JP2005020593A - Camera - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a camera with which the time required for a series of photographic processing can be shortened more than conventional. <P>SOLUTION: The camera is provided with a CCD 10 and an image processing circuit which applies correction processing using a black image photographing signal acquired from the CCD 10 in a screening state to a main image photographing signal acquired from the CCD 10 in accordance with user's photographing operation. When the main image photographing signal is acquired, the image processing circuit judges whether or not a black image acquiring operation is to be carried out on the basis of the lapse of time from the acquisition of a black image photographing signal in the past. When it is judged that the black image acquiring operation is to be carried out, the black image acquiring operation is carried out, and the acquired new black image photographing signal is used to carry out the above correction processing, and when it is judged that the black image acquiring operation is not to be carried out, a black image photographing signal acquired in the past is used to carry out the above correction processing. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a camera including an image processing circuit that performs correction processing using a black image shooting signal acquired from an imaging device in a light-shielded state on a main image shooting signal acquired from the imaging device.
[0002]
[Prior art]
A digital camera records an image photographed by a CCD (solid-state image sensor) on a recording medium as digital data. When a user presses a shutter button, a photographing signal obtained from the CCD is converted into digital photographing data. After the conversion, it is compressed by a known compression method and recorded on a recording medium such as an IC card.
Incidentally, the photographing signal obtained from the CCD includes a high-speed pulse generated around the CCD when the CCD is driven and a noise signal (hereinafter referred to as a fixed pattern noise signal) generated due to the structure of the CCD. . If the photographic signal obtained from the CCD is recorded on the recording medium without correction, the fixed pattern noise signal appears as a white spot or white line in the image recorded on the recording medium.
Therefore, in a conventional digital camera, correction processing described later is performed on a photographing signal obtained from a CCD (for example, see Patent Document 1).
[0003]
That is, when the user presses the shutter button, first, a main image photographing signal is acquired from the CCD. Thereafter, the mechanical shutter is closed, and in this state, a photographing signal is acquired from the CCD. At this time, since the frequency component and level of the fixed pattern noise signal differ depending on the shutter speed of the CCD, the shutter speed is set to the same speed as when the main image photographing signal is acquired. In this way, a black image shooting signal having substantially the same frequency component and level as the fixed pattern noise signal included in the main image shooting signal is obtained.
Thereafter, a correction process for subtracting the black image shooting signal from the main image shooting signal is executed, and the corrected main image shooting signal is recorded on the recording medium.
In a conventional digital camera, generation of white spots or white lines in a recorded image is prevented by performing correction processing using the black image shooting signal on the main image shooting signal obtained from the CCD as described above.
[0004]
[Patent Document 1]
JP-A-6-197285 [H04N 5/335]
[0005]
[Problems to be solved by the invention]
However, in a conventional digital camera, a process of acquiring a black image shooting signal is performed every time a main image shooting signal is acquired from the CCD, so that shooting data is recorded on a recording medium after the user presses the shutter button. There was a problem that it took a long time to take a series of shooting processes until the process was completed.
An object of the present invention is to provide a camera capable of shortening the time required for a series of photographing processes as compared with the prior art.
[0006]
[Means for solving the problems]
The first camera according to the present invention is a correction process using an imaging device and a black image shooting signal acquired from the imaging device in a light-shielded state with respect to a main image shooting signal acquired from the imaging device in response to a shooting operation by a user. And an image processing circuit. When the main image capturing signal is acquired, the image processing circuit determines whether it is necessary to execute a black image acquiring operation based on an elapsed time from the time when the black image capturing signal was acquired in the past. If it is determined that the black image acquisition operation needs to be executed, the black image acquisition operation is executed and the correction process is executed using the acquired new black image shooting signal. When it is determined that it is not necessary to execute the correction process, the correction process is executed using a black image shooting signal acquired in the past.
[0007]
When the main image shooting signal is acquired from the imaging device, if the elapsed time from the time when the black image shooting signal was acquired in the past is as short as less than 5 minutes, for example, the temperature change in the vicinity of the imaging device is small. The frequency component and level of the fixed pattern noise signal included in the main image photographing signal are substantially the same as the black image photographing signal acquired in the past.
