WO2011080868A1 - 撮影レンズ、撮影装置、撮影システム、撮像装置およびパーソナル装置 - Google Patents
撮影レンズ、撮影装置、撮影システム、撮像装置およびパーソナル装置 Download PDFInfo
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- WO2011080868A1 WO2011080868A1 PCT/JP2010/006811 JP2010006811W WO2011080868A1 WO 2011080868 A1 WO2011080868 A1 WO 2011080868A1 JP 2010006811 W JP2010006811 W JP 2010006811W WO 2011080868 A1 WO2011080868 A1 WO 2011080868A1
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- detection device
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Classifications
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- G—PHYSICS
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- G03B—APPARATUS OR ARRANGEMENTS FOR TAKING PHOTOGRAPHS OR FOR PROJECTING OR VIEWING THEM; APPARATUS OR ARRANGEMENTS EMPLOYING ANALOGOUS TECHNIQUES USING WAVES OTHER THAN OPTICAL WAVES; ACCESSORIES THEREFOR
- G03B15/00—Special procedures for taking photographs; Apparatus therefor
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B5/00—Measuring for diagnostic purposes; Identification of persons
- A61B5/02—Detecting, measuring or recording pulse, heart rate, blood pressure or blood flow; Combined pulse/heart-rate/blood pressure determination; Evaluating a cardiovascular condition not otherwise provided for, e.g. using combinations of techniques provided for in this group with electrocardiography or electroauscultation; Heart catheters for measuring blood pressure
- A61B5/0205—Simultaneously evaluating both cardiovascular conditions and different types of body conditions, e.g. heart and respiratory condition
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B5/00—Measuring for diagnostic purposes; Identification of persons
- A61B5/16—Devices for psychotechnics; Testing reaction times ; Devices for evaluating the psychological state
- A61B5/165—Evaluating the state of mind, e.g. depression, anxiety
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B5/00—Measuring for diagnostic purposes; Identification of persons
- A61B5/68—Arrangements of detecting, measuring or recording means, e.g. sensors, in relation to patient
- A61B5/6887—Arrangements of detecting, measuring or recording means, e.g. sensors, in relation to patient mounted on external non-worn devices, e.g. non-medical devices
- A61B5/6898—Portable consumer electronic devices, e.g. music players, telephones, tablet computers
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- G—PHYSICS
- G03—PHOTOGRAPHY; CINEMATOGRAPHY; ANALOGOUS TECHNIQUES USING WAVES OTHER THAN OPTICAL WAVES; ELECTROGRAPHY; HOLOGRAPHY
- G03B—APPARATUS OR ARRANGEMENTS FOR TAKING PHOTOGRAPHS OR FOR PROJECTING OR VIEWING THEM; APPARATUS OR ARRANGEMENTS EMPLOYING ANALOGOUS TECHNIQUES USING WAVES OTHER THAN OPTICAL WAVES; ACCESSORIES THEREFOR
- G03B17/00—Details of cameras or camera bodies; Accessories therefor
- G03B17/38—Releasing-devices separate from shutter
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04N—PICTORIAL COMMUNICATION, e.g. TELEVISION
- H04N23/00—Cameras or camera modules comprising electronic image sensors; Control thereof
- H04N23/60—Control of cameras or camera modules
- H04N23/63—Control of cameras or camera modules by using electronic viewfinders
- H04N23/633—Control of cameras or camera modules by using electronic viewfinders for displaying additional information relating to control or operation of the camera
- H04N23/634—Warning indications
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04N—PICTORIAL COMMUNICATION, e.g. TELEVISION
- H04N23/00—Cameras or camera modules comprising electronic image sensors; Control thereof
- H04N23/60—Control of cameras or camera modules
- H04N23/67—Focus control based on electronic image sensor signals
- H04N23/673—Focus control based on electronic image sensor signals based on contrast or high frequency components of image signals, e.g. hill climbing method
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- A—HUMAN NECESSITIES
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- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B5/00—Measuring for diagnostic purposes; Identification of persons
- A61B5/02—Detecting, measuring or recording pulse, heart rate, blood pressure or blood flow; Combined pulse/heart-rate/blood pressure determination; Evaluating a cardiovascular condition not otherwise provided for, e.g. using combinations of techniques provided for in this group with electrocardiography or electroauscultation; Heart catheters for measuring blood pressure
- A61B5/0205—Simultaneously evaluating both cardiovascular conditions and different types of body conditions, e.g. heart and respiratory condition
- A61B5/02055—Simultaneously evaluating both cardiovascular condition and temperature
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- A—HUMAN NECESSITIES
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- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B5/00—Measuring for diagnostic purposes; Identification of persons
- A61B5/02—Detecting, measuring or recording pulse, heart rate, blood pressure or blood flow; Combined pulse/heart-rate/blood pressure determination; Evaluating a cardiovascular condition not otherwise provided for, e.g. using combinations of techniques provided for in this group with electrocardiography or electroauscultation; Heart catheters for measuring blood pressure
- A61B5/024—Detecting, measuring or recording pulse rate or heart rate
- A61B5/02416—Detecting, measuring or recording pulse rate or heart rate using photoplethysmograph signals, e.g. generated by infrared radiation
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
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- A61B5/42—Detecting, measuring or recording for evaluating the gastrointestinal, the endocrine or the exocrine systems
- A61B5/4261—Evaluating exocrine secretion production
- A61B5/4266—Evaluating exocrine secretion production sweat secretion
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- G—PHYSICS
- G03—PHOTOGRAPHY; CINEMATOGRAPHY; ANALOGOUS TECHNIQUES USING WAVES OTHER THAN OPTICAL WAVES; ELECTROGRAPHY; HOLOGRAPHY
- G03B—APPARATUS OR ARRANGEMENTS FOR TAKING PHOTOGRAPHS OR FOR PROJECTING OR VIEWING THEM; APPARATUS OR ARRANGEMENTS EMPLOYING ANALOGOUS TECHNIQUES USING WAVES OTHER THAN OPTICAL WAVES; ACCESSORIES THEREFOR
- G03B2217/00—Details of cameras or camera bodies; Accessories therefor
- G03B2217/002—Details of arrangement of components in or on camera body
Definitions
- the present invention relates to a photographing lens, a photographing device, a photographing system, an photographing device, and a personal device.
- Patent Document 1 JP 2008-122485
- Patent Document 2 JP 2009-105795
- the photographic lens of the present invention is characterized by including a first living body detection device capable of detecting a change in biological information of a photographer.
