter is corrected based on the result of dividing the remaining capacity of the recording medium by the capacity.
If you divide the average capacity of the compressed image file when compressed with variable length by the remaining capacity, the remaining capacity when you record with the average capacity is estimated, so when you record the remaining capacity with variable length It is determined whether the capacity of the compressed image file should be reduced more than before, or whether the capacity of the compressed image file can be increased because there is room, and the compression parameter in the variable length compression means is corrected based on the determination result. The
According to a third aspect of the present invention, when the remainder obtained by dividing the remaining capacity of the recording medium by the average capacity of the compressed image file is less than a first reference value, the variable length compression unit is configured to use the fixed compression parameter. Is reduced to the high compression side to reduce the compressed image file capacity, while the fixed compression parameter is corrected to the low compression side when the remainder exceeds a second reference value larger than the first reference value. Thus, the compressed image file capacity is increased.
When the remainder divided by the average capacity of the compressed image file is less than the first reference value, the fixed compression parameter is corrected to the high compression side to reduce the compressed image file capacity, and recorded on the recording medium Since the average capacity of all the compressed image files is reduced, the remainder is enlarged, and finally a predetermined capacity remains on the recording medium. On the other hand, if the fixed compression parameter is corrected to the low compression side and the compressed image file capacity is increased when the remainder exceeds the second reference value, the entire compressed image file recorded on the recording medium Therefore, the image data is prevented from being excessively compressed even though there is a sufficient recording capacity.
According to a fourth aspect of the present invention, when the capacity of the compressed image file by the variable length compression unit exceeds the remaining capacity of the recording medium, the selection unit replaces the variable length compression unit with the fixed length compression. The image data is compressed and encoded by the means so as to be within the remaining capacity.
With variable-length compression means, image data cannot be compressed and encoded so that it can reliably fit in the remaining capacity, and may be compressed into a compressed image file with a capacity that exceeds the remaining capacity. Switching to the long compression means, the remaining capacity is set as a target capacity, and compression parameters are set so that the target capacity is obtained, and compression encoding is performed.
[0015]
【The invention's effect】
According to the first aspect of the invention, when using a fixed-length compression, since the image data to fit within the remaining capacity can be compression encoded, by using the fixed-length compression when the remaining capacity becomes a predetermined capacity, the remaining The capacity can be used effectively, and when the remaining capacity is sufficient, the variable length compression can be used to record an image with a simple compression process.
At this time, when compressing the image data by variable length compression, the compression level is corrected by reflecting the result of compression in the next variable length compression, so the capacity of the compressed image file is simply adjusted, and finally A predetermined capacity can be left on the recording medium.
[0016]
According to the second aspect of the present invention, the recording state in the remaining capacity is predicted from the average compressed image file capacity in the variable length compression, and the compression parameters in the variable length compression are corrected. Until this time, image recording by variable length compression can be performed, and there is an effect that a predetermined capacity can be left at the end.
According to the third aspect of the present invention, even when variable length compression is performed, the capacity of the compressed image file can be easily adjusted and managed so that the remaining capacity becomes a predetermined capacity. There is.
According to the fourth aspect of the present invention, when the image file compressed by the variable length compression does not fit in the remaining capacity, the image file is compressed and recorded in the remaining capacity by switching to the fixed length compression. There is an effect that an image that cannot be recorded can be recorded by using up the recording capacity .
[0018]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below with reference to the accompanying drawings. In the present embodiment, an example in which image data is compression-encoded and recorded in a memory in a digital still camera is shown. However, an image to be compression-encoded is not limited to a photographed image by a digital still camera.
[0019]
FIG. 1 is a block diagram illustrating a hardware configuration of the digital still camera according to the embodiment.
In FIG. 1, a light image of a subject obtained through an optical system including a focus lens 101, a diaphragm 102, and the like is formed on a light receiving surface of an image sensor such as a CCD 103. At this time, the focus lens 101 and the diaphragm 102 are driven by the lens / diaphragm driver 104, and the CCD 103 is driven by the CCD driver 105.
