JP2018056776A - Imaging apparatus, imaging system, power supply management method, and program - Google Patents

Abstract

PROBLEM TO BE SOLVED: To image a subject at appropriate timing while considering power consumption.SOLUTION: An imaging system S includes a portable terminal 2 and an imaging apparatus 1 that performs wireless communication with the portable terminal 2. In the imaging system S, the imaging apparatus 1, in a state in which a main power supply for units other than a communication unit 20-1 is turned off, makes the main power supply shift into an On state when detecting wireless communication with the portable terminal 2 having been enabled; after the main power supply is made to be in the On state, executes predetermined operation on imaging; and when detecting the wireless communication with the portable terminal 2 having been disabled after the predetermined operation on imaging is executed, makes the main power supply shift into an OFF state.SELECTED DRAWING: Figure 3

Description

  The present invention relates to an imaging apparatus, an imaging system, a power management method, and a program.

  2. Description of the Related Art Conventionally, an imaging system that can capture a subject at an appropriate timing by an imaging device that has received a wireless signal emitted from a terminal device that moves with the subject performing imaging at the timing at which the wireless signal is detected Is known (see Patent Document 1).

JP 2014-225831 A

  However, in the technique described in Patent Document 1 described above, power consumption is not taken into account for reasons such as when the frequency of photographing is low.

  The present invention has been made in view of such a situation, and an object thereof is to take an image of a subject at an appropriate timing in consideration of power consumption.

In order to achieve the above object, an imaging device of one embodiment of the present invention includes:
An imaging device capable of wireless communication with a terminal device,
First power control means for detecting that wireless communication with the terminal device is enabled in a state in which the main power is turned off, and for switching the main power to the on state;
Shooting control means for executing a predetermined operation related to shooting when the main power supply is turned on by the first power supply control means;
A second power source that shifts the main power source to an off state when it is detected that wireless communication with the terminal device cannot be performed after the photographing control unit performs a predetermined operation related to the photographing. Control means;
It is characterized by that.

  According to the present invention, it is possible to photograph a subject at an appropriate timing in consideration of power consumption.

1 is a system configuration diagram illustrating a system configuration of an imaging system S according to an embodiment of the present invention. It is a block diagram which shows the structure of the hardware of the imaging device 1 and portable terminal 2 which concern on one Embodiment of this invention. It is a functional block diagram which shows the functional structure for performing an imaging | photography process among the functional structures of the imaging device 1 of FIG. 4 is a flowchart for explaining a flow of imaging processing executed by the imaging apparatus 1 of FIG. 2 having the functional configuration of FIG. 3. It is a flowchart explaining the flow of the BLE connection determination process by the communication part 20-1. It is a flowchart explaining the flow of the BLE disconnection determination process by the communication part 20-1.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings.

FIG. 1 is a system configuration diagram showing a system configuration of an imaging system S according to an embodiment of the present invention.
The imaging system S includes an imaging device 1 and a portable terminal 2 as shown in FIG.
The imaging device 1 has a photographing function and a communication function that can communicate with the mobile terminal 2.
The portable terminal 2 has a communication function capable of communicating with the imaging device 1. In the present embodiment, the imaging device 1 and the portable terminal 2 perform BLE (Bluetooth Low Energy (registered trademark)) communication that is short-range wireless communication.

  For example, the imaging system S holds the portable terminal 2 in the marathon runner H, and arranges a plurality of imaging devices 1A, 1B, 1C,. The camera is configured to perform shooting when communication is established between the two. That is, when entering the communication range between the imaging device 1 and the portable terminal 2, it is guaranteed that the communication is short-range communication, and the marathon runner H holding the portable terminal 2 is included in the angle of view. The marathon runner H holding the mobile terminal 2 can be photographed.

  Moreover, in the imaging device 1, in a state where communication with the mobile terminal 2 is not established, power consumption is suppressed by turning off functions other than the communication function.

  Furthermore, when the user having the imaging device 1 equipped with this function goes near the desired marathon runner H holding the mobile terminal 2, the image including the marathon runner H is surely automatically taken. Can do.

FIG. 2 is a block diagram illustrating a hardware configuration of the imaging device 1 and the mobile terminal 2 according to an embodiment of the present invention.
The imaging device 1 is configured as a digital camera, for example.

  As shown in FIG. 2, the imaging apparatus 1 includes a CPU (Central Processing Unit) 11, a ROM (Read Only Memory) 12, a RAM (Random Access Memory) 13, a bus 14, an input / output interface 15, and an imaging. Unit 16, input unit 17, output unit 18, storage unit 19, communication unit 20, drive 21, and power supply unit 22.

  The CPU 11 executes various processes according to a program recorded in the ROM 12 or a program loaded from the storage unit 19 to the RAM 13.

  The RAM 13 appropriately stores data necessary for the CPU 11 to execute various processes.