- the imaging device of the present invention is an imaging device that performs imaging, and is provided in at least one of a holding unit that holds the imaging device, an operation unit that performs an imaging operation, and the holding unit and the operation unit. And a second living body detecting device capable of detecting a change in the biological information of the photographer.
- the imaging system of the present invention can detect a change in the biological information of the photographer provided in the imaging apparatus main body and a first biological detection device provided in the imaging lens and capable of detecting a change in the biological information of the photographer.
- a second living body detection device and a detection device that is provided in the imaging device main body and detects a change in the biological information of the photographer based on detection results of the first and second biological detection devices.
- the imaging device of the present invention when performing imaging with the imaging unit that performs imaging using the imaging lens, the setting unit that performs settings related to the imaging, and the imaging unit based on the biological information of the photographer, And a controller that changes at least a part of the state of the photographing unit and the setting by the setting unit.
- the imaging device of the present invention is connected to an imaging unit capable of capturing moving images and still images, and a detection device that detects camera shake, and corresponds to the first camera shake control corresponding to the moving images, the still image, A control unit that performs second camera shake control different from the first camera shake control, and the control unit performs the first camera shake control and the second camera shake according to a change in the photographer's biometric information detected by the biometric sensor. It is characterized by changing each control with the control.
- the imaging apparatus of the present invention includes an imaging unit that can capture a moving image and a still image using an optical system, and a control unit connected to a detection device that detects camera shake, and the control unit includes a biological sensor.
- a first correction unit that corrects camera shake using a part of the optical system according to a change in the photographer's biological information detected by the above and a second correction unit that is different from the first correction unit are used in combination. It is characterized by performing camera shake control.
- the imaging apparatus of the present invention includes the imaging unit that performs imaging, the change unit that can change the setting of the detection device that detects camera shake, and the change according to a change in the photographer's biological information detected by the biological sensor. And a control unit that controls the setting unit to change the setting of the detection apparatus.
- the imaging apparatus of the present invention includes an imaging unit that performs imaging and a control unit that is connected to a detection device that detects camera shake, and the control unit changes the biometric information of the photographer detected by the biosensor. Accordingly, the camera shake of the camera shake detected by the detection device whose amplitude exceeds a predetermined value is corrected.
- the personal device of the present invention prohibits execution of a part of the operation received by the operation unit when an operation unit that receives an operation by the user and a change in the biometric information of the user is detected by the biometric sensor. And a prohibition unit.
- FIG. 1 is a diagram illustrating an outline of a camera system according to an embodiment, and the camera system 1 is a single-lens reflex camera system with an interchangeable lens.
- the camera system 1 has a camera body 2 and a replaceable photographing lens 3.
- the photographing lens 3 includes a lens group 4 including a focus lens, a zoom lens, and an anti-vibration lens, a driving device (not shown) that drives the diaphragm 5 and the lens group 4, and an angular velocity sensor 6 for detecting camera shake of the camera system 1.
- the angular velocity sensor 6 has a gyro sensor for detecting biaxial shake.
- the above-described drive device (not shown) has a plurality of motors (for example, a vibration wave motor and a VCM), drives the focus lens in the optical axis direction, and drives the anti-vibration lens in a direction different from the optical axis direction.
- the taking lens 3 has a lens CPU 7 that controls the entire taking lens 3 and cooperates with the camera body 2.
- FIG. 2 is a view of the camera system 1 as viewed from above, and shows a state in which the camera body 2 is held by the operator's right hand and the photographing lens 3 is held by the left hand.
- the photographic lens 3 detects the photographer's heart rate, blood flow, blood pressure, perspiration, body temperature, and pressure for holding the photographic lens 3 at a position where the photographer's left hand finger or palm touches.
- Lens-side biosensor unit 8 (8A to 8D) (see FIGS. 3, 4 and 7).
- This lens-side biosensor unit 8 has a plurality of electrode units 9 (reference electrode 9a, detection electrode 9b) separated from each other, a plurality of light emitting units 10a to 10d, and a plurality of light receiving units 11a to 11d.
- a pulse wave detection device 12 for detecting.
- the pulse wave detection device 12 is used to measure the blood flow and blood pressure of the photographer as will be described later, and the light emitting units 10a to 10d and the light receiving units 11a to 11d are alternately arranged as shown in FIG. Has been.
- the lens-side biosensor unit 8 includes a sweat sensor 13 that detects the amount of sweat of the photographer, a temperature sensor 14 that detects the body temperature of the photographer, and a pressure sensor 15 that detects the pressure at which the photographer holds the photographing lens 3. (Refer to FIG. 3 and FIG. 4).
- the lens-side biosensor unit 8 is at least one of the zoom operation position and the manual focus operation position, and is separated from the position corresponding to the thumb of the left hand and the position corresponding to a finger other than the thumb. Is provided. More specifically, the lens-side biosensor unit 8 is provided at a position where a zoom operation rubber or a focus operation rubber is provided, and is provided so as to contact the left hand or to face the left hand. Yes.
- FIG. 3 and 4 are views showing a state in which the photographing lens 3 is held by the left hand.
- FIG. 3 shows a state in which the photographing lens 3 is held with the back of the left hand on the lower side
- maintained the photographic lens 3 in the state in the left side is shown. Since the method of holding the taking lens 3 varies depending on the photographer and the shooting state (for example, horizontal position shooting or vertical position shooting), a plurality of lens-side biosensors 8 (8A to 8D) are provided on the circumference of the shooting lens 3. Provided.
- the lens-side biosensor units 8B to 8D each include a plurality of electrode units 9, a pulse wave detection device 12, a sweat sensor 13, a humidity sensor 14, and a pressure sensor 15. is doing.
- a plurality of lens-side biosensors 8 (8A to 8D) are provided according to the zoom operation position and the manual focus operation position.
- a plurality of lens-side biosensors may be provided at positions other than the above positions as long as the biometric information can be detected even when the manner of holding the photographing lens 3 is changed.
- the pressure sensor 15 corresponding to the thumb of the left hand may be omitted in the lens-side biosensor units 8B and 8C.
- the lens CPU 7 may be controlled to emit light only when a finger is applied to the light emitting units 10a to 10d of the pulse wave detecting device 12.
- the camera body 2 is such that the photographer's heart rate, blood flow, blood pressure, perspiration, body temperature, pressure for holding the camera body 2, etc. It has a camera body side biosensor unit 16 for detecting.
- the camera body-side biosensor unit 16 includes a plurality of electrode units 17 having the same configuration as the plurality of electrode units 9, and a pulse wave detection device 20 having the same configuration as the pulse wave detection device 12. have. That is, as shown in FIG. 6A, the plurality of electrode portions 17 have a plurality of reference electrodes 17a and detection electrodes 17b separated from each other. Further, as shown in FIG.
