JP2004274105A - Camera - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To prevent an operating sound caused by moving a lens from being recognized as an uncomfortable noise when reproducing a moving image in a camera capable of picking up the moving image. <P>SOLUTION: In a camera (100) including an image pickup part (10) for picking up the moving image of a field, a sound collecting part (20) for collecting sounds when picking up the moving image and a recording part (40) for recording moving image data picked up by the image pickup part and sound data collected by the sound collecting part, when an operating signal relating to the moving action of a lens (11) based on zooming or the like is detected by an operating signal detecting means, an effective sound based on sound information stored in a sound information storage part (82) is outputted from an effective sound output part (30) by an effective sound output control means, and the sound collecting part collects the effective sound together with the sounds when picking up the moving image of the field. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a camera, and more particularly, to a camera that can simultaneously capture a moving image and collect sound data.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, a video camera that captures a moving image and a sound of a scene in a video and records the moving image and a sound on a recording medium such as a magnetic tape or a memory card as an image signal and a sound signal has been widely used.
In a video camera, when performing a focus adjustment or an adjustment of an angle of view of a field, that is, a so-called zoom adjustment, a lens drive motor is driven by operating an operation unit or the like to obtain a desired focus or image. The lens is moved to a predetermined position according to the angle. If such a zoom adjustment or the like is performed during the shooting of a video image, the drive sound of the lens drive motor is recorded on the recording medium as sound data together with the sound at the time of capturing the scene.
[0003]
Further, during shooting of the video image in the video camera, based on that the operation of generating the operation sound of the motor or gear is operated in the operation unit so that the drive sound of the lens drive motor is not recorded on the recording medium, 2. Description of the Related Art There is known a video camera that performs a control for attenuating an audio signal while the operation is being performed to record a non-recording state on a recording medium (for example, see Patent Document 1).
[0004]
[Patent Document 1]
JP-A-9-186956
[0005]
[Problems to be solved by the invention]
However, when the driving sound of the lens driving motor is reproduced together with the sound at the time of imaging of the object scene and the video image recorded on the recording medium as sound data, the driving sound of the lens driving motor (the operation sound of moving the lens) is noise. However, there is a problem that it is recognized as an unpleasant sound.
In the case of the video camera described in Patent Document 1, when a video image is played back, if a portion in which no sound is recorded is played back, the moving image is continuously played back, but the sound of that portion is played back. Was interrupted, and there was a problem that the sound output unit such as a speaker was recognized as having a problem.
[0006]
An object of the present invention is to provide a camera capable of capturing a moving image, in which an operation sound of a lens moving during reproduction of the moving image is not recognized as an unpleasant sound.
[0007]
[Means for Solving the Problems]
In order to solve the above problems, the invention according to claim 1 includes a lens driving unit that moves a lens, an imaging unit that captures a moving image of a scene, and an imaging unit that captures a moving image of the scene. A camera having a sound collection unit that collects sound, and a recording unit in which moving image data captured by the imaging unit and audio data collected by the sound collection unit are recorded,
An audio information storage unit that stores audio information of a predetermined sound effect,
A sound effect output unit that outputs a sound effect based on the sound information stored in the sound information storage unit;
Operation signal detection means for detecting an operation signal relating to an operation of moving the lens,
Sound effect output control means for outputting a sound effect from the sound effect output unit based on the operation signal detected by the operation signal detection means,
It is characterized by having.
[0008]
According to the first aspect of the present invention, when the operation signal relating to the movement of the lens is detected by the operation signal detection means, the sound effect based on the sound information stored in the sound information storage unit is output by the sound effect output control means. Output from the sound effect output unit. Then, the sound collecting unit collects the sound effect together with the sound at the time of capturing the moving image of the scene.
Therefore, when the moving image recorded in the recording unit is reproduced and output after the moving image is captured, the driving sound of the lens driving unit for moving the lens is canceled out by the sound effect and cannot be recognized. Therefore, such a camera can reproduce a moving image so that the driving sound of the lens driving unit for moving the lens and the operation sound of moving the lens are not recognized as unpleasant sound.
[0009]
According to a second aspect of the present invention, in the camera according to the first aspect,
The sound collection unit, together with the sound at the time of capturing the moving image of the object scene, collects the sound effect output from the sound effect output unit,
The recording unit may record the moving image data captured by the imaging unit and the audio data collected by the sound collection unit in synchronization with each other.
[0010]
According to the second aspect of the invention, the same effect as the first aspect of the invention is achieved, and the sound collection unit outputs the sound output from the sound effect output unit together with the sound at the time of capturing the moving image of the object scene. The sound is collected, and the recording unit records the moving image data captured by the imaging unit and the audio data collected by the sound collection unit in synchronization with each other.
Therefore, when reproducing and outputting the moving image recorded in the recording unit after the moving image is captured, the sound at the time of capturing the moving image including the driving sound of the lens driving unit for moving the lens may be overlaid with the sound effect. , The driving sound of the lens driving unit cannot be recognized so as to be erased. Therefore, such a camera can reproduce a moving image so that the driving sound of the lens driving unit for moving the lens and the operation sound of moving the lens are not recognized as unpleasant sound.
[0011]
The invention according to claim 3 has a lens driving unit that moves a lens, an imaging unit that captures a moving image of a scene, and a sound collection unit that collects sound when capturing a moving image of the scene. A camera having a recording unit in which moving image data captured by the imaging unit and audio data collected by the sound collection unit are recorded,
An audio information storage unit that stores audio information of a predetermined sound effect,
Operation signal detection means for detecting an operation signal relating to an operation of moving the lens,
Audio data that causes the recording unit to record sound effect data based on audio information stored in the audio information storage unit as audio data corresponding to moving image data while the operation signal detection unit is detecting the operation signal. Recording control means;
It is characterized by having.