  The CPU 11, ROM 12, and RAM 13 are connected to each other via a bus 14. An input / output interface 15 is also connected to the bus 14. An imaging unit 16, an input unit 17, an output unit 18, a storage unit 19, a communication unit 20, a drive 21, and a power supply unit 22 are connected to the input / output interface 15.

  Although not shown, the imaging unit 16 includes an optical lens unit and an image sensor.

The optical lens unit is configured by a lens that collects light, for example, a focus lens or a zoom lens, in order to photograph a subject.
The focus lens is a lens that forms a subject image on the light receiving surface of the image sensor. The zoom lens is a lens that freely changes the focal length within a certain range.
The optical lens unit is also provided with a peripheral circuit for adjusting setting parameters such as focus, exposure, and white balance as necessary.

The image sensor includes a photoelectric conversion element, AFE (Analog Front End), and the like.
The photoelectric conversion element is composed of, for example, a CMOS (Complementary Metal Oxide Semiconductor) type photoelectric conversion element or the like. A subject image is incident on the photoelectric conversion element from the optical lens unit. Therefore, the photoelectric conversion element photoelectrically converts (captures) the subject image, accumulates the image signal for a predetermined time, and sequentially supplies the accumulated image signal as an analog signal to the AFE.
The AFE performs various signal processing such as A / D (Analog / Digital) conversion processing on the analog image signal. Through various signal processing, a digital signal is generated and output as an output signal of the imaging unit 16.
Hereinafter, the output signal of the imaging unit 16 is referred to as “captured image data”. Data of the captured image is appropriately supplied to the CPU 11 or an image processing unit (not shown).

The input unit 17 includes various buttons and the like, and inputs various types of information according to user instruction operations.
The output unit 18 includes a display, a speaker, and the like, and outputs images and sounds.
The storage unit 19 is composed of a hard disk, a DRAM (Dynamic Random Access Memory), or the like, and stores various image data.

  The communication unit 20 controls communication performed with an external device (in the present embodiment, the portable terminal 2) by a communication method based on the BLE communication standard.

  A removable medium 31 made of a magnetic disk, an optical disk, a magneto-optical disk, a semiconductor memory, or the like is appropriately attached to the drive 21. The program read from the removable medium 31 by the drive 21 is installed in the storage unit 19 as necessary. The removable medium 31 can also store various data such as image data stored in the storage unit 19 in the same manner as the storage unit 19.

  The power supply unit 22 supplies power for causing each unit to function, and includes a sub power source that is a power source for causing the communication unit 20 to function and a main power source that is used for causing main parts other than the communication unit 20 to function. The power supply can be turned on / off separately.

The mobile terminal 2 includes at least a CPU 11 to an input / output interface 15 and a communication unit 20. Since the CPU 11 to the input / output interface 15 and the communication unit 20 of the imaging device 1 and the portable terminal 2 have the same hardware configuration as that of the imaging device 1, description thereof is omitted.
In the following description, when the imaging device 1 and the mobile terminal 2 are described separately, in the case of the imaging device 1, “−1” is added to the end of the code, and in the case of the mobile terminal 2, the end of the code. "-2" is added to That is, in the case of the imaging apparatus 1, the CPU 11-1 to the removable medium 31-1 are described, and in the case of the portable terminal 2, the CPU 11-2 to the communication unit 20-2 are described.

FIG. 3 is a functional block diagram showing a functional configuration for executing the photographing process among the functional configurations of the imaging apparatus 1 of FIG.
Shooting processing is performed when the BLE reception intensity is above a certain level, and then the power is turned off. If there is untransmitted image data, the power is turned off after transmission to enter a connection standby state. A series of processes.

When performing the shooting process, as shown in FIG. 3, in the CPU 11-1, the communication control unit 51 a, the power supply control unit 52 a, and the shooting control unit 53 function, and in the communication unit 20-1, The communication control unit 51b and the power supply control unit 52b function.
An image storage unit 71 is set in one area of the storage unit 19-1.
The image storage unit 71 stores image data.

  The communication unit 20-1 operates upon receiving communication power from the power supply unit 22 and controls communication connection (BLE connection) between the external device and the mobile terminal 2, and requests from the communication control unit 51b. Various data are sent and received according to The communication unit 20-1 also controls the main power supply ON (OFF) of the power supply unit 22 according to the communication connection control state.

The communication control unit 51a controls the communication unit 20-1 to transmit / receive various data such as image data to / from an external device or the mobile terminal 2 using the communication connection established by the communication unit 20-1. To do.
Specifically, the communication unit 20-1 (communication control unit 51 b) transmits an advertising packet and makes a communication connection (BLE connection) with the mobile terminal 2 when a response is received from the mobile terminal 2. Further, the communication unit 20-1 (communication control unit 51b) disconnects the communication connection (BLE connection) when there is no communication with the portable terminal 2 for a predetermined time.