- the pulse wave detection device 20 includes a plurality of light emitting units 18a to 18d and a plurality of light receiving units 19a to 19d to detect a pulse wave.
- the camera body-side biosensor unit 16 includes a sweat sensor 21 that detects the amount of sweat of the photographer, a temperature sensor 22 that detects the body temperature of the photographer, and a pressure sensor that detects the pressure at which the photographer holds the camera body 2. 23.
- the camera body-side biosensor 16 is separated from the camera back position corresponding to the thumb of the right hand, the vicinity of the release SW 24, and the camera front position where the other three fingers hold the camera body 2. Is provided. In addition, you may provide the main body side biosensor part 16 in release SW24.
- the camera body side biosensor unit provided at the camera back surface position and the camera front surface position has the same configuration as the camera body side biosensor unit 16 although not shown.
- a number of operations SW are provided on the back of the camera body 2, and these operations SW are operated with the right thumb. Therefore, in the present embodiment, at least one of the SW operated by the thumb of the right hand, the release SW 24, and the power switch is an operation unit for operating the camera body 2.
- a shooting mode SW 25 for setting a shooting mode is provided on the upper surface of the camera body 2.
- the camera body 2 includes a position (reflection position) that reflects the light beam from the photographing lens 3 and guides it to a finder optical system 26 described later, and the light beam from the photographing lens 3 is constituted by a CCD or a CMOS.
- a movable mirror 28 that is movable at a retreat position that is retracted so as to be incident on the imaging element 27, and a part of the movable mirror 28 is a semi-transmissive region, and a light beam that has passed through the semi-transmissive region is expressed by a phase difference formula.
- a sub-mirror 30 that reflects to a focus detection sensor 29 that performs focus detection.
- the light beam reflected by the movable mirror 28 is guided to the finder optical system 26 via the focusing screen 31 and the pentaprism 32.
- the finder optical system 26 is composed of a plurality of lenses, and the photographer can check the object field with the finder optical system 26.
- the movable mirror 28 is in the retracted position, the light beam from the photographing lens 3 enters the image sensor 27 via the low-pass filter 33.
- an imaging substrate 34 is provided in the vicinity of the imaging element 27.
- FIG. 7 is a block diagram of the camera system 1, and the description will be continued with reference to FIG. 7 in addition to FIG.
- the imaging substrate 34 includes a drive circuit 34A that drives the imaging device 27, an A / D conversion circuit 34B that converts the output of the imaging device 27 into a digital signal, an image processing control circuit 34C that includes an ASIC, and the like.
- the image processing control circuit 34C performs image processing such as white balance adjustment, sharpness adjustment, gamma correction, and gradation adjustment on the image signal converted into the digital signal, and also performs image compression such as JPEG.
- the compressed image is stored in the image recording medium 35, and an image (live view image) is displayed on the rear liquid crystal monitor 37 under the control of the rear liquid crystal monitor control circuit 36.
- the rear liquid crystal monitor control circuit 36 can also display an image (live view image) on a display unit (not shown) that displays information in the viewfinder field of view when the movable mirror 28 is in the retracted position.
- the imaging substrate 34 has a contrast AF circuit 34D that extracts a high-frequency component of a signal from the imaging device 27 and detects a focus lens position where this is maximized.
- An image signal from the image processing control circuit 34C is input to the contrast AF circuit 34D.
- the contrast AF circuit 34D extracts a predetermined high-frequency component from the imaging signal using a bandpass filter, performs detection processing such as peak hold and integration, generates an AF evaluation value signal, and outputs the AF evaluation value signal to the CPU 44.
- a moving image can be generated by performing a process such as H.264. For example, 30 fps can be set as the frame rate of the moving image.
- the lens CPU 7 drives the image stabilizing lens in the photographing lens 3 in a direction different from the optical axis direction by a driving device (not shown) so as to cancel the amount of camera shake detected by the angular velocity sensor 6. Correction is being performed.
- the camera shake correction may be performed by driving the image sensor 27 in a direction different from the optical axis direction to cancel the camera shake, or by canceling the camera shake by the electronic camera shake correction. Also good.
- this electronic shake correction a motion (motion amount) between a plurality of images output from the image processing control circuit 34C is calculated, and an image reading position is set so as to cancel the calculated motion (motion amount) between images.
- the image blur on the image storage medium 35 is corrected by control. How to use these plural image stabilization methods will be described later.
- the calendar unit 38 includes a crystal oscillator and a timekeeping integrated circuit, and automatically measures calendar information such as year, month, day, hour, and minute.
- EEPROM electrically erasable programmable read memory : memory: electrically erasable and programmable ROM
- the EEPROM 39 stores human biometric information values.
- the EEPROM 39 stores heart rate, blood flow, blood pressure, body temperature, pressure for holding the camera body 2 (holding force), and pressure for holding the photographing lens 3 (holding force) as biometric information values. Yes.
- the biometric information is obtained by measuring and storing the normal biometric information of the photographer in advance. Further, this biometric information value may be stored as data specifying the photographer.
- the camera body 2 includes a photometric sensor 40 that measures the luminance of the object field in the vicinity of the pentaprism 32, and a GPS (Global Positioning System) module 41 above the pentaprism 32. Position information (latitude, longitude, altitude) is acquired by receiving signals from GPS satellites.
- the camera body 2 also includes a microphone 42 that records the sound of the object scene at a position where it does not interfere with the photographic lens 3 at the mount portion on which the photographic lens 3 is mounted, and a speaker 43 near the finder optical system 26.
- the release SW 24 is a two-stage switch, and when the photographer presses the release SW 24 halfway, the lens-side biosensor unit 8 and the camera-side biosensor unit 16 start detecting the biometric information of the photographer. At the same time, it is a switch that performs a shooting preparation operation (for example, autofocus or photometry) and instructs the shooting (still image or moving image) when the photographer fully presses the release SW 24.
- the main body CPU 44 controls the entire camera system 1 in cooperation with the lens CPU 7.
- the main body CPU 44 captures images based on outputs from the lens-side biosensor unit 8 and the camera-side biosensor unit 16.
- the biometric information of the person is acquired, and control such as setting of the camera system 1 and operation assistance is performed.
- acquisition of the biometric information of the photographer of the lens side biosensor unit 8 and the camera side biosensor unit 16 will be described.
- the reference electrode 9a and the detection electrode 9b of the plurality of electrode portions 9 are provided at the position where the photographer holds the photographing lens 3 with the left hand, and the position where the photographer holds the camera body 2 with the right hand.
