JP2006352227A - Imaging apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an imaging apparatus capable of calculating a residual time for image signals recordable on a recording medium even when photographing is carried out at a variable frame rate at the photographing. <P>SOLUTION: An imaging element 3 applies photoelectric conversion to an object image and outputs the result as an input signal. An imaging element control section 2 variably controls a frame rate of the imaging element 3. A recording section 4 records the image signal outputted from the imaging element 3 to the recording medium. A recording capacity output section 6 detects a recording residual capacity of the recording medium. A recording residual time calculation section 7 calculates the residual time recordable of the image signal on the recording medium on the basis of the recording capacity detected by the recording capacity output section 6 and the frame rate of the image signal at a present point of time outputted from a frame rate output section 1. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to an imaging apparatus that captures an image with a variable frame rate and acquires an image.

  In recent years, electronic photographing systems capable of adding special effects such as slow motion and quick motion to images at the time of photographing and corresponding to photographing at a variable frame rate have been frequently used. Patent Document 1 discloses that special video effects such as high-speed playback and slow playback can be easily obtained when imaging is performed using a video camera by digitizing television program production or movie production. The use of a variable frame rate imaging device is described.

  By using this imaging device to capture images at a frame rate lower than the predetermined frame rate at the time of reproduction, and reproducing the captured image at the predetermined frame rate at the time of reproduction, a high-speed reproduction image can be easily obtained. it can. Further, if the image is taken at a high frame rate and the captured image is reproduced at a predetermined frame rate, a slow reproduction image can be easily obtained.

Also, in Patent Document 2, it is possible to notify the remaining amount due to recording and the degree of decrease in remaining time by displaying the remaining amount display of the unrecorded area of the recording medium in association with the encoding rate. A video recording apparatus has been proposed. In particular, in shooting at a variable frame rate, the current frame rate value is not fixed, but changes with time, and the degree of decrease in the remaining amount of the recording medium also changes. The importance of displaying the remaining time is increasing.
JP 2005-39708 A JP 2003-250114 A

  The remaining amount display of the recording medium of the conventional video camera does not correspond to the variable frame rate. When the frame rate is fixed at 30 fps, which is the frame rate of a general television signal, or when the frame rate is a fixed frame rate such as 50 fps during shooting, although it is a variable frame rate, the number of pixels The remaining time that can be recorded on the recording medium can be calculated from the frame rate and the remaining amount of the recording medium. However, it has not been devised to calculate the remaining recordable time when the frame rate is variable during shooting. In addition, regarding a time series change of the variable frame rate, a method for confirming information on a frame rate at the time of shooting performed in the past and information on a frame rate scheduled for shooting in the future has not been devised.

  The present invention has been made in view of the above-described problems, and calculates the remaining time in which an image signal can be recorded on a recording medium even when shooting is performed with a variable frame rate at the time of shooting. It is a first object of the present invention to provide an imaging device capable of performing the above. It is a second object of the present invention to provide an imaging apparatus that enables a photographer to check a time-series change in frame rate.

  The present invention has been made to solve the above-described problems. The invention according to claim 1 is an image sensor that photoelectrically converts a subject image and outputs it as an image signal, and a variable frame rate of the image sensor. An image sensor control unit for controlling the image signal, a recording unit for recording the image signal output from the image sensor on a recording medium, a remaining amount detecting unit for detecting a remaining recording amount of the recording medium, and the remaining amount detecting unit. And a remaining time calculating means for calculating a remaining time during which the image signal can be recorded on the recording medium based on the remaining recording amount and the frame rate.

  According to a second aspect of the present invention, in the imaging apparatus according to the first aspect, the remaining time calculating unit calculates the remaining time based on the remaining recording amount and the current frame rate. To do.

  According to a third aspect of the present invention, an image sensor that photoelectrically converts a subject image and outputs the image as an image signal, an image sensor control unit that variably controls a frame rate of the image sensor, and the output from the image sensor Recording means for recording an image signal on a recording medium, remaining amount detection means for detecting the remaining recording amount of the recording medium, frame rate storage means for storing the frame rate, and the remaining amount detection means detected by the remaining amount detection means A remaining time calculating means for calculating a remaining time in which the image signal can be recorded on the recording medium, based on the remaining recording capacity and the frame rate from the start of shooting to the current time stored by the frame rate storing means; It is an imaging device characterized by having.