Further, the communication unit 20-1 (power control unit 52b) determines the set start mode (pairing start / non-pairing start) and controls the main power ON (OFF).
Further, the communication control unit 51b can make various determinations such as the strength of BLE (a predetermined strength or more) in the communication unit 20-1, the presence / absence of untransmitted image data, and the like.

The communication unit 20-1 (power supply control unit 52b) controls the power supply unit 22-1 to turn on / off the main power supply in accordance with the communication connection control state. Specifically, the communication unit 20-1 turns on the main power supply when the communication unit 20-1 is connected to the mobile terminal 2, for example.
Further, the communication unit 20-1 (power supply control unit 52b) can control the power supply unit 22-1 so that the main power supply is turned off when the communication unit 20-1 disconnects the communication connection.
That is, communication control (low level communication control) and power control (main power ON) that require control when the main power is OFF are performed by the communication control unit 51b and the power control unit 52b built in the communication unit 20-1. The communication control (upper level communication control) and the power control (power OFF) that are controlled and the main power is ON are controlled by the communication control unit 51a and the power control unit 52a built in the CPU 11-1.

  The imaging control unit 53 controls the imaging unit 16-1 so as to perform imaging. Specifically, the imaging control unit 53 controls the imaging unit 16-1 to perform imaging when the intensity of BLE is equal to or higher than a predetermined intensity.

FIG. 4 is a flowchart for explaining the flow of imaging processing executed by the imaging apparatus 1 of FIG. 2 having the functional configuration of FIG.
The imaging process is started by an operation for starting the imaging process on the input unit 17-1 by the user. In the imaging device 1, until the power is turned on, the power supply other than the communication unit 20-1 is turned off.

  In step S11, the communication unit 20-1 (communication control unit 51b) executes a BLE connection determination process. If there is a response from the portable terminal 2 as a result of the BLE connection determination process, the portable terminal 2 and the BLE connection are performed. The flow of the BLE connection determination process will be described later.

In step S <b> 12, the communication unit 20-1 (communication control unit 51 b) determines whether or not the mobile terminal 2 is connected.
If the mobile terminal 2 is not connected, NO is determined in step S12, and the process returns to step S11.
In contrast, if the mobile terminal 2 is connected, YES is determined in step S12, and the process proceeds to step S13.

In step S13, the communication unit 20-1 (power control unit 52b) determines the set activation mode.
Specifically, it is determined whether or not the pairing activation is activated only when the activation mode is the pairing state, or the non-pairing activation is activated even when the activation mode is not the pairing state. In the case of pairing activation, since only the specific mobile terminal 2 that has been paired is activated, power consumption can be suppressed, and only the operation in response to the mobile terminal 2 that is grasped by the pairing is performed. Security is high because there is no. On the other hand, in the case of non-pairing activation, it operates on an unspecified number of portable terminals 2, but for example, many people can use this function without a pairing operation.
If the activation mode is non-pairing activation, it is determined as “non-pairing activation” in step S13, and the process proceeds to step S15.
On the other hand, when the activation mode is pairing activation, it is determined as “pairing activation” in step S13, and the process proceeds to step S14.

In step S <b> 14, the communication unit 20-1 (communication control unit 51 b) determines whether or not it is a paired partner (mobile terminal 2).
If it is not a paired partner, NO is determined in step S14, and the process returns to step S11.
On the other hand, if it is a paired partner, YES is determined in step S14, and the process proceeds to step S15.

  In step S15, the communication unit 20-1 (power control unit 52b) controls the power supply unit 22-1 to turn on the main power supply.

When the main power source is turned on, the photographing control unit 53 and the communication control unit 51a of the CPU 11-1 can be operated.
In step S16, the imaging control unit 53 determines the operation mode. Of the operation modes, a shooting mode in which only shooting is performed and a shooting & transmission mode in which an image shot according to shooting and conditions is transmitted are determined.
In the case of the shooting & transmission mode, it is determined as [shooting & transmission mode] in step S16, and the process proceeds to step S17.
On the other hand, in the shooting mode, it is determined as [shooting mode] in step S16, and the process proceeds to step S18.

In step S17, the communication control unit 51a determines whether there is untransmitted image data.
If there is no untransmitted image data, NO is determined in step S17, and the process proceeds to step S18.

  In step S18, the communication control unit 51a determines the strength of BLE in the communication unit 20-1.

In step S19, the communication control unit 51a determines whether or not the intensity of BLE is equal to or greater than a predetermined level.
If the intensity of BLE is not equal to or greater than the predetermined value, NO is determined in step S19, and the process proceeds to step S21.
On the other hand, when the intensity of BLE is equal to or greater than a predetermined value, YES is determined in step S19, and the process proceeds to step S20.

  In step S20, the imaging control unit 53 controls the imaging unit 16-1 to perform imaging. The captured image is stored in the image storage unit 71 together with the transmission status. That is, the photographed image is stored in the image storage unit 71 as a transmission status that has not been transmitted at present.