Therefore, in the first camera according to the present invention, when the main image shooting signal is acquired from the imaging apparatus in accordance with the shooting operation by the user, the elapsed time from the time when the black image shooting signal was acquired in the past is obtained. Thus, it is determined whether or not it is necessary to execute the black image acquisition operation. Here, if the elapsed time from the time when the black image acquisition operation was executed in the past is long, for example, 5 minutes or longer, it is determined that the black image acquisition operation needs to be executed, and the black image acquisition operation is executed. Thus, a new black image shooting signal having a frequency component and level substantially equal to those of the fixed pattern noise signal included in the main image shooting signal is acquired. Thereafter, a correction process using a new black image shooting signal is performed on the main image shooting signal. In this way, the fixed pattern noise signal is removed from the main image photographing signal.
[0008]
On the other hand, if the elapsed time since the black image acquisition operation has been executed in the past is short, it is determined that the black image acquisition operation need not be executed and the black image acquisition operation is omitted, and the main image shooting is performed. The signal is subjected to correction processing using a black image photographing signal acquired in the past. Here, the frequency component and level of the fixed pattern noise signal included in the main image shooting signal are substantially the same as those of the black image shooting signal acquired in the past as described above. Therefore, the fixed pattern noise signal can be removed from the main image shooting signal by performing correction processing using the black image shooting signal acquired in the past on the main image shooting signal.
In the first camera according to the present invention, when the elapsed time since the black image acquisition operation has been executed in the past is short, the time required for a series of shooting processes is reduced by omitting the black image acquisition operation. Can be shortened.
[0009]
Specifically, the image processing circuit includes:
Storage means for storing black image shooting signals;
Black image processing means for receiving a command from the outside, obtaining a black image photographing signal from the imaging device in a light-shielded state, and executing a black image acquisition operation for storing in the storage means;
When a black image acquisition operation is executed, a time measuring means for executing an operation for measuring an elapsed time from that time point,
In response to a shooting operation by the user, captured image acquisition means for acquiring a main image shooting signal from the imaging device;
Only when it is determined that it is necessary to execute the black image acquisition operation by making the above determination based on whether or not the elapsed time measured by the time measuring means is less than a predetermined time when the main image photographing signal is acquired. Control means for instructing the black image processing means to perform a black image acquisition operation;
Correction processing means for performing correction processing using the black image shooting signal stored in the storage means for the main image shooting signal acquired by the shooting image acquisition means
And has.
[0010]
In the above specific configuration, when the black image acquisition operation is executed, the time measuring means starts measuring the elapsed time from that point.
When a shooting operation is performed by the user, first, a main image shooting signal is acquired from the imaging device by the shooting image acquisition unit, and then a black image is determined by whether the measured elapsed time is less than a predetermined time by the control unit. It is determined whether the acquisition operation needs to be executed. Here, when it is determined that the black image acquisition operation needs to be executed, an operation is instructed to the black image processing means, the black image acquisition operation is executed, and a new black image shooting signal is stored in the storage means. Will be stored. Thereafter, correction processing using the new black image shooting signal is performed on the main image shooting signal.
On the other hand, when it is determined that it is not necessary to execute the black image acquisition operation, no operation is instructed to the black image processing means, and the correction processing means stores the main image photographing signal in the storage means. Correction processing is performed using the black image shooting signal that has been acquired, that is, the black image shooting signal acquired by the past black image acquisition operation.
[0011]
More specifically, the storage means of the image processing circuit can store the shutter speed of the imaging device, and the image processing circuit further captures an image when a black image acquisition operation is executed. Shutter speed information processing means for storing the shutter speed of the apparatus in the storage means, and the control means stores the shutter speed of the imaging apparatus at that time when the main image photographing signal is acquired. The determination is made according to whether or not it is within a predetermined range including a certain shutter speed.
[0012]
The frequency component and level of the fixed pattern noise signal vary depending on the shutter speed of the imaging device.
Therefore, in the above specific configuration, when the black image acquisition operation is executed, the shutter speed at that time is stored in the storage means. Then, when the main image shooting signal is acquired in accordance with the shooting operation by the user, whether or not the shutter speed of the imaging device at that time is within a predetermined range including the shutter speed stored in the storage unit. It is then determined whether it is necessary to execute a black image acquisition operation.