- the detection potentials from the detection electrodes 9b and 17b are output to the main body CPU 44 after the potential difference is amplified by a differential amplifier (not shown).
- the main body CPU 44 calculates the heart rate of the photographer based on the potential difference between the detection electrodes 9b and 17b.
- the photographer's left hand is not touching the reference electrode 9a and the detection electrode 9b, so that the gap between the reference electrode 9a and the detection electrode 9b is open.
- the lens CPU 7 determines that the photographer does not hold the photographing lens 3 when the reference electrode 9a and the detection electrode 9b are open.
- the main body CPU 44 determines that the photographer does not hold the camera main body 2 when the space between the reference electrode 17a and the detection electrode 17b of the heart rate detecting device is open.
- pulse wave detectors 12 and 20 measure the blood pressure of the photographer. Since pulse wave detection device 12 and pulse wave detection device 20 have the same configuration, detailed description of pulse wave measurement will be made only on pulse wave detection device 12.
- pulse wave detection device 12 for example, infrared rays are emitted from a plurality of light emitting units 10a to 10d, and the infrared rays are reflected by a finger artery, and the reflected infrared rays are received by light receiving units 11a to 11d that are infrared sensors.
- the pulse wave of the finger part of the hand is detected (the blood flow volume of the peripheral blood vessel is detected).
- the main body CPU 44 calculates the blood pressure of the photographer based on the pulse wave from the pulse wave detection device 12.
- the lens CPU 7 is arranged corresponding to the little finger when it is determined that the finger (for example, little finger) of the photographer does not touch the photographing lens 3 from the outputs of the reference electrode 9a and the detection electrode 9b of the plurality of electrode portions 9.
- the main body CPU 44 emits light from the pulse wave detection device 20 when the photographer's thumb is not touching the camera main body 2 based on the outputs of the reference electrodes 17a and the detection electrodes 17b of the plurality of electrode portions 17, for example.
- the light emission of the unit 18 may be prohibited.
- Sweating can be detected by measuring hand impedance.
- the sweating sensors 13 and 21 have a plurality of electrodes and detect sweating.
- the reference electrode 9a and the reference electrode 17a may be used as a part of the plurality of electrodes.
- the sweat sensor 13 is provided in each of the lens-side biosensors 8A to 8D.
- mental sweat such as impression, excitement, and tension has less sweat and a shorter sweat time, so sweat than a finger.
- You may provide only in the lens side biosensor part 8B and 8C located in the palm side of a middle hand with much quantity.
- the temperature sensors 14 and 22 use a thermistor method in which the resistance value changes due to heat.
- the sweating includes the above-described mental sweating and the thermal sweating for body temperature regulation, and the mental sweating and the thermal sweating interfere with each other. Therefore, the main body CPU 44 can determine whether the photographer's perspiration is mental perspiration or thermal perspiration based on the output of the perspiration sensors 13 and 21 and the output of the temperature sensors 14 and 22. For example, the main body CPU 44 can determine thermal sweating when the temperature detected by the temperature sensor 22 is high and a sweat signal from the sweat sensor 21 is always detected.
- the main body CPU 44 determines that mental sweating occurs when the sweating signal from the sweating sensor 21 is irregularly output, and can detect that the photographer is in a state of emotion, excitement, or tension.
- the main body CPU 44 determines that the sweat signal from the sweat sensors 13 and 21 is based on the position information of the GPS module 41 and the date and time information from the calendar unit 38. Or thermal sweating may be determined.
- the lens CPU 7 may determine whether the sweat of the left hand is mental sweating or thermal sweating based on the output of the sweat sensor 13 or the output of the temperature sensor 14.
- the pressure sensor 15 is a capacitance type sensor, and measures the amount of deformation caused by the pressing force when the photographer holds the photographing lens 3. In the present embodiment, the pressure sensor 15 is provided below the operation rubber.
- the pressure sensor 23 is a similar capacitance type sensor, and measures the amount of deformation caused by the pressing force when the photographer holds the camera body 2. Note that pressure sensors 15 and 23 using strain gauges, electrostrictive elements, or the like may be applied.
- FIG. 8 is a flowchart showing the process of detecting the photographer's biological information and setting the shooting conditions under the control of the main body CPU 44. The following description will be made assuming that the main switch (power switch) of the camera body 2 is turned on.
- the main body CPU 44 determines whether or not the release SW 24 is half-pressed. If the release SW 24 is half-pressed, the process proceeds to step S2, and if the release SW 24 is not half-pressed, the determination in step S1 is repeated (step S1).
- the main body CPU 44 starts shooting preparation when the release SW 24 is half-pressed (step S2). Specifically, the main body CPU 44 performs focus detection of the object scene using the focus detection sensor 29 and measures the luminance of the object scene using the photometric sensor 40.
- the main body CPU 44 retracts the movable mirror 28 to the retracted position, and the rear liquid crystal monitor control circuit 36. With this control, an image (live view image) is displayed on the rear liquid crystal monitor 37.
- the main body CPU 44 positions the movable mirror 28 at the reflection position when the live view mode is not set by a setting SW (not shown).
- the main body CPU 44 detects biological information of the left hand of the photographer by the lens-side biosensor unit 8 in conjunction with the lens CPU 7, and detects biological information of the right hand of the photographer by the camera-side biosensor unit 16 (step S3). .
- the main body CPU 44 detects a photographer's heart rate, blood flow, blood pressure, sweating state, body temperature, and pressure (holding force) that holds the camera body 2 and the photographing lens 3. Note that the order of steps S2 and S3 may be interchanged or may be performed simultaneously.
- the main body CPU 44 compares the biometric information value stored in the EEPROM 39 with the biometric information of the photographer acquired in step S3 to determine whether the biometric information has changed, that is, the photographer is in an excited state or a fatigued state. Is determined (step S4).
- the main body CPU 44 determines that the photographer may be excited when the detected heart rate and blood pressure are 10% or more higher than the heart rate and blood pressure stored in the EEPROM 39.
- the pressure (holding force) for holding the camera body 2 and the taking lens 3 is referred to.
- the main body CPU 44 determines mental sweating when the sweating signals from the sweating sensors 13 and 21 are irregularly output, and determines that the photographer is in an excited state.
- the main body CPU 44 refers to the pressure (holding force) that holds the camera body 2 and the photographing lens 3 and stores either pressure (holding force) in the EEPROM 39. It is determined that the photographer is excited when the pressure is 10% or more higher than the applied pressure.
- the main body CPU 44 determines that something has happened at the shooting location and the photo opportunity is near or the photographer's excitement is expected. May be.