  In step S21, the communication unit 20-1 (communication control unit 51b) executes a BLE disconnection determination process. As a result of the BLE disconnection determination process, if there is no communication with the portable terminal 2 for a predetermined time, the BLE connection is disconnected. The flow of the BLE disconnection determination process will be described later.

In step S <b> 22, the communication control unit 51 b determines whether the communication unit 20-1 has disconnected the BLE connection with the mobile terminal 2.
If the BLE connection is not disconnected, NO is determined in step S22, and the process returns to step S18.
On the other hand, if the BLE connection is disconnected, YES is determined in step S22, and the process proceeds to step S27.

  On the other hand, if there is untransmitted image data, YES is determined in step S17, and the process proceeds to step S23.

  In step S <b> 23, the communication control unit 51 a controls the communication unit 20-1 to transmit image data to the mobile terminal 2.

  In step S24, the communication unit 20-1 (communication control unit 51b) executes a BLE disconnection determination process. As a result of the BLE disconnection determination process, if there is no communication with the portable terminal 2 for a predetermined time, the BLE connection is disconnected.

In step S <b> 25, the communication control unit 51 b determines whether the communication unit 20-1 has disconnected the BLE connection with the mobile terminal 2.
If the BLE connection is disconnected, YES is determined in step S25, and the process proceeds to step S27.
In contrast, if the BLE connection is not disconnected, NO is determined in step S25, and the process proceeds to step S26.

In step S <b> 26, the communication control unit 51 a determines whether transmission of image data to the mobile terminal 2 has been completed.
If the transmission has not been completed, NO is determined in step S26, and the process returns to step S23.
On the other hand, when transmission is completed, it determines with YES in step S26, and a process progresses to step S27.

  In step S27, the power supply control unit 52b controls the power supply unit 22-1 to turn off the main power supply.

In step S28, the CPU 11-1 determines whether or not the processing is completed.
If the process does not end, NO is determined in step S28, and the process returns to step S11.
On the other hand, when the process is finished, it is determined as YES in Step S28, and the photographing process is finished.

  FIG. 5 is a flowchart for explaining the flow of BLE connection determination processing by the communication unit 20-1.

  In step S41, the communication unit 20-1 (communication control unit 51b) transmits an advertising packet.

In step S42, the communication unit 20-1 (communication control unit 51b) determines whether or not there is a response from the portable terminal 2.
If there is no response, it is determined as NO in step S42, and the BLE connection determination process is terminated.
On the other hand, if there is a response, YES is determined in step S42, and the process proceeds to step S43.

  In step S <b> 43, the communication unit 20-1 (communication control unit 51 b) establishes a BLE communication connection with the mobile terminal 2. Thereafter, the BLE connection determination process ends.

  FIG. 6 is a flowchart for explaining the flow of BLE disconnection determination processing by the communication unit 20-1.

In step S61, the communication unit 20-1 (communication control unit 51b) determines whether or not a state where there is no communication with the mobile terminal 2 has passed for a predetermined time.
When the state where there is no communication does not elapse for a predetermined time or longer, it is determined as NO in Step S61, and the BLE disconnection determination process is ended.
On the other hand, when the state where there is no communication has passed for a predetermined time or longer, it is determined as YES in Step S61, and the process proceeds to Step S62.

  In step S62, the communication unit 20-1 (communication control unit 51b) disconnects communication. Thereafter, the BLE disconnection determination process ends.

In the prior art, as a function to shoot without touching the camera,
(1) A method using a shooting trigger (motion shutter) by image processing of a camera,
(2) There has been a method in which pairing is performed in advance with Bluetooth (registered trademark) Smart and the camera is activated by a signal from a Bluetooth (registered trademark) terminal.
However, for example, in a shooting scene where there is little chance of shooting a subject, such as marathon shooting, and most of the shooting is in standby, (1) needs to keep the camera on during standby (to detect by an image sensor). There is. (2) has a problem in that it is necessary to transmit a shooting trigger from the Bluetooth (registered trademark) terminal to the camera, and it takes a long time to start communication, and the shooting chance is lost.

Therefore, in the photographing system S of the present embodiment, the operation of the camera is controlled by connection and disconnection using Bluetooth (registered trademark).
As a result, the photographing system S can control the operation of the camera simply by connecting with Bluetooth (registered trademark) without performing special data communication, so that the time lag can be shortened and the subject that moves and passes But you can shoot without missing the timing.
In this case, Bluetooth (registered trademark) is used, but any wireless communication may be used regardless of the means.
-When paired in advance with Bluetooth (registered trademark), the camera can be turned on and photographed only when a specific Bluetooth (registered trademark) terminal (runner) approaches.
-If pairing with Bluetooth (registered trademark) is not performed, an unspecified Bluetooth (registered trademark) terminal returns a response, so when the unspecified Bluetooth (registered trademark) terminal (runner) approaches It can be configured to be turned on and photographed.