[0012]
According to the third aspect of the present invention, when an operation signal relating to the movement of the lens is detected by the operation signal detecting means, the audio data is recorded as audio data while the operation signal is detected by the audio data recording control means. Sound effect data based on the audio information stored in the information storage unit is recorded in the recording unit. While the motion signal is being detected by the motion signal detection means in the recording unit, the sound effect data is recorded together with the captured moving image data.
Therefore, since the sound at the time of shooting when the lens driving unit for moving the lens is driven is replaced with a sound effect, when reproducing and outputting a moving image recorded in the recording unit after shooting a moving image, Since the driving sound of the driving section is not output, such driving sound cannot be recognized. Therefore, such a camera can reproduce a moving image so that the driving sound of the lens driving unit for moving the lens and the operation sound of moving the lens are not recognized as unpleasant sound.
[0013]
According to a fourth aspect of the present invention, in the camera according to the third aspect,
The sound data recording control unit may record the sound data collected by the sound collection unit and the sound effect data based on the sound information stored in the sound information storage unit, in the recording unit. And
[0014]
According to the fourth aspect of the invention, the same operation as the third aspect of the invention is achieved, and the audio data recording control means stores the audio data collected by the sound collection unit and the audio data stored in the audio information storage unit. The sound effect data based on the sound information is replaced and recorded in the recording unit.
Therefore, the sound at the time of capturing the moving image including the driving sound of the lens driving unit collected by the sound collecting unit is replaced with the sound effect based on the sound information stored in the sound information storage unit. Later, when the moving image recorded in the recording unit is reproduced and output, the driving sound of the lens driving unit is not output, so that such driving sound cannot be recognized. Therefore, such a camera can reproduce a moving image so that the driving sound of the lens driving unit for moving the lens and the operation sound of moving the lens are not recognized as unpleasant sound.
[0015]
The invention according to claim 5, further comprising: a lens driving unit that moves a lens, an imaging unit that captures a moving image of a scene, and a sound collection unit that collects sound when the moving image of the scene is captured. A camera having a recording unit in which moving image data captured by the imaging unit and audio data collected by the sound collection unit are recorded,
Operation signal detection means for detecting an operation signal relating to an operation of moving the lens,
While the operation signal detection unit detects the operation signal, a pause control unit for temporarily stopping the operation of the imaging unit and the sound collection unit,
It is characterized by having.
[0016]
According to the fifth aspect of the invention, while the operation signal relating to the movement of the lens is detected by the operation signal detection means, the operation of both the imaging unit and the sound collection unit is temporarily stopped by the pause control means. That is, the moving image data and the sound collection data while the operation signal detecting means detects the operation signal are not recorded in the recording unit.
Therefore, when the moving image recorded in the recording unit is reproduced and output after capturing the moving image, the imaging data (moving image data and audio data) while the driving sound of the lens driving unit for moving the lens is being emitted is generated. In addition, since no driving sound is output from the lens driving unit, such driving sound cannot be recognized. Therefore, such a camera can reproduce a moving image so that the driving sound of the lens driving unit for moving the lens and the operation sound of moving the lens are not recognized as unpleasant sound.
[0017]
The invention according to claim 6, further comprising: a lens driving unit that moves a lens, an imaging unit that captures a moving image of an object scene, and a sound collection unit that collects sound when the moving image of the object scene is captured. A camera having a recording unit in which moving image data captured by the imaging unit and audio data collected by the sound collection unit are recorded,
Operation signal detection means for detecting an operation signal relating to an operation of moving the lens,
When the operation signal detection unit detects an operation signal, the moving image data captured by the imaging unit and the audio data collected by the sound collection unit are recorded in the recording unit as a first file. In addition, when the operation signal detection unit stops detecting the operation signal, the moving image data captured by the imaging unit and the audio data collected by the sound collection unit are then transferred to the recording unit as a second file. A separate file recording control means for recording;
It is characterized by having.
[0018]
According to the invention described in claim 6, when the operation signal relating to the operation of moving the lens is detected by the operation signal detection means, the moving image data and the sound collection part which have been imaged by the imaging unit so far by the separate file recording control means. Is recorded in the recording unit as the first file. When the operation signal is no longer detected by the operation signal detection means, the moving image data picked up by the image pickup unit and the sound data picked up by the sound collection unit are recorded in the recording unit as a second file. That is, the moving image data and the sound collection data before the operation signal detecting means detects the operation signal and the moving image data and the sound collection data after the operation signal is no longer detected are recorded in the recording unit as separate files. The moving image data and sound collection data are not recorded in the recording unit while the operation signal relating to the movement of the lens is detected by the operation signal detection means, but the moving image data and sound collection data before and after the operation signal are not recorded. Is recorded as a separate file.
Therefore, when the moving image recorded in the recording unit is reproduced and output after capturing the moving image, the driving sound of the lens driving unit for moving the lens is generated even if the individual files are continuously reproduced and output. Since there is no captured image data (moving image data and audio data) and no driving sound of the lens driving unit is output, such driving sound cannot be recognized. Therefore, such a camera can reproduce a moving image so that the driving sound of the lens driving unit for moving the lens and the operation sound of moving the lens are not recognized as unpleasant sound.
[0019]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, an embodiment of the present invention will be described with reference to FIGS.
[First Embodiment]
FIG. 1 is a block diagram showing a main configuration of a digital camera according to the first embodiment of the present invention.
As shown in FIG. 1, the digital camera 100 outputs an image of a scene, in particular, a moving image, an imaging unit 10, a sound collection unit 20 that collects sound of the scene, and outputs sound. A speaker 30 as a sound effect output unit, a recording unit 40 for recording data of a moving image captured by the imaging unit 10 and data of audio collected by the sound collection unit 20, and an operation input for operating the digital camera 100 are performed. The digital camera 100 includes an operation unit 50, a battery 60 that supplies power to the digital camera 100, an image display device 70 that displays an operation related to the operation of the digital camera 100, and a control unit 80 that controls the operations of the above components.