[0013]
A second camera according to the present invention is a correction process using a black image shooting signal acquired from an imaging device in a light-shielded state with respect to the imaging device and a main image shooting signal acquired from the imaging device in response to a shooting operation by a user. And an image processing circuit. When the image processing circuit acquires the main image shooting signal, the image processing circuit acquires the black image based on the temperature near the imaging device at that time and the temperature near the imaging device when the black image shooting signal was acquired in the past. When it is determined whether or not it is necessary to execute the operation, and it is determined that the black image acquisition operation needs to be executed, the black image acquisition operation is executed and the acquired new black image shooting signal is used. While executing the correction process, if it is determined that it is not necessary to execute the black image acquisition operation, the correction process is executed using a black image shooting signal acquired in the past.
[0014]
When the main image shooting signal is acquired from the imaging device, if the temperature change in the vicinity of the imaging device since the black image shooting signal was acquired in the past is small, for example, less than 3 degrees, it is included in the main image shooting signal The frequency component and level of the fixed pattern noise signal to be generated are substantially the same as the black image shooting signal acquired in the past.
Therefore, in the second camera according to the present invention, when the main image shooting signal is acquired from the imaging device in accordance with the shooting operation by the user, the temperature near the imaging device at that time and the black image shooting signal in the past are obtained. It is determined whether or not it is necessary to execute a black image acquisition operation based on the temperature near the imaging device at the time of acquisition. Here, when the temperature change in the vicinity of the imaging device since the black image acquisition operation has been executed in the past is large, for example, 3 degrees or more, it is determined that the black image acquisition operation needs to be executed, and the black image acquisition is performed. The operation is executed, and a new black image shooting signal having a frequency component and level substantially equal to those of the fixed pattern noise signal included in the main image shooting signal is acquired. Thereafter, a correction process using a new black image shooting signal is performed on the main image shooting signal. In this way, the fixed pattern noise signal is removed from the main image photographing signal.
[0015]
On the other hand, when the temperature change in the vicinity of the imaging device is small, it is determined that it is not necessary to execute the black image acquisition operation, the black image acquisition operation is omitted, and the main image shooting signal is acquired in the past. Correction processing using the black image photographing signal thus performed is performed. Here, the frequency component and level of the fixed pattern noise signal included in the main image shooting signal are substantially the same as those of the black image shooting signal acquired in the past as described above. Therefore, the fixed pattern noise signal can be removed from the main image shooting signal by performing correction processing using the black image shooting signal acquired in the past on the main image shooting signal.
In the second camera according to the present invention, when the change in the temperature near the imaging device since the black image acquisition operation has been executed in the past is small, the black image acquisition operation is omitted, thereby performing a series of shooting processes. The time required for this can be shortened compared to the conventional method.
[0016]
Specifically, the image processing circuit includes:
Temperature measuring means for measuring the temperature in the vicinity of the imaging device;
Storage means for storing a black image shooting signal and temperature;
Black image processing means for receiving a command from the outside, obtaining a black image photographing signal from the imaging device in a light-shielded state, and executing a black image acquisition operation for storing in the storage means;
When a black image acquisition operation is performed, a temperature information processing unit that acquires a measurement temperature from the temperature measurement unit and stores the temperature in the storage unit;
In response to a shooting operation by the user, captured image acquisition means for acquiring a main image shooting signal from the imaging device;
When the main image photographing signal is acquired, after the measurement temperature is acquired from the temperature measurement unit, the determination is made based on whether or not the temperature is within a predetermined range including the temperature stored in the storage unit. Only when it is determined that a black image acquisition operation needs to be performed, a control unit that instructs the black image processing unit to perform a black image acquisition operation;
Correction processing means for performing correction processing using the black image shooting signal stored in the storage means for the main image shooting signal acquired by the shooting image acquisition means
And has.
[0017]
In the specific configuration, when the black image acquisition operation is executed, the temperature information processing unit acquires the temperature in the vicinity of the imaging device at that time from the temperature measurement unit and stores it in the storage unit.
When a shooting operation is performed by the user, first, a main image shooting signal is acquired from the imaging device by the shooting image acquisition unit, and then the temperature acquired from the temperature measurement unit by the control unit is stored in the storage unit, That is, it is determined whether or not it is necessary to execute the black image acquisition operation based on whether or not it is within a predetermined range including the temperature measured when the black image acquisition operation was executed in the past. Here, when it is determined that the black image acquisition operation needs to be executed, an operation is instructed to the black image processing means, the black image acquisition operation is executed, and a new black image shooting signal is stored in the storage means. Will be stored. Thereafter, correction processing using the new black image shooting signal is performed on the main image shooting signal.