The imaging system S configured as described above includes the mobile terminal 2 and the imaging device 1 that performs wireless communication with the mobile terminal 2.
In the imaging system S, in the imaging apparatus 1, the main power supply other than the sub power supply (power required for turning on the main power supply and low-level communication control such as communication connection) supplied to the communication unit 20-1 is turned off , After detecting that wireless communication with the mobile terminal 2 is enabled, the main power supply is turned on, and after the main power supply is turned on, a predetermined operation relating to photographing is performed, When it is detected that wireless communication with the mobile terminal 2 is not possible after the predetermined operation is performed, the main power supply is shifted to the off state.
Thereby, in the imaging system S, the subject can be captured at an appropriate timing in consideration of power consumption. In other words, it is possible to appropriately capture a target subject and control the photographing and power ON / OFF at a timing at which the power consumption is reduced.

The predetermined operation relating to shooting includes a shooting operation for shooting and recording a shot image, and a transmission operation for transmitting the recorded shot image to the outside.
In the imaging system S, when the first execution of the predetermined operation related to shooting or the content of the previously executed operation is the transmission operation in the imaging apparatus 1, the shooting operation is executed as the predetermined operation of this time, and the predetermined operation related to shooting is performed. If the content of the previously executed operation is a shooting operation, the transmission operation is executed as the predetermined operation this time.
Thereby, in the photographing system S, even when the photographed photographed image is transmitted to the outside, the subject is photographed and the photographed image is transmitted at a more appropriate timing with less power consumption. Can do.

In the imaging system S, when there is no untransmitted image data in the imaging apparatus 1, a shooting operation is executed as a predetermined operation related to the current shooting, and when there is untransmitted image data, a predetermined operation related to the current shooting is performed. Execute the transmission operation.
Thereby, in the photographing system S, when the photographed photographed image is transmitted to the outside, the power consumption can be further reduced and the untransmitted image can be reliably transmitted to the outside.

In the photographing system S, the mobile terminal 2 moves with the subject.
Further, the imaging device 1 detects that wireless communication with the mobile terminal 2 is possible due to the proximity to the mobile terminal 2, and shifts the main power supply of the imaging device 1 to the on state.
As a result, the imaging system S can perform subsequent operations such as imaging in the imaging apparatus 1 when the imaging apparatus 1 and the portable terminal 2 are in proximity.

The portable terminal 2 detects that wireless communication with the imaging device 1 is possible due to the proximity of the portable terminal 2 and the imaging device 1, and shifts the main power supply of the portable terminal 2 to the on state.
Thereby, in the imaging | photography system S, subsequent operation | movement in the portable terminal 2 can be performed with the proximity of the imaging device 1 and the portable terminal 2 as a trigger.

The imaging device 1 is configured to be able to perform wireless communication between the mobile terminal 2 and the mobile terminal 2.
In addition, the imaging apparatus 1 includes a power control unit 52b, a photographing control unit 53, a communication control unit 51a, a power control unit 52a, and a communication unit 20-1.
The communication unit 20-1 detects that wireless communication with the mobile terminal 2 is possible in a state where the main power source other than the sub power source supplied to the communication unit 20-1 is turned off, and turns on the main power source. Transition to the state.
The imaging control unit 53 and the communication control unit 51a execute a predetermined operation related to imaging when the main power source is shifted to the on state by the power source control unit 52a.
When the power supply control unit 52b detects that wireless communication with the portable terminal 2 is not possible after the photographing control unit 53 and the communication control unit 51a perform predetermined operations related to photographing, the power supply control unit 52b turns off the main power supply. Transition to the off state.
Thereby, in the imaging device 1, the power supply and operation | movement supplied to each part can be controlled so that a to-be-photographed object can be image | photographed with less power consumption and more suitable timing.

The photographing control unit 53 performs a predetermined operation related to photographing when it is detected that the radio wave intensity of the wireless communication with the portable terminal 2 has become a predetermined value or more after the main power source is turned on by the power control unit 52b. Execute.
Thereby, in the imaging device 1, it is possible to execute a predetermined operation related to photographing only at a short distance where the radio wave intensity of the wireless communication with the portable terminal 2 is equal to or greater than a predetermined distance.

When the power control unit 52b detects that wireless communication with the pre-registered mobile terminal 2 is possible in a state in which the main power is turned off, the power control unit 52b shifts the main power to the on state and registers in advance. When it is detected that wireless communication with a portable terminal 2 that is not available is enabled, the main power supply is not shifted to the on state.
Thereby, in the imaging device 1, it can be made the state which can perform predetermined operation | movement only when it detects that the wireless communication between the portable terminals 2 registered previously is attained.

The power supply control unit 52b can set in advance whether or not to shift the main power supply to the on state when it is detected that wireless communication with the mobile terminal 2 not registered in advance is possible.
Thereby, in the imaging device 1, it becomes possible for the user etc. to set operation | movement with respect to the presence or absence of registration arbitrarily.

  In addition, this invention is not limited to the above-mentioned embodiment, The deformation | transformation in the range which can achieve the objective of this invention, improvement, etc. are included in this invention.