[0020]
The imaging unit 10 includes a lens 11, a CCD 12, an image processing unit 13, a lens driving circuit 14, and a lens driving motor 15 as a lens driving unit.
The lens 11 forms an image of the scene on the light receiving surface of the CCD 12.
The CCD 12 outputs an electric signal (analog signal) based on the image formed on the light receiving surface to the image processing unit 13.
The image processing unit 13 converts an electric signal (analog signal) input from the CCD 12 into a digital image signal by A / D conversion. Then, the image processing unit 13 outputs the moving image data that has become the digital image signal to the control unit 80.
[0021]
The lens drive circuit 14 outputs a motor drive signal to the lens drive motor 15 based on an operation signal (lens drive signal) input from the operation unit 50 to be described later via the control unit 80.
The lens drive motor 15 is driven to rotate in accordance with the motor drive signal to move the lens 11. The lens 11 forms an image of the field on the light receiving surface of the CCD 12 at a zoom magnification corresponding to the moved position.
[0022]
The sound collection unit 20 includes a microphone 21 and an audio processing unit 22.
The microphone 21 outputs an electric signal (analog signal) based on the sound input as the sound of the object scene to the sound processing unit 22.
The audio processing unit 22 amplifies an electric signal (analog signal) input from the microphone 21 by an amplifier (not shown) and then A / D converts the signal into a digital audio signal. Then, the audio processing unit 22 outputs the audio data that has become the digital audio signal to the control unit 80.
[0023]
The speaker 30 outputs a predetermined sound effect based on sound effect output control means of the control unit 80 described later.
[0024]
The recording unit 40 includes, for example, a card slot 41 and a memory card A that is removably provided in the card slot 41.
The recording unit 40 records moving image data and audio data input from the image processing unit 13 and the audio processing unit 22 via the control unit 80 on the memory card A.
[0025]
The operation unit 50 includes a release SW (switch) (not shown) for specifying the start of an imaging operation (recording operation), a reproduction SW (not shown) for specifying reproduction of an image recorded on the memory card A, and an image display device 70. Has a cursor SW (not shown) for designating a position where an input is made on the display screen, a zoom adjustment SW 51 for adjusting a zoom magnification at the time of imaging, and the like, and an operation signal of each SW (for example, the zoom adjustment SW 51 is operated by the user). Accordingly, a lens drive signal for moving the lens 11 of the imaging unit 10) is output to the CPU 81 of the control unit 80.
[0026]
The battery 60 is, for example, a rechargeable rechargeable battery that can be used repeatedly, and is attached to a battery slot (not shown) to supply power to each unit in the digital camera 100.
[0027]
The image display device 70 is configured by a display such as an LCD, for example, and displays a predetermined screen, for example, a setting input screen for performing a function mode setting of the digital camera 100 according to a display signal input by the control unit 80. It performs display, playback display of images recorded on the memory card A, and the like. In addition, the image display device 70 has a function as a finder that continuously displays an image captured by the imaging unit 10 at the time of imaging.
[0028]
The control unit 80 is generally constituted by a CPU 81, an EEPROM 82, and a RAM 83.
The CPU 81 executes various control operations according to a digital camera control program stored in the EEPROM 82.
[0029]
The EEPROM 82 is an electrically rewritable read-only memory, and stores and stores in advance various control programs executed by the CPU 81, data and information used for various operations.
In the present invention, the EEPROM 82 particularly has a function as a voice information storage unit 82a, and is provided with a voice information storage area in which voice information relating to a predetermined sound effect is stored. The EEPROM 82 has a program storage area for storing an operation signal detection program 82b for detecting an operation signal relating to an operation of moving the lens 11, a sound effect output control program 82c for outputting a sound effect from the speaker 30, and the like. Is provided.
[0030]
When the CPU 81 executes the various processing programs, the RAM 83 expands the various programs in a program storage area (not shown) in the RAM 83 and stores data and the like generated when the CPU 81 executes the various processing programs, not shown. Temporarily store in the data storage area.
[0031]
The control unit 80 performs control, determination, and the like based on an operation signal in the imaging unit 10, an operation signal in the operation unit 50, and the like, and functions as an operation signal detection unit and a sound effect output control unit.
More specifically, the control unit 80 serves as an operation signal detection unit based on the operation signal detection program 82b, as an operation signal relating to the operation of the lens 11 of the imaging unit 10 moving, for example, a motor drive signal output from the lens drive circuit 14, , A control operation for detecting an operation signal (lens drive signal) or the like associated with the operation of the zoom adjustment switch 51 in the operation unit 50.
In addition, the control unit 80 is stored in the EEPROM 82 as an effect sound output control unit based on the detected operation signal related to the movement of the lens 11 based on the effect sound output control program 82c, for example, while detecting the operation signal. A control operation for outputting a sound effect based on the sound information from the speaker 30 is performed.
Further, the control unit 80 performs control of synchronizing the moving image data output from the image processing unit 13 and the audio data output from the audio processing unit 22 to record them in the recording unit 40.
[0032]
Next, an operation of capturing a moving image of the digital camera 100 configured as described above will be described with reference to FIG.
When a moving image is captured by the digital camera 100, the imaging unit 10 captures a moving image of the object scene, and the sound collection unit 20 collects sound at the time of capturing the moving image (step S101). Then, the image processing unit 13 of the imaging unit 10 outputs a digital image signal (moving image data) based on the captured moving image to the control unit 80, and the sound processing unit 22 of the sound collecting unit 20 performs processing based on the collected sound. The digital audio signal (audio data) is output to the control unit 80. The control unit 80 synchronizes the input moving image data and audio data and records them on the memory card of the recording unit 40 (step S102).