On the other hand, when it is determined that it is not necessary to execute the black image acquisition operation, no operation is instructed to the black image processing means, and the correction processing means stores the main image photographing signal in the storage means. Correction processing is performed using the black image shooting signal that has been acquired, that is, the black image shooting signal acquired by the past black image acquisition operation.
[0018]
More specifically, the storage means of the image processing circuit can store the shutter speed of the imaging device, and the image processing circuit further captures an image when a black image acquisition operation is executed. Shutter speed information processing means for storing the shutter speed of the apparatus in the storage means, and the control means stores the shutter speed of the imaging apparatus at that time when the main image photographing signal is acquired. The determination is made according to whether or not it is within a predetermined range including a certain shutter speed.
[0019]
The frequency component and level of the fixed pattern noise signal vary depending on the shutter speed of the imaging device.
Therefore, in the above specific configuration, when the black image acquisition operation is executed, the shutter speed at that time is stored in the storage means. Then, when the main image shooting signal is acquired in accordance with the shooting operation by the user, whether or not the shutter speed of the imaging device at that time is within a predetermined range including the shutter speed stored in the storage unit. It is then determined whether it is necessary to execute a black image acquisition operation.
[0020]
【The invention's effect】
According to the first camera of the present invention, when the elapsed time since the black image acquisition process has been executed in the past is short, the time required for a series of shooting processes can be shortened compared to the conventional camera.
Further, according to the second camera of the present invention, when the temperature change in the vicinity of the imaging device after the black image acquisition process has been executed in the past, the time required for a series of shooting processes is shortened compared with the conventional camera. I can do it.
[0021]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, the embodiment in which the present invention is implemented in a digital camera will be specifically described based on two examples.
First embodiment
As shown in FIG. 1, the digital camera of the present embodiment includes a CCD (10) that constitutes the imaging optical system (1), an ASIC (Application Specific IC) (2), and an SDRAM that is used during image processing. (3), an LCD (4) for displaying an image taken by the imaging optical system (1), and a memory card (5) for recording an image taken by the imaging optical system (1) It has. A CPU (6) is connected to the ASIC (2), and the operation of the ASIC (2) is controlled by the CPU (6). A shutter button (7) is connected to the CPU (6).
The digital camera includes a mechanical shutter (8) and a shutter driver (80) for driving the shutter (8).
[0022]
The ASIC (2) includes an SDRAM write buffer (21) for temporarily storing photographing data, a signal processing circuit (22) for executing predetermined signal processing such as A / D conversion processing and image correction processing, and image compression. A JPEG compression processing circuit (23) for executing processing, a card control circuit (24) for writing and reading image data to and from the memory card (5), and a control signal for the shutter driver (80) are created. And an output shutter control circuit (25).
[0023]
The digital camera of the present embodiment performs correction processing using black image data acquired with the mechanical shutter (8) closed on main image data acquired in accordance with a shooting operation by a user. When the main image data is acquired, the elapsed time from the previous black image data acquisition time is as short as less than a predetermined time, and the shutter speed of the CCD (10) at that time is the same as the previous black image data acquisition time. When it is within a predetermined range centered on the shutter speed, the correction processing of the main image data is performed using the previous black image data. When black image data is acquired, the CPU (6) starts time counting as described later, and the shutter speed of the CCD (10) is written into the SDRAM (3).
In the digital camera, when the shutter button (7) is pressed for the first time after the power of the camera body is turned on, the CPU (6) detects this, and the signal processing circuit (22) of the ASIC (2). Outputs a shooting signal acquisition command. In response to the command, the signal processing circuit (22) acquires a shooting signal from the CCD (10), converts the acquired shooting signal into digital shooting data, and temporarily stores it in the SDRAM write buffer (21). The main image data is written into the SDRAM (3).