[0020]
Here, the CCD 103 constituting the image sensor converts the light image of the subject imaged on the light receiving surface into a charge amount, and outputs an analog image signal. The analog image signal output from the CCD 103 is subjected to correlated double sampling processing (CDS) and automatic gain control (AGC) in the preprocessing circuit 106, and then converted into a digital image signal by the A / D converter 107. .
[0021]
The digital image signal from the A / D converter 107 is input to a digital signal processor (DSP) 108 and subjected to luminance processing, color processing, and the like. The output of the DSP 108 is stored in the RAM 110 via the memory controller 109, and then subjected to JPEG compression encoding processing by the JPEG-LSI 111, and is recorded on a miniature card (recording medium) 112 incorporating a flash memory or the like. The
[0022]
However, the recording medium is not limited to the miniature card 112.
The main CPU 113 controls the lens / aperture driver 104, the CCD driver 105, the preprocess circuit 106, the A / D converter 107, and the DSP 108 and communicates with the sub CPU 114. The sub CPU 114 includes the flash 115, A buzzer 116, a liquid crystal panel (LCD) 117, and an LED 118 are controlled to read signals from the switches 119.
[0023]
In the compression processing using the JPEG-LSI 111, a scale factor sf is set as a compression parameter for determining the compression rate for each image so that the capacity (data amount) of the compressed image file after the compression processing becomes a target amount. The fixed length compression (fixed length compression means) and the variable length compression (variable length compression means) for fixing the scale factor sf and compressing and encoding the image data are configured.
[0024]
In the fixed-length compression, for example, a compression encoding trial is performed, and a scale factor sf serving as a target amount is determined from the correlation between the data amount after compression estimated from the result and the scale factor sf. The scale factor sf is determined based on spatial frequency analysis based on the DCT transform result, etc., and the entire pixel area is divided into a plurality of areas, and the compression result for each divided block and the block From the comparison with the target amount in units, the scale factor sf in the next block may be set, and the specific processing content of the fixed length compression is not limited.
[0025]
In the present embodiment, the variable-length compression and the fixed-length compression are switched according to the remaining capacity of the miniature card 112 as the recording medium to perform compression recording of image data. The state of the switching will be described.
In the flowchart of FIG. 2, in S1, the remaining capacity of the miniature card 112 (the free capacity of the area storing the image file) is obtained, and in the next S2, the remaining capacity is compared with a predetermined capacity.
[0026]
The predetermined capacity is preferably the minimum capacity of a compressed image file that can maintain the minimum image quality when the most complicated image to be predicted is compressed, and when the remaining capacity is smaller than the minimum capacity, S3 Proceed to, and subsequent image recording is prohibited. In addition, if shooting is performed with no free space, an image taken at a corner cannot be recorded, so image recording is prohibited and displayed on a digital still camera as having no free space. It is recommended to ban shooting.
[0027]
Even if the remaining capacity is less than or equal to the minimum capacity, it is possible to fit the image within the remaining capacity by setting the target capacity in the fixed length compression to the remaining capacity. Since it is large, image recording is not performed even if there is a remaining capacity.
On the other hand, when it is determined in S2 that the remaining capacity is substantially equal to the predetermined capacity (minimum capacity) (the remaining capacity is the minimum capacity + α or less), the process proceeds to S4 to fix the fixed length compression and the fixed length compression. Select long compression (selection means), set the minimum capacity (or remaining capacity) as the target capacity, and set the scale factor sf so that the capacity of the compressed image data (compressed image file) becomes the target capacity The compression process is performed.
[0028]
If it is determined in S2 that the remaining capacity exceeds the predetermined capacity (minimum capacity + α), the process proceeds to S5, and variable length compression is selected from fixed length compression and variable length compression, regardless of the image. The compression process is performed with a scale factor sf set in advance.