If the control unit 80 does not detect an operation signal related to the operation of moving the lens 11 during such moving image shooting (Step S103; NO), the process returns to Step S101 and the moving image shooting is continued.
[0033]
On the other hand, when the control unit 80 detects an operation signal related to the operation of moving the lens 11 (Step S103; YES), the process proceeds to Step S104.
Next, based on the detection of such an operation signal, the control unit 80 causes the speaker 30 to output a sound effect based on the audio information stored in the EEPROM 82 (step S104).
Then, in a state where such a sound effect is output from the speaker 30, the digital camera 100 captures a moving image of the object scene, and the sound collection unit 20 outputs the sound at the time of capturing the moving image. Sound is collected (step S105). Then, the image processing unit 13 of the imaging unit 10 outputs a digital image signal (moving image data) based on the captured moving image to the control unit 80, and the sound processing unit 22 of the sound collecting unit 20 performs processing based on the collected sound. The digital audio signal (audio data) is output to the control unit 80. The control unit 80 synchronizes the input moving image data and audio data and records them on the memory card of the recording unit 40 (Step S106).
In other words, the sound collection unit 20 collects the sound output from the speaker 30 together with the sound at the time of capturing the moving image of the scene, and the control unit 80 controls the effect together with the sound at the time of capturing the moving image of the scene. The sound is recorded in the recording unit 40.
Then, during such moving image shooting, while the control unit 80 continues to detect an operation signal related to the operation of moving the lens 11 (Step S107; YES), the process returns to Step S105, and the moving image shooting is continued.
[0034]
On the other hand, when the control unit 80 does not detect an operation signal related to the operation of moving the lens 11 (Step S107; NO), the process proceeds to Step S108.
Then, the control unit 80 stops outputting the sound effect (step S108), and then returns to step S101 to continue the moving image shooting.
[0035]
As described above, when the lens 11 is moved due to zoom adjustment, focus adjustment, or the like, the digital camera 100 outputs a sound effect from the speaker 30 based on the operation signal related to the operation of moving the lens 11. Then, the sound collecting unit 20 collects the sound effect together with the sound at the time of capturing the moving image of the scene, and the sound effect together with the sound of the scene is recorded in the recording unit 40.
That is, during the moving image shooting, while the drive sound of the lens drive motor 15 for performing the zoom adjustment and moving the lens 11 is emitted, the sound effect is output from the speaker 30 and the sound effect is output to the lens drive motor. Is recorded in the recording section 40 so as to cover the driving sound of the recording medium.
[0036]
Therefore, when the moving image recorded in the recording unit 40 is reproduced and output after the moving image is captured, the driving sound of the lens driving motor 15 for moving the lens 11 cannot be recognized because it is eliminated by the sound effect. Become. Therefore, the digital camera 100 can reproduce a moving image so that the driving sound of the lens driving motor 15 for moving the lens 11 and the operation sound of moving the lens 11 are not recognized as unpleasant sound.
[0037]
[Second embodiment]
Next, a second embodiment of the present invention will be described. The same parts as those in the first embodiment are denoted by the same reference numerals, and only different parts will be described.
As shown in FIG. 3, the digital camera 200 includes an imaging unit 10 that captures an image of a scene, particularly a moving image, a sound collection unit 20 that collects sound of the scene, and an imaging unit 10 A recording unit 40 for recording the data of the obtained moving image and the data of the sound collected by the sound collection unit 20, an operation unit 50 for performing an operation input for operating the digital camera 200, and a battery 60 for supplying power to the digital camera 200 And an image display device 70 for displaying the operation of the digital camera 200, and a control unit 80 for controlling the operation of each component described above.
[0038]
The EEPROM 82 of the control unit 80 stores an operation signal detection program 82b for detecting an operation signal relating to an operation of moving the lens 11, an audio data recording control program 82d for replacing audio data to be recorded in the recording unit 40, and the like. A program storage area for storing is provided.
The control unit 80 performs control, determination, and the like based on an operation signal in the imaging unit 10 and an operation signal in the operation unit 50, and functions as an operation signal detection unit and an audio data recording control unit.
More specifically, the control unit 80 operates as an audio data recording control unit based on the audio data recording control program 82d based on the detected operation signal related to the movement of the lens 11, for example, while detecting the operation signal, the EEPROM 82 The control operation of replacing the sound effect data based on the sound information stored in the recording unit 40 with the sound data based on the sound collected by the sound collection unit 20 and recording the sound data in the recording unit 40 is performed.
[0039]
Next, an operation of the digital camera 200 configured as described above to capture a moving image will be described with reference to FIG.
When a moving image is captured by the digital camera 200, the imaging unit 10 captures a moving image of the object scene, and the sound collection unit 20 collects sound at the time of capturing the moving image (step S201). Then, the image processing unit 13 of the imaging unit 10 outputs a digital image signal (moving image data) based on the captured moving image to the control unit 80, and the sound processing unit 22 of the sound collecting unit 20 performs processing based on the collected sound. The digital audio signal (audio data) is output to the control unit 80. The control unit 80 synchronizes the input moving image data and audio data and records them on the memory card of the recording unit 40 (Step S202).
If the control unit 80 does not detect an operation signal related to the operation of moving the lens 11 during such moving image shooting (Step S203; NO), the process returns to Step S201, and the moving image shooting is continued.
[0040]
On the other hand, when the control unit 80 detects an operation signal related to the operation of moving the lens 11 (step S203; YES), the process proceeds to step S204, and in step S204, moving image shooting is performed as before (step S204). .