- the main body CPU 44 may determine that the shooting location is a school, a stadium, a wedding hall, or the like based on the output of the GPS module 41 and change the threshold value of the determination state of excitement. Specifically, when the shooting location is a school or a stadium, the output of the microphone 42 is likely to fluctuate due to cheering, etc., so the excitement of the photographer is expected when the output from the microphone 42 rises by 20 dB or more. Judge that. If the shooting location is a wedding hall, there will often be a photo opportunity after the presenter's remarks, so if the output from the microphone 42 decreases, it will be judged that the photo opportunity is near or the excitement of the photographer is expected. May be.
- the main body CPU 44 determines that the photographer is excited when the heart rate and blood pressure stored in the EEPROM 39 are increased by 15% or more. In this case, the outputs of the sweating sensors 13 and 21 and the outputs of the pressure sensors 15 and 23 may not be referred to. Instead of comparing the biometric information value stored in the EEPROM 39 with the biometric information of the photographer acquired in step S3, the main body CPU 44 changes the biometric information of the photographer acquired in step S3. Whether the photographer is in an excited state may be determined from the rate. Specifically, the main body CPU 44 determines whether or not the photographer is in an excited state based on whether or not the photographer's heart rate and blood pressure have increased over time.
- the main body CPU 44 determines that the output of the sweat sensors 13 and 21 and the pressure sensor 15 and With reference to the output 23, it is determined whether or not the photographer is in an excited state. As described above, it may be determined whether the photographer is in an excited state based on the output of the microphone 42 or the output of the GPS module 41.
- the main body CPU 44 calculates the blood flow based on the pulse wave detected by the pulse wave detection devices 12 and 20, and detects the degree of fatigue of the photographer based on the calculation result. That is, since there is a correlation between the blood flow rate and fatigue, the blood flow rate is determined by comparing the calculated blood flow rate with the normal blood flow rate of the photographer stored in the EEPROM 39. It is determined that the photographer is in a fatigued state when it increases by more than a threshold value.
- the main body CPU 44 determines whether or not the release SW 24 is fully pressed in step S5. Execute.
- a still image or a moving image is shot according to the setting of the shooting mode SW25 or a setting SW (not shown).
- Still image shooting or moving image shooting settings may be selected by the shooting mode SW25, or a dedicated switch for moving image shooting may be provided, and the live view mode is set by a setting SW (not shown).
- moving image shooting may be started by pressing the above-described moving image shooting switch.
- step S5 If the release SW 24 is not fully pressed in step S5, the main body CPU 44 returns to step S1.
- the main body CPU 44 determines in step S4 that the photographer is in an excited state or a fatigued state, the live view mode is set by a setting SW (not shown) provided on the back surface of the camera main body 2. Even if not, the movable mirror 28 is moved to the retracted position, and an image (live view image) is displayed on the rear liquid crystal monitor 37 by the rear liquid crystal monitor control circuit 36 (step S7). This is because, as will be described later, the photographer is in an excited state or in a fatigued state, and is different from the normal state, so that an image is reliably captured. Further, the main body CPU 44 performs contrast AF using the output of the image sensor 27 instead of the focus detection sensor 29 because the movable mirror 28 is at the retracted position.
- the main body CPU 44 sets the camera system 1 to the automatic shooting mode (step S8). Specifically, the main body CPU 44 sets automatic exposure (AE) and autofocus (AF), and automatically sets a shooting scene from portrait, sports, landscape, night view, sunset view, and the like. This automatic setting may be set based on the photometric result of the photometric sensor 40, time information from the calendar unit 38, and position information from the GPS module 41. The main body CPU 44 may set the ISO to a higher sensitivity side than normal (for example, ISO 800 or higher) and display a level in the finder to prevent the camera system 1 from tilting.
- ISO ISO
- the main body CPU 44 sets the auto shooting mode when the photographer's excitement state is medium or larger (for example, when the outputs of the lens-side biosensor 8 and the camera-side biosensor 16 are increased by 15% or more). Also good.
- the auto shooting mode may be set to enable / disable of the mode itself, or each function of the auto shooting mode may be set to enable / disable.
- the main body CPU 44 sets an erroneous operation prevention mode (step S9).
- the erroneous operation prevention mode for example, when the photographer performs a predetermined operation such as a power switch, operation of the release SW 24, image deletion, format operation of the image storage medium 35, a confirmation display or a warning display is displayed in the viewfinder or Characters and icons are used for the rear liquid crystal monitor 37 or both the viewfinder and the rear liquid crystal monitor 37.
- the main body CPU 44 may output a confirmation or warning sound from the speaker 43. Further, the main body CPU 44 may prohibit a predetermined operation.
- the main body CPU 44 prohibits turning off the power switch, deleting the captured image by the image deleting unit, editing the captured image by the image editing unit, and formatting the image storage medium 35.
- the main body CPU 44 may execute the power switch off when the power switch is turned off a plurality of times even when the power switch is prohibited from being turned off.
- the main body CPU 44 is instructed to delete the captured image by the image deletion unit a plurality of times by the operation unit even when deletion of the captured image by the image deletion unit and editing of the captured image by the image editing unit are prohibited.
- the shot image may be deleted by the image deletion unit.
- the operation unit has been instructed to edit the shot image by the image editing unit a plurality of times, the shot image is shot by the image editing unit. You may make it edit.
- the erroneous operation prevention mode may be set to enable or disable the mode itself, or each function of the erroneous operation prevention mode may be set to enable or disable.
- the main body CPU 44 determines whether or not the set shooting mode is the still image shooting mode (step S10). If the still image shooting mode is set here, the still image correction mode is entered (step S11). On the other hand, if the still image shooting mode is not set, the moving image correction mode is set, and the moving image correction mode is entered (step S12).
- step S11 when the photographer is in an excited state, the degree of camera shake increases, so the exposure control is changed to shorten the exposure time in order to reduce the influence of camera shake.
- the exposure calculation program diagram of the camera system 1 is changed so as to increase the shutter speed.
- the shutter opening time (not shown) is controlled to be short, and the image capturing time by the image sensor 27 is shortened.
- the amplitude is larger and the dominant vibration frequency tends to shift higher than in the mental state where the vibration characteristics of the vibration are calm, so the camera shake correction is also higher than in the normal state.
- the control is changed to the control using the control parameter suitable for the camera shake correction corresponding to the vibration having a large amplitude and a slightly quick cycle.
- the control parameter suitable for the camera shake correction corresponding to the vibration having a large amplitude and a slightly quick cycle.
- signal processing that mainly detects low-frequency vibrations in the vicinity of several hertz (around 2 hertz) when imaging with the imaging device 27 is performed.