[0024]
Subsequently, the CPU (6) starts the time count, the elapsed time represented by the time count value is less than the predetermined time, and the shutter speed of the CCD (10) when acquiring the main image data is SDRAM. It is determined whether or not it is within a predetermined range centered on the shutter speed written in (3). Here, the CPU (6) determines that the time count has not started, and outputs a shutter close command to the shutter control circuit (25) of the ASIC (2). In response to the command, the shutter control circuit (25) creates a control signal for setting the mechanical shutter (8) to the closed state, and outputs the control signal to the shutter driver (80). As a result, the mechanical shutter (8) is closed.
Thereafter, the CPU (6) outputs a shooting signal acquisition command to the signal processing circuit (22) of the ASIC (2), and the signal processing circuit (22) receives the command and acquires the shooting signal from the CCD (10). To do. At this time, since the frequency component and level of the fixed pattern noise signal included in the photographic signal differ depending on the shutter speed of the CCD (10), the shutter speed of the CCD (10) is set to the same speed as the above-described acquisition of the main image data. Is done. The signal processing circuit (22) converts the acquired shooting signal into digital shooting data, temporarily stores it in the SDRAM write buffer (21), and then writes it as black image data in the SDRAM (3).
Next, the CPU (6) writes the shutter speed of the CCD (10) into the SDRAM (3) and starts time counting.
[0025]
Subsequently, the CPU (6) outputs a correction processing execution command to the signal processing circuit (22) of the ASIC (2), and the signal processing circuit (22) receives the command and receives the main image data from the SDRAM (3). After the black image data is read out, an image correction process for subtracting the black image data from the main image data is executed, and the corrected main image data is written in the SDRAM (3). Since the image correction process is the same as the conventional image correction process, a detailed description thereof will be omitted.
Next, after reading the corrected main image data from the SDRAM (3), the signal processing circuit (22) performs predetermined data processing necessary for displaying the main image data on the LCD (4). Then, the image data obtained thereby is written into the SDRAM (3) as freeze image data. The freeze image data written in the SDRAM (3) in this way is supplied to the LCD (4). As a result, the main image (still image) photographed in response to pressing of the shutter button (7) is displayed on the LCD (4).
[0026]
The signal processing circuit (22) performs predetermined data processing necessary for recording the corrected main image data on the memory card (5), and converts the obtained image data into YUV image data. Is written in the SDRAM (3).
The YUV image data written in the SDRAM (3) is read out by the JPEG compression processing circuit (23) and subjected to compression processing by the JPEG method, and the compressed image data obtained thereby is temporarily written in the SDRAM (3). After that, the data is read by the card control circuit (24) and recorded on the memory card (5) by the circuit (24).
[0027]
After that, when the second and subsequent pressing operations are performed on the shutter button (7), the CPU (6) first outputs the signal from the ASIC (2), as when the shutter button (7) is pressed for the first time. An imaging signal acquisition command is output to the processing circuit (22). The signal processing circuit (22) receives the command, acquires a shooting signal from the CCD (10), converts the acquired shooting signal into digital shooting data, and temporarily stores it in the SDRAM write buffer (21). This image data is written into the SDRAM (3).
[0028]
Next, the CPU (6) starts the time count, the elapsed time represented by the time count value is less than the predetermined time, and the shutter speed of the CCD (10) at the time of acquiring the image data is SDRAM. It is determined whether or not it is within a predetermined range centered on the shutter speed written in (3).
When the elapsed time is equal to or longer than the predetermined time and when the shutter speed at the time of acquiring the image data is out of the predetermined range, the shutter control circuit (25 ) And a shooting signal acquisition command to the signal processing circuit (22) of the ASIC (2). As a result, after the mechanical shutter (8) is closed, a black image acquisition operation is performed, and new black image data is stored in the SDRAM (3).
Subsequently, the CPU (6) writes the shutter speed of the CCD (10) into the SDRAM (3), resets the time count value, and restarts the time count.
Thereafter, the CPU (6) outputs a correction processing execution command to the signal processing circuit (22) of the ASIC (2), and the signal processing circuit (22) receives the command and receives the main image data and the image data from the SDRAM (3). After the new black image data is read out, image correction processing using the new black image data is performed on the main image data. The corrected main image data is subjected to predetermined data processing by the signal processing circuit (22) and the JPEG compression processing circuit (23) and then recorded on the memory card (5) by the card control circuit (24).