Next, the image processing unit 13 of the imaging unit 10 outputs a digital image signal (moving image data) based on the captured moving image to the control unit 80. Then, based on the detection of the operation signal described above, the control unit 80 controls the sound collection unit 20 to collect the sound effect data based on the sound information stored in the EEPROM 82 so as to synchronize the sound effect data with the input moving image data. The sound data is replaced with the sound-based sound data and recorded on the memory card of the recording unit 40. (Step S205).
That is, the control unit 80 records the moving image data based on the moving image captured by the imaging unit 10 and the sound effect data based on the audio information stored in the EEPROM 82 in the recording unit 40 together.
Then, during such moving image shooting, while the control unit 80 continues to detect the operation signal related to the movement of the lens 11 (step S206; YES), the process returns to step S204, and the moving image shooting is continued.
[0041]
On the other hand, when the control unit 80 does not detect the operation signal related to the operation of moving the lens 11 (Step S206; NO), the process returns to Step S201, and the normal moving image shooting is continued.
[0042]
As described above, when the lens 11 is moved in accordance with zoom adjustment, focus adjustment, and the like, the digital camera 200 can use the effect based on the audio information stored in the EEPROM 82 based on the operation signal related to the operation of moving the lens 11. The sound data is replaced with the sound data based on the sound collected by the sound collecting unit 20 and recorded in the recording unit 40.
In other words, during the moving image capturing, while the drive sound of the lens driving motor 15 for performing the zoom adjustment and moving the lens 11 is being emitted, the control unit 80 controls the moving image based on the moving image captured by the imaging unit. The sound effect data based on the audio information stored in the EEPROM 82 is recorded in the recording unit 40 along with the data (see FIG. 5).
[0043]
Therefore, since the sound at the time of shooting when the lens drive motor 15 for moving the lens 11 is driven is replaced with the sound effect, the moving image recorded in the recording unit 40 is reproduced and output after the moving image is shot. At this time, since no drive sound of the lens drive motor 15 is output, such drive sound cannot be recognized. Therefore, the digital camera 200 can reproduce a moving image so that the driving sound of the lens driving motor 15 for moving the lens 11 and the operation sound of moving the lens 11 are not recognized as unpleasant sound.
[0044]
When the zoom adjustment SW 51 is operated, an operation sound may be generated. Therefore, sound is collected from a predetermined timing (for example, a time required for a switch operation, several tens msec to several hundred msec) from detection of an operation signal. The sound data and the sound effect data may be exchanged.
[0045]
Note that, in step S204 in the moving image capturing operation of the digital camera 200 according to the present embodiment, moving image capturing is performed in the same manner as described above, and moving image capturing and sound collection are performed. The function of the sound collection unit 20 may be temporarily stopped so that sound collection during imaging is not performed.
[0046]
[Third Embodiment]
Next, a third embodiment of the present invention will be described. The same parts as those in the first and second embodiments are denoted by the same reference numerals, and only different parts will be described.
As shown in FIG. 6, the digital camera 300 includes an imaging unit 10 that captures an image of a scene, particularly a moving image, a sound collection unit 20 that collects sound of the scene, and an imaging unit 10 that captures an image of the scene. A recording unit 40 for recording the data of the obtained moving image and the data of the sound collected by the sound collection unit 20, an operation unit 50 for performing an operation input for operating the digital camera 300, and a battery 60 for supplying power to the digital camera 300 And an image display device 70 for displaying the operation of the digital camera 300, and a control unit 80 for controlling the operation of each component described above.
[0047]
The EEPROM 82 of the control unit 80 includes an operation signal detection program 82b for detecting an operation signal related to an operation of moving the lens 11, a pause control program 82e for temporarily stopping the operations of the imaging unit 10 and the sound collection unit 20, and the like. Is provided in the storage area for storing program.
The control unit 80 performs control, determination, and the like based on an operation signal in the imaging unit 10, an operation signal in the operation unit 50, and the like, and functions as an operation signal detection unit and a temporary stop control unit.
The control unit 80 serves as a pause control unit based on the pause control program 82e, based on the detected operation signal related to the movement of the lens 11, for example, while detecting the operation signal, the imaging unit 10 and the sound collection unit 20. Is temporarily stopped, and a control operation for temporarily stopping recording of moving image data and audio data in the recording unit 40 is performed.
[0048]
Next, an operation of the digital camera 300 configured as described above to capture a moving image will be described with reference to FIG.
When a moving image is captured by the digital camera 300, the imaging unit 10 captures a moving image of the object scene, and the sound collection unit 20 collects sound at the time of capturing the moving image (step S301). Then, the image processing unit 13 of the imaging unit 10 outputs a digital image signal (moving image data) based on the captured moving image to the control unit 80, and the sound processing unit 22 of the sound collecting unit 20 performs processing based on the collected sound. The digital audio signal (audio data) is output to the control unit 80. The control unit 80 synchronizes the input moving image data and audio data and records them in the memory card of the recording unit 40 (Step S302).
If the control unit 80 does not detect an operation signal related to the operation of moving the lens 11 during such moving image shooting (Step S303; NO), the process returns to Step S301, and the moving image shooting is continued.
[0049]
On the other hand, when the control unit 80 detects an operation signal related to the operation of moving the lens 11 (Step S303; YES), the process proceeds to Step S304.
The control unit 80 suspends the operation of the imaging unit 10 and the sound collection unit 20 based on the detection of such an operation signal, and suspends the recording of the moving image data and the audio data in the recording unit 40 (step S304).
[0050]
Then, the control unit 80 temporarily stops recording the moving image data and the audio data in the recording unit 40 while continuously detecting the operation signal regarding the operation of moving the lens 11 (Step S305; YES).