- the cutoff frequency of the digital filter of a digital circuit (not shown) is changed so that this main detection frequency is mainly detected at a frequency several times (6 to 10 hertz).
- the amplitude becomes large. Therefore, there is a case where the camera shake cannot be completely corrected by one method of camera shake correction.
- the camera shake when the amplitude is large is corrected by appropriately combining the three camera shake correction methods described above.
- the lens CPU 7 drives the image stabilization lens based on the camera shake amount detected by the angular velocity sensor 6, and the main body CPU 44 corrects the image stabilization lens drive amount based on the camera shake amount detected by the angular velocity sensor 6.
- a camera shake amount that cannot be completely calculated is calculated, and the image sensor 27 may be driven based on the calculated camera shake amount.
- electronic shake correction may be performed instead of driving the image sensor 27, or all three camera shake correction methods may be used.
- the three camera shake correction methods described above may be selected in accordance with the remaining battery level of the camera system 1.
- the main body CPU 44 may receive weight data of the anti-vibration lens from the lens CPU 7 and drive a lighter weight compared with the weight of the image sensor 27, and may be combined with electronic shake correction.
- the main body CPU 44 changes the exposure control so that the exposure time of each frame is shortened in order to reduce the influence of camera shake in the moving image correction mode in step S12 as well as in the still image correction mode.
- the exposure calculation program diagram of the camera system 1 is changed so that the shutter speed becomes high, and camera shake correction is performed.
- the correction control is set to be duller than the vibration in the case of a still image, and the camera shake correction parameter is changed so as to intensively correct a shake with a larger amplitude.
- the image stabilization is performed so as to follow the amplitude of 2N to 5N when the photographer is excited. It is only necessary to drive at least one of the lens and the image sensor 27. Further, the following amplitude may be selected from 2N to 5N according to the degree of excitement (the degree of change in biological information). Further, correction may be performed for the case where the amplitude of camera shake exceeds a predetermined value based on the degree of change in biological information.
- the main body CPU 44 considers the composition stability (look) between the moving image frames, and is a frame rate higher than the normal moving image shooting frame rate (for example, 60 fps when the normally set frame rate is 30 fps). Change to
- the still image correction mode and the moving image correction mode may be set to enable / disable of the mode itself.
- the main body CPU 44 determines whether or not the release SW 24 is fully pressed in step S13. If the release SW 24 is fully pressed, the main body CPU 44 proceeds to step S6 and executes photographing. In this case, when any of the auto shooting mode, the erroneous operation prevention mode, the still image correction mode, and the moving image correction mode is set to be effective, the shooting is performed using the function of each set mode. . In this case, since it is detected that the photographer is in an excited state and the movable mirror 28 is moved to the retracted position in advance, there is an effect that photographing can be performed quickly.
- the main body CPU 44 performs moving image shooting when the release SW 24 is not fully pressed in step S13 (step S14).
- the moving image shooting in step S14 is for reliably shooting an image even when the photographer is in an excited state.
- the main body CPU 44 shoots a short moving image of about 4 to 6 seconds, for example, regardless of whether the still image shooting mode or the moving image shooting mode is set.
- the main body CPU 44 displays on the at least one of the finder optical system 26 and the rear liquid crystal monitor 37 that a moving image is being photographed.
- the photographer can recognize that a backup moving image is recorded, and thus can remove the worry of missing a photo opportunity.
- the display of the normal moving image recording is different from the display of the backup moving image recording.
- the display of the backup moving image recording may be made more conspicuous by blinking, changing the color, or changing the display size.
- the main body CPU 44 sets the frame rate according to the remaining capacity of the image recording medium 35, and sets the moving image shooting time from 4 seconds to 6 seconds. Further, when the remaining capacity of the image recording medium 35 is small, the main body CPU 44 can set the moving image shooting time to 3 seconds or less, or can switch to still image shooting. In this case, the number of still images to be shot or the number of shots for continuous shooting may be determined according to the remaining capacity of the image recording medium 35. In moving image shooting, sound may or may not be recorded. For example, when the frame rate exceeds 60 fps, sound may not be recorded.
- step S14 the main body CPU 44 determines whether or not the release SW 24 is half-pressed even after shooting a short time movie (step S15). If the release SW 24 is half-pressed, the process returns to step S2. When the process proceeds from step S2 to step S14 again, a moving image can be captured intermittently. On the other hand, if the release SW 24 is not half-pressed in step S15, the main body CPU 44 returns the movable mirror 28 to the reflection position (step S16). In addition, if the photographer is excited or tired, it can be left as tag information or saved in another holder (for example, a holder for shooting when excited), and the photographer can edit the image. Can easily extract the images that interest you.
- both hands of the photographer touch each of the lens-side biosensor unit 8 and the camera-side biosensor unit 16.
- the outputs of the lens-side biosensor unit 8 and the camera-side biosensor unit 16 are detected. . Thereby, even when the photographer suddenly presses the release SW 24 suddenly, a focused image can be recorded.
- the photographer's biometric information is acquired based on the outputs of the lens-side biosensor unit 8 and the camera-side biosensor unit 16, but if a change in the biometric information can be detected, imaging is performed. Analogy with a person's emotional changes. In this case, it is not necessary to use a very expensive sensor as each of the lens side biosensor unit 8 and the camera side biosensor unit 16.
- the outputs of the lens-side biosensor unit 8 and the camera-side biosensor unit 16 are stored in a storage device (not shown) in association with the date / time information of the calendar unit 38 or the positioning information from the GPS module 41, Changes in the biometric information of the photographer according to the shooting location can be recorded. In this case, it is desirable to store changes in biological information for each photographer in a storage device (not shown).
- the main body CPU 44 uses the date and time information from the GPS module 41 and the calendar unit 38 provided in the camera main body 2 to threshold the photographer's emotional judgment based on values acquired by the lens side biosensor unit 8 and the camera side biosensor unit 16. May be corrected. Specifically, if the photographer is in Hokkaido and the season is winter due to the output of the GPS module 41, the blood pressure increases, so the threshold for determining the excitement of the photographer may be increased.
- the auto shooting mode and the erroneous operation prevention mode are set simultaneously.
- either one of the auto shooting mode and the erroneous operation prevention mode may be set.
- the time after the camera 2 is turned on, the number of operations of the release SW 24, the moving image shooting cumulative time, and the like are referred to. It may be.
- the photographer's fatigue level can be detected with higher accuracy. For example, when the cumulative power-on time for one day exceeds 1 hour, when the number of operations of the release SW 24 exceeds 200, or when the cumulative shooting time for moving images exceeds 1 hour, the photographer is in a fatigued state. It can be judged that there is.