  In the above-described embodiment, the imaging device 1 is configured to determine whether shooting or image transmission is performed. However, the imaging device 1 may perform the determination using the mobile terminal 2 or an external device. In this case, the image capturing apparatus 1 transmits information on the communication strength and the untransmitted image to the determination apparatus. In the case of the mobile terminal 2, the mobile terminal 2 may be configured to determine from the communication strength on the mobile terminal 2 side.

  Further, in the above-described embodiment, the communication control unit and the power control unit in which the communication unit has built-in communication control (low level communication control) and power control (main power ON) that require control when the main power source is OFF. However, if the sub power supplied to the communication control unit and the power control unit can be turned on / off independently of the main power source, the communication control unit and the power control unit May not be built in the communication unit, but may be built in the CPU or in another circuit block.

  In the above-described embodiment, the case where the imaging device 1 functions as a peripheral in BLE connection and the mobile terminal 2 functions as a central in BLE connection has been described as an example. However, the imaging device 1 functions as a central in BLE connection. It may be applied when the mobile terminal 2 functions as a peripheral in BLE connection. In that case, the BLE connection determination process by the communication unit 20-1 starts the communication connection when the imaging device 1 responds to the advertising packet transmitted by the mobile terminal 2.

  In the above-described embodiment, the main power supply of the imaging device 1 is controlled to be turned on / off in accordance with the communication connection state between the imaging device 1 and the mobile terminal 2, but the communication connection state between the imaging device 1 and the mobile terminal 2. The main power supply ON / OFF of the portable terminal 2 may be controlled according to the above. Further, the main power supply of both the main power supply of the image pickup apparatus 1 and the main power supply of the mobile terminal 2 may be controlled according to the communication connection state between the image pickup apparatus 1 and the mobile terminal 2.

  Further, in the above-described embodiment, the main power supply ON / OFF is controlled in accordance with the presence / absence of communication connection. However, the main power supply ON / OFF may be controlled in accordance with the radio wave intensity of wireless communication. Good.

  Further, in the above-described embodiment, proximity between the imaging device 1 and the portable terminal 2 is detected using wireless communication, and ON / OFF of the main power source is controlled by detecting this proximity. The proximity may be detected using optical communication or the like, and ON / OFF of the main power supply may be controlled. Further, the proximity of the imaging device 1 and the portable terminal 2 may be detected based on the size of the portable terminal 2 captured by the imaging unit of the imaging device 1, and the main power supply ON / OFF may be controlled.

  In the above-described embodiment, the image data may be transmitted to the mobile terminal 2 or an external device. By transmitting the captured image to the mobile terminal 2, the person holding the mobile terminal 2 can grasp the captured image of himself / herself. As a result of grasping, when it is determined that it is not appropriate, it may be configured to prohibit storage and transmission of images.

In the above-described embodiment, the imaging apparatus 1 to which the present invention is applied has been described using a digital camera as an example, but is not particularly limited thereto.
For example, the present invention can be applied to general electronic devices having a photographing processing function. Specifically, for example, the present invention can be applied to a notebook personal computer, a printer, a television receiver, a video camera, a portable navigation device, a mobile phone, a smartphone, a portable game machine, and the like.

The series of processes described above can be executed by hardware or can be executed by software.
In other words, the functional configuration of FIG. 3 is merely an example, and is not particularly limited. That is, it is sufficient that the imaging apparatus 1 has a function capable of executing the above-described series of processing as a whole, and what functional blocks are used to realize this function is not particularly limited to the example of FIG.
In addition, one functional block may be constituted by hardware alone, software alone, or a combination thereof.
The functional configuration in the present embodiment is realized by a processor that executes arithmetic processing, and the processor that can be used in the present embodiment is configured by various processing devices such as a single processor, a multiprocessor, and a multicore processor. In addition to the above, these various processing apparatuses and a combination of processing circuits such as ASIC (Application Specific Integrated Circuit) and FPGA (Field-Programmable Gate Array) are included.

When a series of processing is executed by software, a program constituting the software is installed on a computer or the like from a network or a recording medium.
The computer may be a computer incorporated in dedicated hardware. The computer may be a computer capable of executing various functions by installing various programs, for example, a general-purpose personal computer.

  The recording medium including such a program is not only constituted by the removable medium 31 of FIG. 2 distributed separately from the apparatus main body in order to provide the program to the user, but also in a state of being incorporated in the apparatus main body in advance. It is comprised with the recording medium etc. which are provided in. The removable medium 31 is composed of, for example, a magnetic disk (including a floppy disk), an optical disk, a magneto-optical disk, or the like. The optical disc is composed of, for example, a CD-ROM (Compact Disk-Read Only Memory), a DVD (Digital Versatile Disc), a Blu-ray (registered trademark) Disc (Blu-ray Disc), and the like. The magneto-optical disk is configured by an MD (Mini-Disk) or the like. In addition, the recording medium provided to the user in a state of being preliminarily incorporated in the apparatus main body is configured by, for example, the ROM 12 in FIG.