On the other hand, when the control unit 80 does not detect an operation signal relating to the operation of moving the lens 11 (step S305; NO), the process proceeds to step S306. Then, the pause of the operation of the imaging unit 10 and the sound collection unit 20 is released (step S306), and the process returns to step S301 to continue moving image shooting.
[0051]
As described above, when the lens 11 is moved due to zoom adjustment, focus adjustment, or the like, the digital camera 300 operates the imaging unit 10 and the sound collection unit 20 based on the operation signal related to the operation of moving the lens 11. Pause. Then, recording of the imaging data (moving image data and audio data) in the recording unit 40 while detecting the operation signal is temporarily stopped.
In other words, the digital camera 300 performs recording of moving image data (moving image data and audio data) during zoom adjustment during moving image shooting, and shooting while the operation signal relating to the operation of moving the lens 11 is issued. No (see FIG. 8).
[0052]
Therefore, when the moving image recorded in the recording unit 40 is reproduced and output after capturing the moving image, there is no imaging data while the driving sound of the lens driving motor 15 for moving the lens 11 is being emitted, and the lens driving motor Since no 15 driving sounds are output, such driving sounds cannot be recognized. Therefore, the digital camera 300 can reproduce a moving image so that the driving sound of the lens driving motor 15 for moving the lens 11 and the operation sound of moving the lens 11 are not recognized as unpleasant sound.
[0053]
[Fourth Embodiment]
Next, a fourth embodiment of the present invention will be described. The same parts as those in the first to third embodiments are denoted by the same reference numerals, and only different parts will be described.
As shown in FIG. 9, the digital camera 400 includes an imaging unit 10 that captures an image of a scene, particularly a moving image, a sound collection unit 20 that collects sound of the scene, and an imaging unit 10 that captures an image of the scene. A recording unit 40 for recording the data of the obtained moving image and the data of the sound collected by the sound collection unit 20, an operation unit 50 for performing an operation input for operating the digital camera 400, and a battery 60 for supplying power to the digital camera 400 And an image display device 70 for displaying the operation of the digital camera 400, and a control unit 80 for controlling the operation of each component described above.
[0054]
The EEPROM 82 of the control unit 80 includes an operation signal detection program 82b for detecting an operation signal related to the operation of moving the lens 11, and another file for recording as a separate file for each piece of imaging data (moving image data and audio data). A program storage area for storing the recording control program 82f and the like is provided.
The control unit 80 performs control, determination, and the like based on an operation signal in the imaging unit 10, an operation signal in the operation unit 50, and the like, and functions as an operation signal detection unit and a separate file recording control unit.
The control unit 80 operates as a separate file recording control unit based on the separate file recording control program 82e, based on the detected operation signal related to the movement of the lens 11, for example, while detecting the operation signal, the moving image data or the audio data. Is temporarily stopped from being recorded in the recording unit 40, and the imaging data (moving image data and audio data) before the operation signal is detected and the imaging data (moving image data and audio data) after the operation signal is no longer detected. Is recorded in the recording unit 40 as another file.
[0055]
Next, an operation of capturing a moving image of the digital camera 400 configured as described above will be described with reference to FIG.
When a moving image is captured by the digital camera 400, the imaging unit 10 captures a moving image of the object scene, and the sound collection unit 20 collects sound at the time of capturing the moving image (step S401). Then, the image processing unit 13 of the imaging unit 10 outputs a digital image signal (moving image data) based on the captured moving image to the control unit 80, and the sound processing unit 22 of the sound collecting unit 20 performs processing based on the collected sound. The digital audio signal (audio data) is output to the control unit 80. The control unit 80 synchronizes the input moving image data and audio data and records them on the memory card of the recording unit 40 (step S402).
If the control unit 80 does not detect an operation signal related to the operation of moving the lens 11 during such moving image shooting (step S403; NO), the process returns to step S401, and the moving image shooting is continued.
[0056]
On the other hand, when the control unit 80 detects an operation signal related to the operation of moving the lens 11 (step S403; YES), the process proceeds to step S404.
Based on the detection of such an operation signal, the control unit 80 records the image data (moving image data, audio data) captured so far as one file in the memory card of the recording unit 40 (Step S404).
[0057]
Then, the control unit 80 temporarily stops recording moving image data and audio data in the recording unit 40 while continuously detecting an operation signal related to the operation of moving the lens 11 (step S405; YES).
On the other hand, when the control unit 80 does not detect an operation signal related to the operation of moving the lens 11 (step S405; NO), the process returns to step S401 and continues to capture a moving image.
[0058]
As described above, when the lens 11 is moved due to zoom adjustment, focus adjustment, or the like, the digital camera 400 captures image data (moving image data, audio data) based on an operation signal related to the operation of moving the lens 11. Are recorded in the recording unit 40 as one file. Then, the recording of the imaging data in the recording unit 40 while the operation signal is being detected is temporarily stopped.
In other words, every time the zoom adjustment is performed during the moving image shooting and an operation signal related to the operation of moving the lens 11 is issued, the imaging data taken during that time is stored in the recording unit 40 as separate files. (See FIG. 11).
[0059]
Therefore, when the moving image recorded in the recording unit 40 is reproduced and output after capturing the moving image, the driving sound of the lens driving motor 15 for moving the lens 11 is generated even if the individual files are continuously reproduced and output. Since there is no imaging data during this period and no drive sound of the lens drive motor 15 is output, such drive sound cannot be recognized. Therefore, the digital camera 400 can reproduce a moving image so that the driving sound of the lens driving motor 15 for moving the lens 11 and the operation sound of moving the lens 11 are not recognized as unpleasant sound.
[0060]
As described above, according to the digital cameras 100, 200, 300, and 400 of the present invention, the operation sound of the lens 11 and the driving sound of the lens driving motor 15 are unpleasant when the moving image recorded and reproduced is reproduced. The reproduction output can be performed without being recognized as a sound.