  According to a fourth aspect of the present invention, in the imaging apparatus according to the third aspect, the remaining time calculating means is configured to determine the remaining time based on the remaining recording amount and an average value of the frame rate from the start of photographing to the present time. Is calculated.

  The invention according to claim 5 is an image sensor that photoelectrically converts a subject image and outputs the image as an image signal, an image sensor control unit that variably controls a frame rate of the image sensor, and the output from the image sensor. Recording means for recording an image signal on a recording medium, remaining amount detecting means for detecting the remaining recording capacity of the recording medium, and frame rate storage means for previously storing time-series changes in the frame rate from the start to the end of imaging And a remaining time during which the image signal can be recorded on the recording medium is calculated based on the remaining recording amount detected by the remaining amount detecting unit and the frame rate stored by the frame rate storing unit. An imaging apparatus comprising: a remaining time calculating unit.

  According to a sixth aspect of the present invention, in the imaging apparatus according to the fifth aspect, the remaining time calculating unit calculates the remaining time based on the remaining recording amount and the frame rate from the current time to the end of shooting. It is characterized by that.

  A seventh aspect of the present invention is the imaging apparatus according to any one of the first to sixth aspects, further comprising a remaining time display unit that displays the remaining time calculated by the remaining time calculating unit. It is characterized by that.

  The invention according to claim 8 is the imaging apparatus according to any one of claims 1 to 7, further comprising a frame rate display means for displaying a time-series change of the frame rate. .

  According to a ninth aspect of the present invention, in the imaging device according to the seventh aspect, an upper limit value input means for inputting the upper limit value of the frame rate and a lower limit value input for inputting the lower limit value of the frame rate. And the image sensor control means controls the frame rate to be between the input upper limit value and lower limit value, and the remaining time calculation means A first remaining time during which the image signal can be recorded on the recording medium is calculated based on the upper limit value, and the image signal is recorded on the recording medium based on the remaining recording capacity and the lower limit value. A possible second remaining time is calculated, and the remaining time display means displays at least one of the first remaining time and the second remaining time.

  According to a tenth aspect of the present invention, in the imaging device according to any one of the first to tenth aspects, the recording time input means for inputting a remaining recording time until the end of imaging, and the input Based on the remaining recording time and the remaining time calculated by the remaining time calculating means, a compression ratio determining means for determining a compression ratio of the image signal, and the compression ratio determined by the compression ratio determining means And an image compression means for compressing the image signal.

  According to the present invention, it is possible to calculate the remaining time in which an image signal can be recorded on a recording medium even when shooting is performed with a variable frame rate. In addition, according to the present invention, since the time series change of the frame rate is displayed by the display means, it is possible to obtain an effect that the photographer can confirm the time series change of the frame rate.

  The best mode for carrying out the present invention will be described below with reference to the drawings. FIG. 1 shows the configuration of an imaging apparatus according to the first embodiment of the present invention. The frame rate output unit 1 outputs sequentially input frame rate information to the image sensor control unit 2 and the remaining recording time calculation unit 7. The frame rate information indicates, for example, a frame rate value input in real time by the photographer during shooting. The image sensor control unit 2 (image sensor control means) variably controls the frame rate of the image sensor 3 by controlling the timing of imaging by the image sensor 3 based on the input frame rate information. The image pickup timing control by the image pickup device control unit 2 includes the control of the exposure time (electronic shutter speed) of the image pickup device 3, the control of the operation timing of the horizontal scanning circuit / vertical scanning circuit, and the horizontal synchronization signal / vertical synchronization signal. Timing control and the like are included. The exposure time can be arbitrarily set by the user, and the exposure time of the image sensor 3 is controlled to a desired exposure time.

  The image sensor 3 is an image sensor such as a CMOS sensor or a CCD sensor, photoelectrically converts a subject image, and outputs it as an image signal. The image pickup device 3 is driven and controlled as described above by the image pickup device control section 2, and the frame rate of the output image signal is variable. The image signal output from the image sensor 3 is subjected to image processing such as white balance correction, gamma correction, and edge enhancement, and then recorded as image data in the recording unit 4. The recording unit 4 (recording unit) includes a recording medium for recording an image signal, a circuit for reading and writing the image signal (recording and reading of the image signal) with respect to the recording medium, and the like. The reproduction unit 5 reads and encodes the image signal recorded in the recording unit 4 and outputs it as a reproduction video signal.