In the present specification, the step of describing the program recorded on the recording medium is not limited to the processing performed in time series along the order, but is not necessarily performed in time series, either in parallel or individually. The process to be executed is also included.
Further, in the present specification, the term “system” means an overall device configured by a plurality of devices, a plurality of means, and the like.

  As mentioned above, although several embodiment of this invention was described, these embodiment is only an illustration and does not limit the technical scope of this invention. The present invention can take other various embodiments, and various modifications such as omission and replacement can be made without departing from the gist of the present invention. These embodiments and modifications thereof are included in the scope and gist of the invention described in this specification and the like, and are included in the invention described in the claims and the equivalent scope thereof.

The invention described in the scope of claims at the beginning of the filing of the present application will be appended.
[Appendix 1]
An imaging device capable of wireless communication with a terminal device,
First power control means for detecting that wireless communication with the terminal device is enabled in a state in which the main power is turned off, and for switching the main power to the on state;
Shooting control means for executing a predetermined operation related to shooting when the main power supply is turned on by the first power supply control means;
A second power source that shifts the main power source to an off state when it is detected that wireless communication with the terminal device cannot be performed after the photographing control unit performs a predetermined operation related to the photographing. Control means;
An imaging apparatus characterized by that.
[Appendix 2]
The predetermined operation related to shooting includes a shooting operation for shooting and recording a shot image, and a transmission operation for transmitting the recorded shot image to the outside,
When the first execution of the predetermined operation related to the shooting or the content of the previously executed operation is a transmission operation, the shooting control unit executes the shooting operation as the predetermined operation of this time,
When the content of the previously executed operation related to the shooting is the shooting operation, the transmission operation is executed as the predetermined operation this time,
The imaging apparatus according to Supplementary Note 1, wherein
[Appendix 3]
When there is no untransmitted image data, the shooting control unit executes a shooting operation as a predetermined operation related to the current shooting, and when there is untransmitted image data, executes a transmission operation as a predetermined operation related to the current shooting. To
The imaging apparatus according to Supplementary Note 2, wherein
[Appendix 4]
The photographing control means detects that the radio field intensity of the wireless communication with the terminal device has become a predetermined value or more after the main power supply is turned on by the first power supply control means. Perform certain actions related to shooting,
The imaging apparatus according to any one of supplementary notes 1 to 3, wherein:
[Appendix 5]
When the first power supply control unit detects that wireless communication with the previously registered terminal device is possible in a state where the main power supply is turned off, the first power supply control unit shifts the main power supply to the on state, When it is detected that wireless communication with the terminal device that has not been registered is possible, the main power supply is not shifted to the on state.
The imaging apparatus according to any one of appendices 1 to 4, wherein
[Appendix 6]
The first power supply control unit can set in advance whether or not to shift the main power supply to an on state when it is detected that wireless communication with the terminal device not registered in advance is possible. is there,
The imaging apparatus according to appendix 5, which is characterized in that.
[Appendix 7]
An imaging system including the imaging device according to any one of appendices 1 to 6 and the terminal device,
The terminal device moves with the subject,
The imaging device detects that wireless communication between the terminal device is possible due to proximity of the terminal device and the imaging device, and shifts the main power source of the imaging device to an on state.
An imaging system characterized by that.
[Appendix 8]
The terminal device detects that wireless communication between the terminal device and the imaging device is possible due to the proximity of the terminal device and shifts the main power source of the terminal device to an on state.
The imaging system according to appendix 7, wherein
[Appendix 9]
An imaging system including a terminal device and an imaging device that move with a subject,
The imaging device
In a state where the main power supply other than the wireless communication means is turned off, it is detected that the distance to the terminal device has become a predetermined distance or less, and the main power supply is shifted to the on state,
After shifting the main power source to the on state, a predetermined operation relating to shooting is performed,
When it is detected that the distance to the terminal device is equal to or greater than a predetermined distance after the predetermined operation related to the photographing is performed, the main power supply is shifted to an off state.
An imaging system characterized by that.
[Appendix 10]
A power management method executed by an imaging device capable of wireless communication with a terminal device,
A first power control process for detecting that wireless communication with the terminal device is enabled in a state where the main power is turned off, and causing the main power to be turned on;
A shooting control process for executing a predetermined operation related to shooting when the main power supply is shifted to the ON state by the first power supply control process;
A second power source that shifts the main power source to an off state when it is detected that wireless communication with the terminal device cannot be performed after a predetermined operation relating to the photographing is performed by the photographing control process. Control processing,
A power management method comprising the steps of:
[Appendix 11]
To a computer that controls an imaging device capable of wireless communication with a terminal device,
A first power control function for detecting that wireless communication with the terminal device is enabled in a state in which the main power is off, and for switching the main power to the on state;
A shooting control function for executing a predetermined operation related to shooting when the main power source is shifted to an ON state by the first power control function;
A second power source that shifts the main power source to an off state when it is detected that wireless communication with the terminal device cannot be performed after a predetermined operation relating to the photographing is performed by the photographing control function; Control function,
A program characterized by realizing.