If it is determined in S6 that shooting has been performed, the process proceeds to S7 to perform compression processing according to the setting. In S8, it is determined whether or not the compression processing has been performed by variable length compression.
[0029]
If it is determined in S8 that compression processing has been performed by variable length compression, the process proceeds to S9 to determine whether or not the capacity of the compressed image file by the variable length compression is less than or equal to the remaining capacity and fits in the remaining capacity as it is. In some cases, the process proceeds to S11, and the compressed image file processed by the variable length compression is recorded on the miniature card 112 as it is.
On the other hand, when the capacity of the compressed image file by the variable length compression exceeds the remaining capacity, it cannot be recorded on the miniature card 112 as it is, so the process proceeds to S10, and the fixed length compression with the current remaining capacity as the target capacity is performed. The compressed image file obtained by the fixed length compression is recorded on the miniature card 112 in S11.
[0030]
If it is determined in S8 that compression processing has been performed with fixed length compression, compression processing has been performed so that the remaining capacity can be accommodated. Let
According to such a configuration, as shown in FIG. 3, variable length compression with a constant scale factor sf1 (compression parameter) is performed in the storage capacity of the miniature card 112 until the remaining capacity is close to the minimum capacity. In the variable length compression, the capacity of each compressed image file (File 1 to File 5 in FIG. 3) varies, but the calculation burden is not necessary for determining the scale factor sf for matching the compression result with the target amount. And each image can be compressed and recorded at the same level of deterioration. Then, when the remaining capacity is such that reliable image recording cannot be performed by the variable length compression (however, it is equal to or greater than the minimum capacity), the fixed length compression is performed and the image data is compressed so as to be within the remaining capacity (see FIG. 3), the image data can be stored using the miniature card 112 without waste, and the recording capacity can be effectively used.
[0031]
In the above, the scale factor sf in the variable length compression is fixed to sf1 at the same value. However, the complexity of individual images is large as in the case of an image shot with a digital still camera, and the capacity of the compressed image file is large. If there is a large variation, the specified number of images cannot be recorded. Therefore, as shown in the flowchart of FIG. 4, the capacity of the compressed image file is adjusted by correcting the scale factor sf in the variable length compression. Is preferred.
[0032]
The flowchart of FIG. 4 shows that the processing content of S5 in the flowchart of FIG. 2 is changed to that shown in the flowchart of FIG. 4, and the same processing is performed for the parts other than S5 of the flowchart of FIG. Shall be.
If it is determined in S2 that the remaining capacity exceeds the predetermined amount, the process proceeds to S51 to select a variable length compression method, and in the next S52, the compressed image file processed and recorded by the variable length compression so far is selected. By dividing the total capacity by the number of files (minimum 2), the average capacity of the compressed image file by variable length compression is obtained.
[0033]
In S53, the remaining capacity va when the image is recorded in the remaining capacity with the average capacity is obtained as a remainder obtained by dividing the current remaining capacity by the average capacity.
In S54, the capacity va obtained in S54 is compared with the predetermined capacity (1). When the capacity va is less than the predetermined capacity (1), that is, when the average capacity is larger than the standard, the process proceeds to S55. The scale factor sf (compression parameter) is corrected by a predetermined value α on the high compression side (side on which sf is increased). For example, when it is determined in S54 that the capacity va is less than the predetermined capacity (1), the scale factor sf is increased and corrected by a predetermined value α as shown in FIG. The predetermined value (1) is preferably the minimum capacity of the compressed image file that can maintain the minimum image quality.
[0034]
When processing with variable length compression next time by correcting the scale factor sf, the compressed image file capacity is corrected in the decreasing direction, the average capacity is decreased, and then the capacity va is expanded, The image is recorded with fixed length compression at the end while leaving the minimum capacity.
On the other hand, when the capacity va is equal to or larger than the predetermined capacity (1), the process proceeds to S56, the predetermined capacity (2) larger than the predetermined capacity (1) is compared with the capacity va, and the capacity va is equal to the predetermined capacity ( When the value exceeds 2), that is, when the average capacity is smaller than the standard capacity, the process proceeds to S57, and the scale factor sf (compression parameter) is corrected to the low compression side (side where sf is decreased) by a predetermined value α.