  The recording capacity output unit 6 (remaining capacity detection means) detects the remaining recording capacity (remaining capacity and free capacity) of the recording medium of the recording section 4 and outputs it to the remaining recording time calculation section 7 and the recorded information display section 8. The remaining recording time calculation unit 7 (remaining time calculation unit) includes the current (current) frame rate information output from the frame rate output unit 1, the remaining recording amount output from the recording capacity output unit 6, and 1 Based on the data amount of image data per frame, the remaining time (recording remaining time) in which the image signal can be recorded on the recording medium of the recording unit 4 is calculated. The remaining recording time calculation unit 7 calculates the remaining recording time on the assumption that the current frame rate is constant after the current time. The remaining recording time calculation unit 7 outputs the calculation result to the recording information display unit 8. The recording information display unit 8 (remaining time display means) displays the remaining recording time output from the recording capacity output unit 6 and the remaining recording time information output from the recording remaining time calculation unit 7 so as to be visible.

  As described above, even when shooting is performed with a variable frame rate at the time of shooting, the remaining recording time calculation unit 7 uses the current frame rate to calculate the remaining recording time for recording an image signal on a recording medium. calculate. The calculated remaining recording time is displayed visually by the recording information display unit 8, so that the photographer can record on the (current) recording medium at the present time while controlling the frame rate of the image sensor 3. The remaining recording time can be confirmed, and the capacity of the recording medium can be used effectively.

  Next, a second embodiment of the present invention will be described. FIG. 2 shows the configuration of the imaging apparatus according to the present embodiment. In the present embodiment, a frame rate information recording unit 9 (frame rate storage means) is provided. The frame rate information recording unit 9 includes a recording medium for storing the frame rate information, a circuit for reading and writing the frame rate information to the recording medium (recording and reading frame rate information), and the like. The frame rate information is input in real time by the photographer during shooting, for example, and is sequentially recorded in the frame rate information recording unit 9. The recording areas of the recording unit 4 and the frame rate information recording unit 9 can be realized by a non-volatile memory, a magnetic recording medium, or the like, but they may be realized by different recording media or within the same recording medium. May be realized by different recording areas.

  The remaining recording time is calculated as follows. Assume that the time-series change in the frame rate based on the frame rate information is the time-series change A1 in FIG. At one point in time during shooting (shown as “NOW” in FIG. 3), the change in the average value of the frame rate from the start of shooting to each point in time is shown as the average value B1. The remaining recording time calculation unit 7 is based on the average value of the frame rate from the start of shooting to the current time, the remaining recording amount at the current time output from the recording capacity output unit 6, and the data amount of image data per frame. The remaining recording time is calculated. In this way, the remaining recording time is calculated in consideration of the time-series change of the past frame rate. Accordingly, the remaining recording time can be calculated more accurately as compared with the first embodiment in which the remaining recording time is calculated on the assumption that the current frame rate is constant thereafter. The value of the frame rate used for calculating the remaining recording time is not limited to the average value of the frame rate from the start of shooting to the current time.For example, the frame rate value with the highest appearance frequency or the highest appearance frequency in order. An average value of a plurality of selected frame rates may be used.

  Next, a third embodiment of the present invention will be described. FIG. 4 shows the configuration of the imaging apparatus according to the present embodiment. In the present embodiment, a frame rate setting unit 10 is provided instead of the frame rate output unit 1 of FIG. The frame rate setting unit 10 reads the frame rate information recorded in advance in the frame rate information recording unit 9 and sets the frame rate of each frame from the start of shooting to the end of shooting in the image sensor control unit 2. The frame rate setting unit 10 outputs frame rate information including time-series changes in the frame rate from the start of shooting to the end of shooting to the remaining recording time calculation unit 7.

  The frame rate information recorded in the frame rate information recording unit 9 indicates a time-series change (time change) of the frame rate corresponding to the passage of time during the photographing time. The frame rate information recording unit 9 can store a plurality of pieces of frame rate information, and the photographer can select which frame rate information to use at the time of shooting. At the time of shooting, the selected frame rate information is read from the frame rate information recording unit 9 and output to the frame rate output unit 1. The frame rate output unit 1 sequentially outputs the frame rate of each frame constituting the frame rate information to the image sensor control unit 2 and the remaining recording time calculation unit 7.