  DESCRIPTION OF SYMBOLS 1 ... Imaging device, 2 ... Portable terminal, 11 ... CPU, 12 ... ROM, 13 ... RAM, 14 ... Bus, 15 ... Input / output interface, 16 ... Imaging unit, 17 ... input unit, 18 ... output unit, 19 ... storage unit, 20 ... communication unit, 21 ... drive, 22 ... power supply unit, 31 ... removable media , 51 ... Communication control unit, 52 ... Power supply control unit, 53 ... Shooting control unit, 71 ... Image storage unit, S ... Shooting system

Claims (11)

An imaging device capable of wireless communication with a terminal device,
First power control means for detecting that wireless communication with the terminal device is enabled in a state in which the main power is turned off, and for switching the main power to the on state;
Shooting control means for executing a predetermined operation related to shooting when the main power supply is turned on by the first power supply control means;
A second power source that shifts the main power source to an off state when it is detected that wireless communication with the terminal device cannot be performed after the photographing control unit performs a predetermined operation related to the photographing. Control means;
An imaging apparatus characterized by that. The predetermined operation related to shooting includes a shooting operation for shooting and recording a shot image, and a transmission operation for transmitting the recorded shot image to the outside,
When the first execution of the predetermined operation related to the shooting or the content of the previously executed operation is a transmission operation, the shooting control unit executes the shooting operation as the predetermined operation of this time,
When the content of the previously executed operation related to the shooting is the shooting operation, the transmission operation is executed as the predetermined operation this time,
The imaging apparatus according to claim 1. When there is no untransmitted image data, the shooting control unit executes a shooting operation as a predetermined operation related to the current shooting, and when there is untransmitted image data, executes a transmission operation as a predetermined operation related to the current shooting. To
The imaging apparatus according to claim 2. The photographing control means detects that the radio field intensity of the wireless communication with the terminal device has become a predetermined value or more after the main power supply is turned on by the first power supply control means. Perform certain actions related to shooting,
The image pickup apparatus according to claim 1, wherein the image pickup apparatus is an image pickup apparatus. When the first power supply control unit detects that wireless communication with the previously registered terminal device is possible in a state where the main power supply is turned off, the first power supply control unit shifts the main power supply to the on state, When it is detected that wireless communication with the terminal device that has not been registered is possible, the main power supply is not shifted to the on state.
The image pickup apparatus according to claim 1, wherein the image pickup apparatus is an image pickup apparatus. The first power supply control unit can set in advance whether or not to shift the main power supply to an on state when it is detected that wireless communication with the terminal device not registered in advance is possible. is there,
The imaging apparatus according to claim 5. An imaging system including the imaging device according to any one of claims 1 to 6 and the terminal device,
The terminal device moves with the subject,
The imaging device detects that wireless communication between the terminal device is possible due to proximity of the terminal device and the imaging device, and shifts the main power source of the imaging device to an on state.
An imaging system characterized by that. The terminal device detects that wireless communication between the terminal device and the imaging device is possible due to the proximity of the terminal device and shifts the main power source of the terminal device to an on state.
The imaging system according to claim 7. An imaging system including a terminal device and an imaging device that move with a subject,
The imaging device
In a state where the main power supply other than the wireless communication means is turned off, it is detected that the distance to the terminal device has become a predetermined distance or less, and the main power supply is shifted to the on state,
After shifting the main power source to the on state, a predetermined operation relating to shooting is performed,
When it is detected that the distance to the terminal device is equal to or greater than a predetermined distance after the predetermined operation related to the photographing is performed, the main power supply is shifted to an off state.
An imaging system characterized by that. A power management method executed by an imaging device capable of wireless communication with a terminal device,
A first power control process for detecting that wireless communication with the terminal device is enabled in a state where the main power is turned off, and causing the main power to be turned on;
A shooting control process for executing a predetermined operation related to shooting when the main power supply is shifted to the ON state by the first power supply control process;
A second power source that shifts the main power source to an off state when it is detected that wireless communication with the terminal device cannot be performed after a predetermined operation relating to the photographing is performed by the photographing control process. Control processing,
A power management method comprising the steps of: To a computer that controls an imaging device capable of wireless communication with a terminal device,
A first power control function for detecting that wireless communication with the terminal device is enabled in a state in which the main power is off, and for switching the main power to the on state;
A shooting control function for executing a predetermined operation related to shooting when the main power source is shifted to an ON state by the first power control function;
A second power source that shifts the main power source to an off state when it is detected that wireless communication with the terminal device cannot be performed after a predetermined operation relating to the photographing is performed by the photographing control function; Control function,
A program characterized by realizing.

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