[0061]
In the above-described embodiment, the recording unit 40 is described as an example of the card slot 41 and one set of the memory card A detachably provided in the card slot 41. However, the present invention is not limited to this. Instead, the number (the number of sets) is arbitrary. For example, moving image data is recorded on a card slot 41a and a memory card B detachably provided in the card slot 41a, and audio data is recorded on a memory card C detachably provided in the card slot 41b and the card slot 41b. A card slot or a memory card may be used for each data.
The recording unit 40 is a card slot 41 and a memory card A detachably provided in the card slot 41. However, the present invention is not limited to this. -It is arbitrary such as a magnetic storage medium (for example, an optical disk or a magnetic disk).
[0062]
Further, in the above-described embodiment, the configuration in which the control unit 80 includes the EEPROM 82 has been described as an example. However, the present invention is not limited to this. Any memory can be used as long as the memory can be retained even when 60) is turned off.
[0063]
The moving image data output from the image processing unit 13 to the control unit 80 and the audio data output from the audio processing unit 22 to the control unit 80 are temporarily stored in the RAM 83 of the control unit 80 and stored after a predetermined timing. You may make it memorize | store in the part 40.
[0064]
In addition, it goes without saying that specific detailed structures and the like can be appropriately changed.
[0065]
【The invention's effect】
According to the first aspect of the present invention, when the operation signal relating to the movement of the lens is detected by the operation signal detection means, the sound effect based on the sound information stored in the sound information storage unit is output by the sound effect output control means. Output from the sound effect output unit. Then, the sound collecting unit collects the sound effect together with the sound at the time of capturing the moving image of the scene.
Therefore, when the moving image recorded in the recording unit is reproduced and output after the moving image is captured, the driving sound of the lens driving unit for moving the lens is canceled out by the sound effect and cannot be recognized. Therefore, such a camera can reproduce a moving image so that the driving sound of the lens driving unit for moving the lens and the operation sound of moving the lens are not recognized as unpleasant sound.
[0066]
According to the second aspect of the invention, the same effect as the first aspect of the invention is achieved, and the sound collection unit outputs the sound output from the sound effect output unit together with the sound at the time of capturing the moving image of the object scene. The sound is collected, and the recording unit records the moving image data captured by the imaging unit and the audio data collected by the sound collection unit in synchronization with each other.
Therefore, when reproducing and outputting the moving image recorded in the recording unit after the moving image is captured, the sound at the time of capturing the moving image including the driving sound of the lens driving unit for moving the lens may be overlaid with the sound effect. , The driving sound of the lens driving unit cannot be recognized so as to be erased. Therefore, such a camera can reproduce a moving image so that the driving sound of the lens driving unit for moving the lens and the operation sound of moving the lens are not recognized as unpleasant sound.
[0067]
According to the third aspect of the present invention, when an operation signal relating to the movement of the lens is detected by the operation signal detecting means, the audio data is recorded as audio data while the operation signal is detected by the audio data recording control means. Sound effect data based on the audio information stored in the information storage unit is recorded in the recording unit. While the motion signal is being detected by the motion signal detection means in the recording unit, the sound effect data is recorded together with the captured moving image data.
Therefore, since the sound at the time of shooting when the lens driving unit for moving the lens is driven is replaced with a sound effect, when reproducing and outputting a moving image recorded in the recording unit after shooting a moving image, Since the driving sound of the driving section is not output, such driving sound cannot be recognized. Therefore, such a camera can reproduce a moving image so that the driving sound of the lens driving unit for moving the lens and the operation sound of moving the lens are not recognized as unpleasant sound.
[0068]
According to the fourth aspect of the invention, the same operation as the third aspect of the invention is achieved, and the audio data recording control means stores the audio data collected by the sound collection unit and the audio data stored in the audio information storage unit. The sound effect data based on the sound information is replaced and recorded in the recording unit.
Therefore, the sound at the time of capturing the moving image including the driving sound of the lens driving unit collected by the sound collecting unit is replaced with the sound effect based on the sound information stored in the sound information storage unit. Later, when the moving image recorded in the recording unit is reproduced and output, the driving sound of the lens driving unit is not output, so that such driving sound cannot be recognized. Therefore, such a camera can reproduce a moving image so that the driving sound of the lens driving unit for moving the lens and the operation sound of moving the lens are not recognized as unpleasant sound.
[0069]
According to the fifth aspect of the invention, while the operation signal relating to the movement of the lens is detected by the operation signal detection means, the operation of both the imaging unit and the sound collection unit is temporarily stopped by the pause control means. That is, the moving image data and the sound collection data while the operation signal detecting means detects the operation signal are not recorded in the recording unit.
Therefore, when the moving image recorded in the recording unit is reproduced and output after capturing the moving image, the imaging data (moving image data and audio data) while the driving sound of the lens driving unit for moving the lens is being emitted is generated. In addition, since no driving sound is output from the lens driving unit, such driving sound cannot be recognized. Therefore, such a camera can reproduce a moving image so that the driving sound of the lens driving unit for moving the lens and the operation sound of moving the lens are not recognized as unpleasant sound.
[0070]
According to the invention described in claim 6, when the operation signal relating to the operation of moving the lens is detected by the operation signal detection means, the moving image data and the sound collection part which have been imaged by the imaging unit so far by the separate file recording control means. Is recorded in the recording unit as the first file. When the operation signal is no longer detected by the operation signal detection means, the moving image data picked up by the image pickup unit and the sound data picked up by the sound collection unit are recorded in the recording unit as a second file. That is, the moving image data and the sound collection data before the operation signal detecting means detects the operation signal and the moving image data and the sound collection data after the operation signal is no longer detected are recorded in the recording unit as separate files. The moving image data and sound collection data are not recorded in the recording unit while the operation signal relating to the movement of the lens is detected by the operation signal detection means, but the moving image data and sound collection data before and after the operation signal are not recorded. Is recorded as a separate file.