  FIG. 5 shows an example of the contents of the frame rate information. A frame rate curve 201 in the figure shows a time-series change in the frame rate during shooting. At one point in time during shooting (shown as “NOW” in FIG. 5), the remaining recording time calculation unit 7 calculates the frame rate value from that point to the end of shooting based on the frame rate information, and the recording capacity output. The remaining recording time is calculated based on the remaining recording capacity at that time output from the unit 6 and the data amount of the image data per frame. Since the number of frames between any two time points during shooting can be calculated based on the time-series change of the frame rate from the start of shooting to the end of shooting, from the present time based on the remaining amount of the recording medium in the recording unit 4 The number of remaining frames of the recordable image signal is obtained, and the time point when the recording of the number of frames is completed can be obtained from the time series change. Therefore, the remaining recording time can be calculated. The remaining recording time can be calculated not only during shooting but before the start of shooting.

  The remaining recording time calculated in this way is based on time-series changes in the frame rate actually used. Therefore, according to the present embodiment, the remaining recording time is accurately calculated as compared with the first embodiment in which the remaining recording time is calculated on the assumption that the current frame rate is constant thereafter. Can do.

  In addition, since frame rate information can be recorded in advance, desired frame rate information can be read out from the frame rate information recording unit 9 and output to the repeated frame rate setting unit 10 at the time of shooting, so that a reproducible change in the frame rate is possible. The image can be acquired with. For example, frame rate information generated by another imaging device may be recorded in the frame rate information recording unit 9. The frame rate setting unit 10 reads out this frame rate information from the frame rate information recording unit 9 and sets the frame rate of each frame in the image sensor control unit 2, so that the time of shooting performed by another imaging device Shooting at the same frame rate is possible.

  If desired frame rate information recorded in advance in the frame rate information recording unit 9 is read out and displayed after shooting, it can be confirmed at what frame rate change the shooting was performed. Furthermore, by performing imaging using the frame rate information recorded in the frame rate information recording unit 9, it is possible to perform imaging again with the same frame rate change as in past imaging.

  Next, a fourth embodiment of the present invention will be described. FIG. 6 shows the configuration of the imaging apparatus according to the present embodiment. In FIG. 6, a part of the configuration shown in FIG. 1 and the like is not shown. In the present embodiment, a frame rate upper limit value input unit 11 (upper limit value input unit), a frame rate lower limit value input unit 12 (lower limit value input unit), a frame rate information display unit 13 (frame rate display unit), and A recording remaining amount display unit 14 (remaining time display means) is provided.

  The frame rate upper limit value input unit 11 and the frame rate lower limit value input unit 12 are for inputting an upper limit value and a lower limit value of the frame rate, respectively. The frame rate upper limit value input unit 11 and the frame rate lower limit value input unit 12 include movable members such as knobs, switches, and levers operated by the user, and information corresponding to the operation of the movable members is displayed in the frame rate. Output to the information recording unit 9. It is possible to arbitrarily change the value of the frame rate by operating the movable member such as manually rotating the knob.

  The upper limit value of the frame rate input from the upper limit value input unit 11 of the frame rate and the lower limit value of the frame rate input from the lower limit value input unit 12 of the frame rate are recorded in the frame rate information recording unit 9. The image sensor control unit 2 controls the frame rate of the image sensor 3 so as to be between the upper limit value and the lower limit value. Further, the remaining recording time calculation unit 7 calculates the minimum remaining recording time based on the upper limit value of the frame rate, and calculates the maximum remaining recording time based on the lower limit value of the frame rate.

  In addition to the above upper limit value and lower limit value, the frame rate information recording unit 9 records frame rate information in the same manner as in each of the embodiments described above. Regarding the calculation of the remaining recording time, it is possible to calculate in the following three modes. In the first mode, frame rate information is input in real time during shooting and is recorded in the frame rate information recording unit 9. The remaining recording time calculation unit 7 calculates the remaining recording time using the current frame rate information. The calculation of the remaining recording time in the first mode is the same as the calculation of the remaining recording time in the first embodiment.