[0029]
On the other hand, when the elapsed time is less than the predetermined time and the shutter speed at the time of acquiring the main image data is within the predetermined range, the CPU (6) is a signal processing circuit of the ASIC (2) ( 22), and the signal processing circuit (22) receives the command and reads the main image data and the black image data acquired by the previous black image data acquisition operation from the SDRAM (3). Thereafter, image correction processing using the previous black image data is performed on the main image data. Here, when the elapsed time from the previous black image data acquisition is as short as 5 minutes, for example, the change in the temperature near the CCD (10) is small, so the fixed pattern noise signal included in the main image photographing signal The frequency component and level are substantially the same as the black image shooting signal acquired by the previous black image data acquisition operation. Accordingly, the fixed pattern noise data can be removed from the main image data by performing image correction processing using the previous black image data on the main image data. The image data thus corrected is subjected to predetermined data processing by the signal processing circuit (22) and the JPEG compression processing circuit (23), and then the memory card (5) by the card control circuit (24). ) Is recorded.
[0030]
FIG. 2 shows a procedure executed by the ASIC (2) and the CPU (6).
First, in step S1, a process for displaying an image (through image) photographed by the CCD (10) on the LCD (4) in real time is executed. In step S2, the shutter button (7) is half pressed. It is determined whether or not it is in a half-pressed state. If NO is determined, the process returns to step S1. If YES is determined, the process proceeds to step S3 to perform AE (Auto Exposure) processing and AF ( Auto Focus) processing is executed.
[0031]
Subsequently, in step S4, it is determined whether or not the shutter button (7) has been released from the pressed state. If it is determined to be yes, the process returns to step S1, while if it is determined to be no, the process proceeds to step S5. Then, it is determined whether or not the shutter button (7) is further pressed from the half-pressed state to the fully-pressed state. If it is determined no, the process returns to step S4.
On the other hand, if the shutter button (7) is fully pressed and it is determined as YES in step S5, the process proceeds to step S6, and after executing the acquisition process of the main image data, in step S7. The shutter speed of the CCD (10) when the time count is started, the elapsed time t represented by the time count value is a predetermined time, for example, less than 5 minutes, and the main image is acquired in step S6. It is determined whether or not Vnow is within a predetermined range centered on the shutter speed Vold written in the SDRAM, for example, 0.9 to 1.1 times the shutter speed Vold.
[0032]
If NO is determined in step S7, the process proceeds to step S8, and the shutter speed of the CCD (10) is set to the same value as the shutter speed Vnow when the main image is acquired in step S6. The black image data acquisition process is executed. Subsequently, in step S9, the time count value is reset and the time count is restarted, and the shutter speed when the black image data is acquired in step S8 is written in the SDRAM as the previous shutter speed Vold, and then in step S10. Transition.
On the other hand, if it is determined as YES in step S7, the process proceeds to step S10, bypassing steps S8 and S9.
[0033]
In step S10, correction processing using black image data is performed on the main image data acquired in step S6. If it is determined NO in step S7 as described above, the black image data newly acquired in step S8 is used, whereas if it is determined YES in step S7, the past The black image data acquired in step S8 is used.
Subsequently, in step S11, freeze image data obtained by performing predetermined signal processing on the corrected main image data is output to the LCD (4), and then in step S12, compression processing by the JPEG method is executed. In step S13, the compressed image data is recorded in the memory card (5), and the process returns to step S1. In this way, a series of shooting processes is executed in response to the user pressing the shutter button (7).
[0034]
In the digital camera of this embodiment, the elapsed time from the previous black image data acquisition time is as short as less than a predetermined time, and the shutter speed of the CCD (10) at the time of main image data acquisition is the previous black image data acquisition time. Is within a predetermined range centered on the shutter speed, the black image data acquisition process is omitted, and the correction process of the main image data is executed using the previous black image data. Therefore, in such a case, the time required for a series of photographing processes can be shortened as compared with a conventional digital camera.
[0035]
Second embodiment
In the digital camera of this embodiment, when the main image data is acquired, the difference between the temperature near the CCD (10) at that time and the temperature near the CCD (10) at the time of the previous black image data acquisition is within a predetermined range. If the shutter speed of the CCD (10) at that time is within a predetermined range centered on the shutter speed at the time of previous black image data acquisition, the previous black image data is used to Image data correction processing is performed.