- the camera system 1 when the photographer is in an unusual state, for example, when the photographer is excited or tired, it is possible to perform photographing without fail.
- parents may be excited and cheering while taking pictures depending on the situation of their children's activities in children's athletic meet. it can.
- the lens interchangeable single-lens reflex camera system provided with the movable mirror 28 has been described as an example.
- a photographing assist function using the outputs of the lens-side biosensor unit 8 and the camera-side biosensor unit 16 according to the present embodiment can also be employed in this type of interchangeable lens camera.
- steps S7 and S16 in the flowchart shown in FIG. 8 can be omitted.
- the movable mirror 28 since the movable mirror 28 is not provided, the light beam from the object field does not reach the focus detection sensor 29.
- focus detection may be performed by contrast AF using the image sensor 27 instead of the focus detection sensor 29.
- Japanese Patent Application Laid-Open No. 2007-233302 (US Publication No. 2007070206937) proposes an image sensor AF that performs phase-difference AF by providing pixels for AF detection in the image sensor. Therefore, the contrast AF and the phase difference AF may be used in combination by adopting this imaging element AF in the mirrorless lens interchangeable camera.
- control using the output of the camera-side biosensor unit 16 according to the present embodiment can be adopted for the video camera.
- the biological information from both hands of the photographer is detected using the lens-side biosensor unit 8 and the camera-side biosensor unit 16, but for example, the sweat sensors 13, 21, the temperature sensor 14, 22.
- the pressure sensors 15 and 23 may be detection results from one hand. As long as other sensors can be detected from one hand according to the detection method, the detection result from one hand may be used.
- a wearable biosensor may be used instead of the lens side biosensor unit 8 and the camera side biosensor unit 16. Or you may make it use the lens side biosensor part 8 and the camera side biosensor part 17, and a wearable type biosensor in cooperation.
- a wearable biosensor a watch-type biosensor, a ring-type biosensor, or the like can be used. In this case, the output of the wearable biosensor may be transmitted to the camera body 2 by short-range communication. Details of the wristwatch-type biosensor are disclosed in, for example, Japanese Patent Application Laid-Open No. 2005-270543 (US Pat. No. 7,538,890).
- the level of the photographer's excited state is determined based on the biological information of the photographer.
- the control in the still image correction mode and the moving image correction mode may be made different.
- the above-described camera shake correction may be performed when it is determined that the photographer is frustrated based on the biological information.
- the configuration of the power supply is not particularly mentioned.
- the camera system 1 operates by receiving power supply.
- the camera system 1 can receive power supply by connecting it to a household AC power source or from a detachable battery.
- the type of battery may be a primary battery or a secondary battery.
- a plurality of batteries may be detachable according to the nature of the element supplying power.
- a battery can be attached to each unit.
- the battery attached to the camera body 2 mainly supplies power to the camera body 2
- the battery attached to the photographing lens 3 mainly supplies power to the photographing lens 3. Therefore, the driving power for driving the focus lens is supplied by the battery attached to the photographing lens 3.
- power can be supplied so that one battery supplements the other battery.
- SYMBOLS 1 ... Camera system, 2 ... Camera body, 3 ... Shooting lens, 8 (8A-8D) ... Lens side biological sensor part, 16 ... Camera side biological sensor part, 26 ... Finder optical system, 27 ... Imaging element, 28 ... Movable Mirror, 38 ... Calendar part, 41 ... GPS module, 42 ... Microphone