  In the second mode, frame rate information is input in real time during shooting and is recorded in the frame rate information recording unit 9. The remaining recording time calculation unit 7 calculates the remaining recording time using the frame rate information from the start of photographing to the current time. The calculation of the remaining recording time in the second mode is the same as the calculation of the remaining recording time in the second embodiment. In the third mode, frame rate information is input in advance before shooting and recorded in the frame rate information recording unit 9. The remaining recording time calculation unit 7 calculates the remaining recording time using frame rate information from the start of shooting to the end of shooting. The calculation of the remaining recording time in the third mode is the same as the calculation of the remaining recording time in the third embodiment.

  The frame rate information display unit 13 displays time-series changes in the frame rate indicated by the frame rate information recorded in the frame rate information recording unit 9. The frame rate information display unit 13 can display a time-series change in the frame rate based on the frame rate information as an image. In the first and second modes, the frame rate information display unit 13 displays the time series change of the frame rate from the start of photographing to the present time as a graph or the like (see time series change A1 in FIG. 3). In the second mode, as necessary, the frame rate information display unit 13 shows a change in the average value of the frame rate from the start of shooting to the time point between the start of shooting and the end of shooting. As an average value B1). Also, a display that can identify the position of the current frame rate is made. By performing the display as described above, the photographer can know the change in the frame rate from the start of photographing.

  In the third mode, the frame rate information display unit 13 displays a time-series change in frame rate from the start of shooting to the end of shooting as a graph or the like (see time-series change A2 in FIG. 7). In the third mode, as necessary, the frame rate information display unit 13 displays a change in the average value of the frame rate from the start of shooting to the time point between the start of shooting and the end of shooting, such as a graph (FIG. 7). As an average value B2). By performing such display, the photographer can check the entire image of the frame rate change from the start of shooting to the end of shooting. When shooting using pre-recorded frame rate information, the photographer can know the previous frame rate in time, so camera work can be performed accordingly, and information can be notified to the subject. By doing so, it is possible to create a production effect and to perform shooting with a desired video effect.

  The remaining recording amount display unit 14 displays the remaining recording time calculated by the remaining recording time calculation unit 7 and the remaining amount of the recording medium. FIG. 8A is an example of display of the remaining recording amount and the remaining recording time in the first and second modes. In the display area 301, the remaining amount of the recording medium and the total capacity (current recording capacity and total free capacity) are displayed. The display area 302 displays an upper limit value and a lower limit value of the frame rate, and a minimum recording remaining time and a maximum recording remaining time corresponding to each of them. In the display area 303, the remaining recording time corresponding to each of mode 1 and mode 2 is displayed. FIG. 8B is an example of display of the remaining recording amount and the remaining recording time in the third mode. In the display area 304, the remaining recording time corresponding to mode 3 is displayed.

  As described above, in the present embodiment, the remaining recording time corresponding to each of the upper limit value and the lower limit value is displayed by the remaining recording amount display unit 14. This is a guideline for the photographer to consider at what frame rate change the desired recording time can be achieved. In the present embodiment, the content of the frame rate information is displayed by the frame rate information display unit 13. Thus, the photographer can confirm the time-series change of the frame rate, and can take an image in an optimum state for recording while giving an optimum frame rate change based on the displayed information.

  The frame rate information display unit 13 may display frame rate information at the time of past shooting. As a result, when playing back an image that has already been shot, the frame rate at which the shot was taken can be checked by the photographer while viewing the output image, and the video effect of the shot is rechecked. be able to. As described above, according to the present embodiment, it is possible to confirm the outline of the frame rate at the time of past photographing and the frame rate at the time of photographing to be performed in the future.

  Next, a fifth embodiment of the present invention will be described. FIG. 9 shows the configuration of the imaging apparatus according to the present embodiment. In FIG. 9, a part of the configuration shown in FIG. 1 and the like is not shown. In the present embodiment, an image compression unit 15 (image compression unit), a recording time setting unit 16 (recording time input unit), and a compression rate control unit 17 (compression rate determination unit) are provided. The image compression unit 15 compresses the image signal output from the image sensor 3 and outputs the compressed image signal to the recording unit 4. The recording time setting unit 16 is used for the photographer to input the remaining recording time (shooting time) from the start of shooting to the end of shooting before setting the image pickup apparatus. The recording time input to the recording time setting unit 16 is output to the compression rate control unit 17. The compression rate control unit 17 controls a compression parameter corresponding to the compression rate used when the image compression unit 15 compresses the image signal.