Therefore, when the moving image recorded in the recording unit is reproduced and output after capturing the moving image, the driving sound of the lens driving unit for moving the lens is generated even if the individual files are continuously reproduced and output. Since there is no captured image data (moving image data and audio data) and no driving sound of the lens driving unit is output, such driving sound cannot be recognized. Therefore, such a camera can reproduce a moving image so that the driving sound of the lens driving unit for moving the lens and the operation sound of moving the lens are not recognized as unpleasant sound.
[Brief description of the drawings]
FIG. 1 is a block diagram illustrating a main configuration of a digital camera according to a first embodiment of the present invention.
FIG. 2 is a flowchart illustrating a moving image shooting operation of the digital camera according to the first embodiment of the present invention.
FIG. 3 is a block diagram illustrating a main configuration of a digital camera according to a second embodiment of the present invention.
FIG. 4 is a flowchart illustrating a moving image shooting operation of a digital camera according to a second embodiment of the present invention.
FIG. 5 is a schematic diagram illustrating imaging data recorded by a digital camera according to a second embodiment of the present invention.
FIG. 6 is a block diagram showing a main configuration of a digital camera according to a third embodiment of the present invention.
FIG. 7 is a flowchart illustrating a moving image shooting operation of a digital camera according to a third embodiment of the present invention.
FIG. 8 is a schematic diagram illustrating imaging data recorded by a digital camera according to a third embodiment of the present invention.
FIG. 9 is a block diagram showing a main configuration of a digital camera according to a fourth embodiment of the present invention.
FIG. 10 is a flowchart illustrating a moving image shooting operation of a digital camera according to a fourth embodiment of the present invention.
FIG. 11 is a schematic diagram illustrating imaging data recorded by a digital camera according to a fourth embodiment of the present invention.
[Explanation of symbols]
10 Imaging unit
11 lenses
12 CCD
13 Image processing unit
14 Lens drive circuit
15 Lens drive motor (lens drive unit)
20 sound collection section
21 microphone
22 Audio processing unit
30 speakers (sound effect output section)
40 Recorder
50 Operation unit
51 Zoom adjustment switch
80 control unit (operation signal detection means, sound effect output control means, audio data recording control means, pause control means, separate file recording control means)
81 CPU
82 EEPROM
82a Voice information storage unit
82b Operation signal detection program (operation signal detection means)
82c sound effect output control program (sound effect output control means)
82d audio data recording control program (audio data recording control means)
82e temporary stop control program (temporary stop control means)
82f separate file recording control program (separate file recording control means)
83 RAM
100, 200, 300, 400 Digital camera (camera)

Claims (6)

An imaging unit having a lens driving unit for moving a lens, capturing an image of a moving image of an object scene, a sound collecting unit collecting sound when capturing a moving image of the object scene, and an image captured by the imaging unit A recording unit for recording moving image data and audio data collected by the sound collection unit,
An audio information storage unit that stores audio information of a predetermined sound effect,
A sound effect output unit that outputs a sound effect based on the sound information stored in the sound information storage unit;
Operation signal detection means for detecting an operation signal relating to an operation of moving the lens,
Sound effect output control means for outputting a sound effect from the sound effect output unit based on the operation signal detected by the operation signal detection means,
A camera comprising: The sound collection unit, together with the sound at the time of capturing the moving image of the object scene, collects the sound effect output from the sound effect output unit,
2. The camera according to claim 1, wherein the recording unit records the moving image data captured by the imaging unit and the audio data collected by the sound collection unit in synchronization with each other. 3. An imaging unit having a lens driving unit for moving a lens, capturing an image of a moving image of an object scene, a sound collecting unit collecting sound when capturing a moving image of the object scene, and an image captured by the imaging unit A recording unit for recording moving image data and audio data collected by the sound collection unit,
An audio information storage unit that stores audio information of a predetermined sound effect,
Operation signal detection means for detecting an operation signal relating to an operation of moving the lens,
Audio data that causes the recording unit to record sound effect data based on audio information stored in the audio information storage unit as audio data corresponding to moving image data while the operation signal detection unit is detecting the operation signal. Recording control means;
A camera comprising: The sound data recording control unit may replace the sound data collected by the sound collection unit with sound effect data based on the sound information stored in the sound information storage unit, and record the sound data in the recording unit. The camera according to claim 3, wherein An imaging unit having a lens driving unit for moving a lens, capturing an image of a moving image of an object scene, a sound collecting unit collecting sound when capturing a moving image of the object scene, and an image captured by the imaging unit A recording unit for recording moving image data and audio data collected by the sound collection unit,
Operation signal detection means for detecting an operation signal relating to an operation of moving the lens,
While the operation signal detection unit detects the operation signal, a pause control unit for temporarily stopping the operation of the imaging unit and the sound collection unit,
A camera comprising: An imaging unit having a lens driving unit for moving a lens, capturing an image of a moving image of an object scene, a sound collecting unit collecting sound when capturing a moving image of the object scene, and an image captured by the imaging unit A recording unit for recording moving image data and audio data collected by the sound collection unit,
Operation signal detection means for detecting an operation signal relating to an operation of moving the lens,
When the operation signal detection unit detects an operation signal, the moving image data captured by the imaging unit and the audio data collected by the sound collection unit are recorded in the recording unit as a first file. In addition, when the operation signal detection unit stops detecting the operation signal, the moving image data captured by the imaging unit and the audio data collected by the sound collection unit are then transferred to the recording unit as a second file. A separate file recording control means for recording;
A camera comprising:

Images