JP4004909B2 - Navigation system and control method thereof - Google Patents

Description

[0001]
【Technical field】
The present invention relates to a navigation system, a control method thereof, and a digital camera connected to the navigation system.
[0002]
BACKGROUND OF THE INVENTION
It is conceivable to add shooting position information indicating where the image was shot to the shot image. In this case, it would be common for the user to input the shooting location and to record the data representing the input shooting location on a recording medium. However, it is troublesome for the user to input the shooting location. For this purpose, for example, it is conceivable to connect a GPS (Global Positioning System) device and a camera, and to incorporate a GPS device in the camera as in Patent Document 1. In any case, however, the system becomes large.
[0003]
[Patent Document 1]
Japanese Patent Laid-Open No. 10-233985 [0004]
DISCLOSURE OF THE INVENTION
An object of the present invention is to make it possible to record photographing position information without increasing the size of the camera.
[0005]
The present invention is a navigation system connectable with a digital camera, comprising position detection means for detecting the current position, connection detection means for detecting whether the digital camera is connected, and the connection detection means. A transmission means for transmitting data representing the position detected by the position detection means to the digital camera based on connection detection of the digital camera is provided.
[0006]
The present invention also provides a control method suitable for the navigation system. That is, this method is a control method of a navigation system that can be connected to a digital camera, which detects the current position, detects whether the digital camera is connected, and detects the connection of the digital camera. Based on this, data representing the detected position is transmitted to the digital camera.
[0007]
The navigation system according to the present invention can be connected to a digital camera. The current position is detected by the navigation system. It is also detected whether a digital camera is connected. When the connection of the digital camera is detected, data representing the detected position is transmitted from the navigation system to the digital camera.
[0008]
When data representing the position transmitted from the navigation system is received by the digital camera, the data representing the position is recorded on the recording medium. Normally, it will be recorded on a recording medium in association with the image data representing the last recorded image.
[0009]
Data representing the location relating to the shooting location can be recorded on the recording medium of the digital camera without the user inputting the shooting location. Further, since it is not necessary to incorporate a GPS device in the digital camera, it is possible to prevent the digital camera from becoming large.
[0010]
A removal detection means for detecting that the digital camera has been removed, and data representing the current position detected by the position detection means in response to detection of removal of the digital camera by the removal detection means. You may make it further provide a memory | storage means. In this case, the transmission means will transmit data representing the position stored in the storage means to the digital camera in response to the connection detection of the digital camera by the connection detection means.
[0011]
When a navigation system and a digital camera can be connected, the digital camera is usually connected to the navigation system, and when the subject is imaged, the digital camera will be removed from the navigation system. Let's go. For this reason, when the digital camera is removed from the navigation system, it is considered that the image is taken, and the position when the digital camera is removed is stored. When the digital camera is attached to the navigation system, data representing the stored position is transmitted to the digital camera. When the data representing the position is received by the digital camera, the data representing the position (photographing place) is recorded on the recording medium of the digital camera.
[0012]
You may make it further provide the measurement means which measures the time from the time of the removal detection of the digital camera by the removal detection means to the time of the connection detection of the digital camera by the connection detection means. In this case, when the time obtained by the measurement by the measurement means is within a predetermined time, data representing the position stored in the storage means will be transmitted to the digital camera.
[0013]
If the time from when the digital camera was removed to when the digital camera was connected has passed for a predetermined time, it is assumed that the image was taken at the same location as when the digital camera was removed from the navigation system. There are some things that cannot be said. For this reason, when the time from when the digital camera is removed to when the digital camera is attached is within a predetermined time, data indicating the stored position is recorded on the recording medium. Become.
[0014]
[Explanation of Examples]
The imaging system according to this embodiment includes a car navigation system connected to each other (if it is not a car navigation system but a portable navigation system that can detect a position) and a digital navigation system. It consists of a camera.
[0015]
FIG. 1 is a block diagram showing an electrical configuration of a digital camera (digital still camera) constituting the imaging system.
[0016]
The overall operation of the digital camera is controlled by the main CPU 15.
[0017]
An operation LCD (Liquid Crystal Device) 16 is included in the digital camera, and an operation state is displayed on the display screen of the operation LCD 16.
[0018]
The digital camera includes switches 17 including a mode dial and a power switch. An operation signal output from the switches 17 is input to the main CPU 15.
[0019]
The digital camera includes a clock 18 that measures time. This clock 18 is also controlled by the main CPU 18.
[0020]
Further, the digital camera includes a shutter release button 19. A signal indicating that the shutter release button 19 has been pressed is input to the main CPU 15.
[0021]
Further, the digital camera includes a driver 20 for connecting to a personal computer or the like.
[0022]
As described above, the digital camera includes the navigation interface 21 for connecting to the car navigation system. Data or the like is transmitted from the digital camera to the car navigation system via the navigation interface 21. In addition, data transmitted from the car navigation system is input to the digital camera via the navigation interface 21.
[0023]
The digital camera includes a power supply circuit 25, and power is supplied from the power supply circuit 25 to each circuit constituting the digital camera.
[0024]
The digital camera includes a strobe light emitting device 4. Charging and light emission of the strobe light emitting device 4 are controlled by the charge / light emission control circuit 3.
[0025]
The digital camera includes a zoom lens 1. When the imaging mode is set by the mode dial included in the switch 17, the light condensed by the zoom lens 1 is incident on the light receiving surface of the CCD 7 through the aperture 2, and an optical image representing the subject image is obtained by the CCD 7. An image is formed on the light receiving surface.
[0026]
The CCD 7 is controlled by various clock pulses output from the timing generator 6. An analog video signal representing the subject image is output from the CCD 7 and input to the white balance / γ processing circuit 8. White balance adjustment and gamma correction are performed in the white balance / γ processing circuit 8 and input to the analog / digital conversion circuit 9. In the analog / digital conversion circuit 9, the analog video signal is converted into digital image data and temporarily stored in the buffer memory 10.