FIG. 3 shows the configuration of the digital camera of this embodiment, and a temperature sensor (9) for measuring the temperature in the vicinity of the CCD (10) is connected to the CPU (60). When black image data is acquired, the measured temperature acquired from the temperature sensor (9) is written into the SDRAM (3) by the CPU (60).
[0036]
FIG. 4 shows a procedure executed by the ASIC (2) and the CPU (60).
First, in step S21, a process for displaying an image (through image) photographed by the CCD (10) on the LCD (4) in real time is executed. In step S22, the shutter button (7) is pressed halfway. If it is determined as NO, the process returns to step S21. If YES is determined, the process proceeds to step S23 to execute the AE process and the AF process.
[0037]
Subsequently, in step S24, it is determined whether or not the shutter button (7) has been released from the pressed state. If it is determined yes, the process returns to step S21, whereas if it is determined no, the process proceeds to step S25. Then, it is determined whether or not the shutter button (7) has been fully pressed. If NO is determined, the process returns to step S24.
On the other hand, if the shutter button (7) is fully pressed and it is determined YES in step S25, the process proceeds to step S26, and after executing the acquisition process of the main image data, in step S27. The temperature Told is written in the SDRAM (3), and the difference between the temperature Tnow acquired from the temperature sensor (9) and the temperature Told is within a predetermined range, for example, within a range of −3 degrees to +3 degrees. In addition, the shutter speed Vnow of the CCD (10) when the main image data is acquired in step S26 is within a predetermined range centered on the shutter speed Vold written in the SDRAM, for example, 0 of the shutter speed Vold. Judge whether it is within the range of 9 times to 1.1 times.
[0038]
If it is determined NO in step S27, the process proceeds to step S28, and the shutter speed of the CCD (10) is set to the same value as the shutter speed Vnow when the main image data is acquired in step S26. The black image data acquisition process is executed. Subsequently, in step S29, the measured temperature is acquired from the temperature sensor (9), the temperature is written in the SDRAM (3) as the previous temperature Told, and the shutter speed when the black image data is acquired in step S28 is changed to the previous time. Is written in the SDRAM as the shutter speed Vold, and the process proceeds to step S30.
On the other hand, if it is determined as YES in step S27, the process proceeds to step S30, bypassing steps S28 and S29.
[0039]
In step S30, correction processing using black image data is performed on the main image data acquired in step S26. Here, when it is determined NO in step S27 as described above, the black image data newly acquired in step S28 is used, whereas when it is determined YES in step S27, the past The black image data acquired in step S28 is used.
Subsequently, in step S31, freeze image data obtained by performing predetermined signal processing on the corrected main image data is output to the LCD (4), and then in step S32, compression processing by the JPEG method is executed. In step S33, the compressed image data is recorded in the memory card (5), and the process returns to step S21. In this way, a series of shooting processes is executed in response to the user pressing the shutter button (7).
[0040]
In the digital camera of this embodiment, the difference between the temperature near the CCD (10) at the time of main image data acquisition and the temperature near the CCD (10) at the time of previous black image data acquisition is small within a predetermined range, and When the shutter speed of the CCD (10) when acquiring the main image data is within a predetermined range centered on the shutter speed when acquiring the previous black image data, the black image data acquisition process is omitted, The correction process of the main image data is executed using the black image data. Therefore, in such a case, the time required for a series of photographing processes can be shortened as compared with a conventional digital camera.
[0041]
In addition, each part structure of this invention is not restricted to the said embodiment, A various deformation | transformation is possible within the technical scope as described in a claim.
For example, every time black image data is acquired, the acquired black image data is written into the SDRAM (3) for each temperature near the CCD (10). When acquiring the main image data, the CCD (10 ), When black image data is written in the SDRAM (3), correction processing is executed using the black image data, and when it is not written, black image data acquisition operation is executed. It is also possible to adopt a configuration.
[Brief description of the drawings]
FIG. 1 is a block diagram illustrating a configuration of a digital camera according to a first embodiment.
FIG. 2 is a flowchart showing a procedure executed by the ASIC and CPU of the digital camera.
FIG. 3 is a block diagram illustrating a configuration of a digital camera according to a second embodiment.
FIG. 4 is a flowchart showing a procedure executed by the ASIC and CPU of the digital camera.