  Before the start of the photographing operation, the remaining recording time calculation unit 7 reads the frame rate information read from the frame rate information recording unit 9, the remaining recording amount output from the recording capacity output unit 6, and the image data per frame. The remaining recording time when shooting is started from the present time is calculated based on the data amount and the compression rate indicated by a predetermined compression parameter or an arbitrarily set compression parameter. The remaining recording time calculation unit 7 outputs the calculated remaining recording time to the compression rate control unit 17.

  The compression rate control unit 17 compresses the compression parameter being shot based on the recording time output from the recording time setting unit 16 and the recording remaining time calculated by the recording remaining time calculating unit 7 and corresponding to the current compression parameter. To decide. For example, when the user's desired recording time is longer than the remaining recording time, the compression rate controller 17 increases the compression rate at the expense of image quality in order to reduce the recording capacity. On the other hand, when the desired recording time of the photographer is shorter than the remaining recording time, the compression rate control unit 17 gives priority to the image quality and sets the compression rate so that the recording capacity can be used up to the limit of the recording capacity. Lower. The compression rate control unit 17 sets the compression parameters determined as described above in the image compression unit 15.

  In this way, the image compression rate can be determined according to the remaining recording capacity of the recording medium, and the remaining recording capacity can be used effectively. Further, image recording that satisfies any one of the capacity and image quality of the recording medium can be performed based on the user's intention or automatically.

  Next, a sixth embodiment of the present invention will be described. FIG. 10 shows the configuration of the imaging apparatus according to the present embodiment. In FIG. 10, a part of the configuration shown in FIG. 1 and the like is not shown. In the present embodiment, the compression parameter or the image size of the captured image is controlled so as to satisfy the recording time input to the recording time setting unit 16. Which of the compression parameter and the image size is controlled can be arbitrarily selected. Since the compression parameter control is the same as in the fifth embodiment, the description thereof will be omitted, and the control of the image size will be described.

  In the present embodiment, an image size setting unit 18 is provided. The image size setting unit 18 determines the image size of the image pickup based on the recording time input to the recording time setting unit 16 and the remaining recording time calculated by the remaining recording time calculation unit 7, and sets the set value. Output to the image sensor control unit 2. The image sensor control unit 2 sets the image size in the image sensor 3.

  The image size is determined as follows. Before the start of the shooting operation, the remaining recording time calculation unit 7 reads the frame rate information read from the frame rate information recording unit 9, the remaining recording amount output from the recording capacity output unit 6, and a predetermined image size or arbitrary Based on the initially set image size, the remaining recording time when shooting is started from the present time is calculated. The remaining recording time calculation unit 7 outputs the calculated remaining recording time to the image size setting unit 18.

  The image size setting unit 18 captures the image size being shot based on the recording time output from the recording time setting unit 16 and the remaining recording time calculated by the remaining recording time calculation unit 7 and corresponding to the current image size. To decide. For example, when the user's desired recording time is longer than the remaining recording time, the image size setting unit 18 reduces the value at the expense of the image size in order to reduce the recording capacity. Conversely, if the desired recording time of the photographer is shorter than the remaining recording time, the image size setting unit 18 gives priority to the image size so that the recording capacity can be used up to the limit of the recording capacity. Increase the value. The image size setting unit 18 outputs the image size value determined as described above to the image sensor control unit 12.

  According to the present embodiment, since priority is given to image quality with a certain limited recording capacity, if the compression rate cannot be increased, imaging with priority to the desired recording capacity and image quality can be performed by reducing the image size. Image recording can be performed. Also, when it is desired to prioritize the image size, it is possible to perform imaging and image recording giving priority to a desired recording time and image size by increasing the compression rate at the expense of image quality with a limited recording time.

  As described above, the embodiments of the present invention have been described in detail with reference to the drawings. However, the specific configuration is not limited to these embodiments, and includes design changes and the like without departing from the gist of the present invention. .