[0027]
The image data read from the buffer memory 10 is input to the YC processing circuit 11, and luminance data and color difference data are generated. The generated luminance data and color difference data are converted into RGB image data by the YC / RGB conversion circuit 22. When the RGB image data is given to the driver 23, the subject is displayed on the display screen of the image display LCD 24.
[0028]
When the shutter release button 16 is pressed, the luminance data and color difference data generated in the YC processing circuit 11 as described above are temporarily stored in the buffer memory 10. Luminance data and color difference data are read from the buffer memory 10 and compressed by the compression / decompression circuit 12. The compressed luminance data and color difference data are given to the memory card 14 and recorded.
[0029]
When the playback mode is set by the mode dial included in the switches, luminance data and color difference data recorded on the memory card 14 are read out. The read luminance data and color difference data are expanded by the compression / expansion circuit 12 and input to the YC / RGB conversion circuit 22. The luminance data and the color difference data are converted into RGB image data by the YC / RGB conversion circuit 22 and given to the driver 23. Then, an image represented by the luminance data and color difference data recorded on the memory card 14 is displayed on the display screen of the image display LCD 24.
[0030]
FIG. 2 is a block diagram showing an electrical configuration of the car navigation system.
[0031]
The overall operation of the car navigation system is controlled by the control CPU.
[0032]
The car navigation system includes a camera interface 37 for connecting to a digital camera. Data or the like is transmitted to the digital camera via the camera interface 37. Further, data transmitted from the digital camera is input to the car navigation system via the camera interface 37.
[0033]
The car navigation system includes a GPS antenna 31, and a signal output from the GPS antenna 31 is input to the control CPU 36.
[0034]
The car navigation system includes a memory 32 for temporarily storing data and a clock 33 for measuring time. The memory 32 and the clock 33 are controlled by the control CPU 35.
[0035]
Further, the car navigation system includes a map data storage device 36 in which map data is stored. A display device 34 is connected to the control CPU 35, and a map represented by map data stored in the map data storage device 36 is displayed. It goes without saying that the current position obtained based on the signal output from the GPS antenna 31 is also displayed on the map.
[0036]
FIG. 3 is a flowchart showing the processing procedure of the car navigation system, and FIG. 4 is a flowchart showing the processing procedure of the digital camera.
[0037]
First, it is confirmed whether or not the digital camera and the car navigation system are connected (step 41 in FIG. 3, step 51 in FIG. 4). When a digital camera is connected to the car navigation system (step 42 in FIG. 3), a connection history indicating whether or not a digital camera has been connected to the car navigation system is confirmed (FIG. 3). Step 42).
[0038]
When the digital camera is connected to the car navigation system (NO in step 51 in FIG. 4), it is confirmed whether or not the position data transmitted from the car navigation system has been received (step 52 in FIG. 4). ). If no position data is received within a certain time (NO in step 52 in FIG. 4), it is confirmed whether the digital camera has been removed from the car navigation system (step 54 in FIG. 4).
[0039]
Immediately after purchasing the car navigation system, the digital camera has never been connected (NO in step 42 in FIG. 3), so that the connection history indicating that the digital camera has been connected shows the connection history. It is recorded in the memory 32 of the navigation system (step 43 in FIG. 3). Thereafter, in order to make the time measured by the clock 18 of the digital camera coincide with the time measured by the clock 33 of the car navigation system, the time of the clock 18 of the digital camera is set to the clock of the clock 33 of the car navigation system. (Step 44 in FIG. 3).
[0040]
When the digital camera connected to the car navigation system is removed (step 45 in FIG. 3), the current position is detected based on the signal output from the GPS antenna 31 (step 46 in FIG. 3). Then, data indicating the time when the digital camera is removed and data indicating the detected position are stored in the memory 32 (step 47).
[0041]
If the digital camera is removed from the car navigation system (YES in step 54 in FIG. 4), it is considered that it has been removed for imaging. Imaging is performed by the user using a digital camera (step 55).
[0042]
When imaging is completed, the digital camera is again connected to the car navigation system (YES in step 41 in FIG. 3, YES in step 51 in FIG. 4). In the car navigation system, it is confirmed whether there is a connection history (step 42 in FIG. 3). Once the digital camera is connected to the car navigation system, the connection history is stored in the memory 32 (YES in step 42 in FIG. 3). Then, it is confirmed from the time recorded in the memory 32 and the time of the clock 33 of the car navigation system whether the time from when the digital camera is removed to when it is reconnected is within one day ( In FIG. 3, step 48, YES).
[0043]
If more than one day has not passed (YES in step 48 in FIG. 3), the image is taken at the place where the digital camera is removed from the car navigation system, and the digital camera is again connected to the car navigation system immediately after taking the picture. It is considered connected. The position data is transmitted to the digital camera in order to record the position data (position data stored in the memory 32) detected when the digital camera is removed from the car navigation system to the memory card 14. (Step 49 in FIG. 3).
[0044]
If more than one day has passed (NO in step 48 in FIG. 3), it was thought that the image was taken at the place where the digital camera was removed from the car navigation system, not at the place where the digital camera was moved afterwards. . For this reason, position data is not transmitted to the digital camera. When the digital camera is removed from the car navigation system (YES in step 45 in FIG. 3), the current position is detected again (step 46 in FIG. 3), and the detected position data is stored in the memory 32. (Step 47 in FIG. 3).
[0045]
Position data is transmitted from the car navigation system, and the position data is received by the digital camera (YES in step 52 in FIG. 4). Then, the received position data is recorded in the header of the image file storing the image data last recorded on the memory card 14 (step 53 in FIG. 4). However, the received position data is recorded in all the headers of the image file in which the position data is not recorded among the image files in which the position data is recorded, going back from the last recorded image data in the recording order. Also good.
[0046]
In this way, data indicating the shooting location can be recorded on the memory card 14 together with the image data without the user inputting the shooting location. In addition, since the GPS device is not built in the digital camera, the digital camera can be downsized.
[Brief description of the drawings]
FIG. 1 is a block diagram showing an electrical configuration of a digital camera.
FIG. 2 is a block diagram showing an electrical configuration of a car navigation system.
FIG. 3 is a flowchart showing a processing procedure of the car navigation system.
FIG. 4 is a block diagram showing an electrical configuration of the digital camera.
[Explanation of symbols]
14 Memory card
15 Main CPU
18, 33 clock
21 Navigation interface
31 GPS antenna
32 memory
35 Main CPU
37 Camera interface