[Explanation of symbols]
(1) Imaging optical system
(2) CCD
(3) SDRAM
(4) LCD
(5) Memory card
(6) CPU
(7) Shutter button
(8) Mechanical shutter

Claims (6)

A camera comprising an imaging device and an image processing circuit that performs correction processing using a black image shooting signal acquired from the imaging device in a light-shielded state on a main image shooting signal acquired from the imaging device in response to a shooting operation by a user When the main image capturing signal is acquired, the image processing circuit determines whether or not it is necessary to execute a black image acquiring operation based on an elapsed time from the time when the black image capturing signal was acquired in the past. If it is determined that the black image acquisition operation needs to be executed, the black image acquisition operation is executed and the correction process is executed using the acquired new black image shooting signal. When it is determined that it is not necessary to execute the correction process, the correction process is executed using a black image shooting signal acquired in the past. The image processing circuit includes:
Storage means for storing a black image shooting signal;
Black image processing means for receiving a command from the outside, obtaining a black image photographing signal from the imaging device in a light-shielded state, and executing a black image acquisition operation for storing in the storage means;
When a black image acquisition operation is executed, a time measuring means for executing an operation for measuring an elapsed time from that time point,
In response to a shooting operation by the user, captured image acquisition means for acquiring a main image shooting signal from the imaging device;
Only when it is determined that it is necessary to execute the black image acquisition operation by making the above determination based on whether or not the elapsed time measured by the time measuring means is less than a predetermined time when the main image photographing signal is acquired. Control means for instructing the black image processing means to perform a black image acquisition operation;
2. The correction processing unit according to claim 1, further comprising a correction processing unit configured to perform a correction process using a black image shooting signal stored in the storage unit with respect to the main image shooting signal acquired by the shooting image acquisition unit. camera. The storage means of the image processing circuit can store the shutter speed of the imaging device, and the image processing circuit further stores the shutter speed of the imaging device when a black image acquisition operation is performed. Shutter speed information processing means stored in the means, and when the main image photographing signal is acquired, the control means has a predetermined shutter speed stored in the storage means. The camera according to claim 2, wherein the determination is made based on whether or not the value is within a range. A camera comprising an imaging device and an image processing circuit that performs correction processing using a black image shooting signal acquired from the imaging device in a light-shielded state on a main image shooting signal acquired from the imaging device in response to a shooting operation by a user The image processing circuit obtains a black image based on the vicinity temperature of the imaging device at the time when the main image capturing signal is acquired and the vicinity temperature of the imaging device when the black image capturing signal is acquired in the past. When it is determined whether or not it is necessary to execute the operation, and it is determined that the black image acquisition operation needs to be executed, the black image acquisition operation is executed and the acquired new black image shooting signal is used. While performing the said correction process, when it is judged that it is not necessary to perform black image acquisition operation | movement, the said correction process is performed using the black image imaging | photography signal acquired in the past. The image processing circuit includes:
Temperature measuring means for measuring the temperature in the vicinity of the imaging device;
Storage means for storing a black image capture signal and temperature;
Black image processing means for receiving a command from the outside, obtaining a black image photographing signal from the imaging device in a light-shielded state, and executing a black image acquisition operation for storing in the storage means;
When a black image acquisition operation is performed, a temperature information processing unit that acquires a measurement temperature from the temperature measurement unit and stores the temperature in the storage unit;
In response to a shooting operation by the user, captured image acquisition means for acquiring a main image shooting signal from the imaging device;
When the main image photographing signal is acquired, after the measurement temperature is acquired from the temperature measurement unit, the determination is made based on whether or not the temperature is within a predetermined range including the temperature stored in the storage unit. Only when it is determined that the black image acquisition operation needs to be executed, the control means for commanding the black image acquisition operation to the black image processing means,
5. The correction processing unit according to claim 4, further comprising: a correction processing unit that performs a correction process using a black image shooting signal stored in the storage unit on the main image shooting signal acquired by the shooting image acquisition unit. camera. The storage means of the image processing circuit can store the shutter speed of the imaging device, and the image processing circuit further stores the shutter speed of the imaging device when a black image acquisition operation is performed. Shutter speed information processing means stored in the means, and when the main image photographing signal is acquired, the control means has a predetermined shutter speed stored in the storage means. The camera according to claim 5, wherein the determination is made based on whether or not the value is within a range.

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