[0035]
When the variable length compression is processed next time by correcting the scale factor sf, the compressed image file capacity is corrected in the increasing direction, and the image data is excessively compressed even though there is a sufficient recording capacity. To avoid.
The variable length compression is performed while correcting the scale factor sf as described above (File 1 to File 5 in FIG. 6), and the remaining capacity is such that reliable image recording cannot be performed with the variable length compression (however, it is greater than the minimum capacity). ), The fixed length compression is performed to compress the image data so as to fit in the remaining capacity (File 6 in FIG. 6).
[0036]
According to such a configuration, even when variable length compression is performed, the capacity of the compressed image file can be easily adjusted and the remaining capacity can be managed, so that the recording capacity can be utilized more effectively.
It should be noted that the image data may be recorded on the miniature card 112 only by variable length compression with the correction control of the scale factor sf, and fixed length compression may not be used.
[Brief description of the drawings]
FIG. 1 is a block diagram illustrating a hardware configuration of a digital still camera according to an embodiment.
FIG. 2 is a flowchart illustrating a compression process according to the embodiment.
FIG. 3 is a diagram showing a recording state of an image file in a recording medium together with a scale factor (compression parameter) used for compression processing.
FIG. 4 is a flowchart showing a state of correction control of a scale factor (compression parameter) in variable length compression.
FIG. 5 is a diagram showing a correlation between a scale factor sf and the capacity of a compressed image file.
FIG. 6 is a diagram showing a recording state of an image file in a recording medium together with a scale factor (compression parameter) used for compression processing.
[Explanation of symbols]
101 Focus lens
102 Aperture
103 CCD
104 Lens / aperture driver
105 CCD driver
106 Preprocess circuit
107 A / D converter
108 DSP
109 Memory controller
110 RAM
111 JPEG-LSI
112 miniature cards
113 Main CPU

Claims (4)

An image compression recording apparatus that compresses and encodes image data and records the data on a recording medium,
Variable length compression means for performing compression encoding of image data by fixing a compression parameter for changing the capacity of a compressed image file in the compression encoding;
Fixed length compression means for performing compression encoding of image data by changing the compression parameter for each image so as to set the capacity of the compressed image file to a target amount;
Selection means for selecting and using the fixed length compression means instead of the variable length compression means when the remaining capacity of the recording medium reaches a predetermined capacity ,
The variable length compression unit corrects the fixed compression parameter so as to leave the predetermined capacity on the recording medium based on an average capacity of the compressed image file recorded on the recording medium and a remaining capacity of the recording medium. And
The fixed length compression means compresses and encodes image data so as to fit within the predetermined capacity remaining on the recording medium. The variable length compression means obtains an average capacity of the compressed image files compressed by the variable length compression means from the number and capacity of the compressed image files recorded on the recording medium, and the remaining capacity of the recording medium is obtained by the average capacity. The image compression recording apparatus according to claim 1, wherein the fixed compression parameter is corrected based on a result obtained by dividing. When the remainder obtained by dividing the remaining capacity of the recording medium by the average capacity of the compressed image file is less than the first reference value, the variable length compression unit corrects the fixed compression parameter to the high compression side. While reducing the compressed image file capacity, if the remainder exceeds a second reference value larger than the first reference value, the fixed compression parameter is corrected to the low compression side to increase the compressed image file capacity. The image compression recording apparatus according to claim 1, wherein the image compression recording apparatus is an image compression recording apparatus. When the capacity of the compressed image file by the variable length compression unit exceeds the remaining capacity of the recording medium, the selection unit fits in the remaining capacity by the fixed length compression unit instead of the variable length compression unit. The image compression recording apparatus according to any one of claims 1 to 3 , wherein the image data is compressed and encoded as described above.

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