Claims (3)

A navigation system connectable with a digital camera,
Position detection means for detecting the current position;
Connection detecting means for detecting that the digital camera is connected ;
Removal detection means for detecting that the digital camera has been removed;
Storage means for storing data representing the current position detected by the position detection means in response to detection of removal of the digital camera by the removal detection means;
Measuring means for measuring the time between the detection of removal of the digital camera by the removal detection means and the time of detection of connection of the digital camera by the connection detection means; and
If the connection of the digital camera is detected by the connection detection means, and the time obtained by the measurement by the measurement means is within a predetermined time, the position stored in the storage means is determined. Transmitting means for transmitting data representing the digital camera,
Navigation system with   2. A digital camera comprising recording control means for recording data representing a position transmitted from the transmission means of the navigation system according to claim 1 on a recording medium in association with image data taken last. A navigation system control method connectable with a digital camera,
Detect the current position,
Detects that the digital camera is connected,
Detect that the digital camera is removed,
In response to detection of removal of the digital camera, data representing the detected current position is stored in a memory ,
Measure the time between when the removal of the digital camera is detected and when the connection of the digital camera is detected.
When the connection of the digital camera is detected and the time obtained by measurement is within a predetermined time, the data representing the position stored in the memory is transmitted to the digital camera. ,
Navigation system control method.

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