1 is a block diagram illustrating a configuration of an imaging apparatus according to a first embodiment of the present invention. It is a block diagram which shows the structure of the imaging device by the 2nd Embodiment of this invention. FIG. 10 is a reference diagram for explaining a method of calculating a remaining recording time in the second embodiment of the present invention. It is a block diagram which shows the structure of the imaging device by the 3rd Embodiment of this invention. It is a reference figure which shows an example of the content of the frame rate information in the 3rd Embodiment of this invention. It is a block diagram which shows the structure of the imaging device by the 4th Embodiment of this invention. It is a reference figure which shows the example of a display of the frame rate information in the 4th Embodiment of this invention. It is a reference figure which shows the example of a display of the recording remaining amount and recording remaining time in the 4th Embodiment of this invention. It is a block diagram which shows the structure of the imaging device by the 5th Embodiment of this invention. It is a block diagram which shows the structure of the imaging device by the 6th Embodiment of this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 ... Frame rate output part, 2 ... Image sensor control part, 3 ... Image sensor, 4 ... Recording part, 5 ... Reproducing part, 6 ... Recording capacity output part, 7. .. remaining recording time calculation unit, 8... Recording information display unit, 9... Frame rate information recording unit, 10... Frame rate setting unit, 11. ... Frame rate lower limit value input unit 13... Frame rate information display unit 14... Recording remaining amount display unit 15... Image compression unit 16.・ Compression rate control unit, 18 ... Image size setting unit

Claims (10)

An image sensor that photoelectrically converts a subject image and outputs it as an image signal;
Image sensor control means for variably controlling the frame rate of the image sensor;
Recording means for recording the image signal output from the image sensor on a recording medium;
A remaining amount detecting means for detecting a remaining recording amount of the recording medium;
A remaining time calculating means for calculating a remaining time during which the image signal can be recorded on the recording medium based on the remaining recording capacity and the frame rate detected by the remaining capacity detecting means;
An imaging device comprising:   The imaging apparatus according to claim 1, wherein the remaining time calculating unit calculates the remaining time based on the remaining recording amount and the current frame rate. An image sensor that photoelectrically converts a subject image and outputs it as an image signal;
Image sensor control means for variably controlling the frame rate of the image sensor;
Recording means for recording the image signal output from the image sensor on a recording medium;
A remaining amount detecting means for detecting a remaining recording amount of the recording medium;
Frame rate storage means for storing the frame rate;
Based on the remaining recording amount detected by the remaining amount detecting unit and the frame rate from the start of photographing to the current time stored by the frame rate storing unit, the remaining image signal can be recorded on the recording medium. A remaining time calculating means for calculating time;
An imaging device comprising:   The imaging apparatus according to claim 3, wherein the remaining time calculating unit calculates the remaining time based on the remaining recording amount and an average value of the frame rate from the start of photographing to the present time. An image sensor that photoelectrically converts a subject image and outputs it as an image signal;
Image sensor control means for variably controlling the frame rate of the image sensor;
Recording means for recording the image signal output from the image sensor on a recording medium;
A remaining amount detecting means for detecting a remaining recording amount of the recording medium;
Frame rate storage means for storing in advance a time-series change in the frame rate from the start to the end of imaging;
A remaining time for calculating a remaining time during which the image signal can be recorded on the recording medium based on the remaining recording amount detected by the remaining amount detecting unit and the frame rate stored by the frame rate storing unit. A calculation means;
An imaging device comprising:   The imaging apparatus according to claim 5, wherein the remaining time calculating unit calculates the remaining time based on the remaining recording amount and the frame rate from the current time point to the end of shooting.   The imaging apparatus according to claim 1, further comprising a remaining time display unit that displays the remaining time calculated by the remaining time calculating unit.   The imaging apparatus according to claim 1, further comprising a frame rate display unit that displays a time-series change in the frame rate. Upper limit input means for inputting the upper limit of the frame rate;
A lower limit input means for inputting a lower limit of the frame rate;
Further comprising
The image sensor control means controls the frame rate to be between the inputted upper limit value and the lower limit value,
The remaining time calculating means calculates a first remaining time during which the image signal can be recorded on the recording medium, based on the remaining recording capacity and the upper limit value, and the remaining recording capacity and the lower limit value. And calculating a second remaining time during which the image signal can be recorded on the recording medium,
The imaging apparatus according to claim 7, wherein the remaining time display unit displays at least one of the first remaining time and the second remaining time. Recording time input means for inputting the remaining recording time until the end of imaging;
Compression rate determining means for determining a compression rate of the image signal based on the input remaining recording time and the remaining time calculated by the remaining time calculating means;
Image compression means for compressing the image signal using the compression ratio determined by the compression ratio determination means;
The imaging apparatus according to claim 1, further comprising:

Images