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Abstract
Description
[特許文献1]特開2008-124885号公報
[特許文献2]特開2009-105795号公報
前述のように、撮影者が左手で撮影レンズ3を保持する位置には複数の電極部9の基準電極9a及び検出電極9bが設けられており、撮影者が右手でカメラ本体2を保持する位置には複数の電極部17の基準電極17a及び検出電極17bが設けられている。検出電極9b、17bからの検出電位は、不図示の差動増幅器で電位差が増幅されて本体CPU44へ出力される。本体CPU44は、検出電極9b、17bの電位差に基づいて、撮影者の心拍数を演算する。
脈波検出装置12,20は、撮影者の血圧を測定するものである。なお、脈波検出装置12と脈波検出装置20は同様の構成を有するため、脈波測定の詳細な説明は、脈波検出装置12についてのみ行う。脈波検出装置12においては、複数の発光部10a~10dから例えば赤外線を射出し、この赤外線が指の動脈で反射され、この反射された赤外線を赤外線センサである受光部11a~11dにおいて受光して手の指部の脈波を検出する(末梢血管の血流量を検出する)。本体CPU44は脈波検出装置12からの脈波に基づいて撮影者の血圧を演算する。レンズCPU7は、複数の電極部9の基準電極9aと検出電極9bとの出力から撮影者のある指(例えば小指)が撮影レンズ3に触れていないと判断した場合に、小指に対応して配置された発光部の発光を禁止するようにすれば、無駄な発光を防止すると共に、被写界に迷光を射出することもない。同様に、本体CPU44は、複数の電極部17の基準電極17aと検出電極17bとの出力に基づいて、例えば撮影者の親指がカメラ本体2に触れていないときに、脈波検出装置20の発光部18の発光を禁止してもよい。
発汗は手のインピーダンスを測定することにより検出することができる。発汗センサ13,21は、複数の電極を有して発汗を検出するものである。なお、複数の電極の一部として基準電極9a、基準電極17aを兼用してもよい。発汗センサ13は、レンズ側生体センサ部8A~8Dのそれぞれに設けられているが、感動、興奮、緊張といったような精神性発汗は、発汗量が少なく、発汗時間も短いので、指よりも発汗量が多い中手の掌側に位置するレンズ側生体センサ部8B,8Cだけに設けてもよい。
温度センサ14,22は、熱により抵抗値が変化するサーミスタ方式を用いている。発汗には前述の精神性発汗と、体温調節のための温熱性発汗とがあり、精神性発汗と温熱性発汗とは相互干渉している。このため、本体CPU44は発汗センサ13,21の出力と、温度センサ14,22の出力とに基づいて撮影者の発汗が精神性発汗か温熱性発汗かを判断することができる。例えば、本体CPU44は、温度センサ22により検出した温度が高く、発汗センサ21からの発汗信号が常時検出される場合に温熱性発汗と判断することができる。また、本体CPU44は、発汗センサ21からの発汗信号が不規則に出力される場合に精神性発汗と判断して、撮影者が感動、興奮、緊張といった状態であることを検出できる。なお、温度センサ14,22を省略した場合には、本体CPU44は、GPSモジュール41の位置情報やカレンダー部38からの日時情報などに基づいて、発汗センサ13,21からの発汗信号が精神性発汗か温熱性発汗かを判断してもよい。更に、レンズCPU7が発汗センサ13の出力や温度センサ14の出力に基づいて、左手の汗が精神性発汗か温熱性発汗かを判断するようにしてもよい。
圧力センサ15は、静電容量型のセンサであり、撮影者が撮影レンズ3を保持した際の押圧力による変形量を測定するものである。本実施の形態において圧力センサ15は、操作ゴムの下方に設けられている。圧力センサ23も同様の静電容量型のセンサであり、撮影者がカメラ本体2を保持した際の押圧力による変形量を測定するものである。なお、圧力センサ15,23として歪ゲージや、電歪素子などを用いたものを適用してもよい。
本体CPU44は、カメラ本体2に設けられたGPSモジュール41やカレンダー部38からの日時情報により、レンズ側生体センサ部8及びカメラ側生体センサ部16で取得した値に基づく撮影者の心情判断の閾値を補正してもよい。具体的には、GPSモジュール41の出力により撮影者が北海道にいて季節が冬であれば血圧が高めになるので、撮影者の興奮を判断する閾値を上げてもよい。
Claims (45)
- 撮影者の生体情報の変化を検出可能な第1生体検出装置
を備えることを特徴とする撮影レンズ。 - 少なくとも1枚のレンズを操作可能な操作部材を備え、
前記第1生体検出装置は、前記操作部材もしくは前記操作部材の近傍に設けられることを特徴とする請求項1記載の撮影レンズ。 - 前記第1生体検出装置は、互いに分離した複数の電極部を有することを特徴とする請求項1または2記載の撮影レンズ。
- 前記第1生体検出装置は、撮影者の掌に向け光を発光する発光部と、前記発光部に隣接して設けられ、前記掌で反射した光を受光する受光部とを有することを特徴とする請求項1~3のいずれか一項に記載の撮影レンズ。
- 前記第1生体検出装置は、掌の汗を検出する発汗センサと、
前記発汗センサの検出した汗が精神性発汗かどうかを判定する判定部と、を備えることを特徴とする請求項1~4のいずれか一項に記載の撮影レンズ。 - 撮影を行う撮影装置であって、
前記撮影装置を保持する保持部と、
撮影操作を行う操作部と、
前記保持部と前記操作部との少なくとも一方に設けられ、撮影者の生体情報の変化を検出可能な第2生体検出装置と
を備えることを特徴とする撮影装置。 - 前記第2生体検出装置は、互いに分離した複数の電極部を有することを特徴とする請求項6記載の撮影装置。
- 前記第2生体検出装置は、撮影者の掌に向け光を発光する発光部と、前記発光部に隣接して設けられ、前記掌で反射した光を受光する受光部とを有することを特徴とする請求項6または7記載の撮影装置。
- 前記第2生体検出装置は、掌の汗を検出する発汗センサと、
前記発汗センサの検出した汗が精神性発汗かどうかを判定する判定部と、を備えることを特徴とする請求項6~8のいずれか一項に記載の撮影装置。 - 撮影レンズに設けられ撮影者の生体情報の変化を検出可能な第1生体検出装置と、
撮影装置本体に設けられ前記撮影者の生体情報の変化を検出可能な第2生体検出装置と、
前記撮影装置本体に設けられ、前記第1及び第2生体検出装置の検出結果に基づいて、前記撮影者の生体情報の変化を検出する検出装置と、
を備えることを特徴とする撮影システム。 - 前記第1生体検出装置は互いに分離した複数の第1電極部を有し、
前記第2生体検出装置は互いに分離した複数の第2電極部を有し、
前記検出装置は、前記複数の第1及び第2電極部の出力に基づいて、前記撮影者の心拍数の変化を検出することを特徴とする請求項10記載の撮影システム。 - 前記第1生体検出装置は、前記撮影者の掌に向け光を発光する第1発光部と、前記第1発光部に隣接して設けられ、前記掌で反射した光を受光する第1受光部とを有し、
前記第2生体検出装置は、前記撮影者の掌に向け光を発光する第2発光部と、前記第2発光部に隣接して設けられ、前記掌で反射した光を受光する第2受光部とを有し、
前記検出装置は、前記第1及び第2受光部の出力に基づいて、前記撮影者の血圧の変化を検出することを特徴とする請求項10または11記載の撮影システム。 - 前記第1生体検出装置は掌の汗を検出する第1発汗センサと、
前記第2生体検出装置は前記掌の汗を検出する第2発汗センサと、
前記検出装置は、前記第1及び第2発汗センサの検出した汗が精神性発汗かどうかを判定することを特徴とする請求項10~12のいずれか一項に記載の撮影システム。 - 測位情報を検出する測位検出器と、日時情報を検出する日時情報検出装置との少なくとも一方を備え、
前記検出装置は、前記測位検出器と前記日時情報検出装置との少なくとも一方の出力に基づいて、前記第1及び第2生体検出装置の検出結果を補正することを特徴とする請求項10~12のいずれか一項に記載の撮影システム。 - 前記第1及び第2生体検出装置が前記撮影者の生体情報の変化を検出した際に、撮影準備を開始する制御部を備えたことを特徴とする請求項10~14のいずれか一項に記載の撮影システム。
- 前記第1生体検出装置は、前記撮影装置本体の姿勢に応じて、複数設けられていることを特徴とする請求項10~15のいずれか一項に記載の撮影システム。
- 撮影レンズを用いて撮影を行う撮影部と、
前記撮影に関する設定を行う設定部と、
撮影者の生体情報に基づいて前記撮影部により撮影を行う際に、前記撮影部の状態と前記設定部による設定との少なくとも一部を変更する制御部と
を備えたことを特徴とする撮影装置。 - 前記設定部は、静止画撮影と動画撮影を設定可能であり、
前記制御部は、前記設定部により前記静止画撮影が設定された場合でも、前記撮影者の生体情報に基づく撮影を行う際に前記動画撮影を行うことを特徴とする請求項17記載の撮影装置。 - 前記撮影部に光束を導く第1位置と、前記撮影部に光束を導かない第2位置とに移動可能な光学部材を有し、
前記制御部は、前記撮影者の生体情報に基づいて、前記光学部材を前記第1位置に移動して前記撮影部の状態を変更することを特徴とする請求項17または18記載の撮影装置。 - 前記撮影レンズの焦点検出を行う第1焦点検出装置と、前記第1焦点検出装置とは異なる第2焦点検出装置と、を有し、
前記制御部は、前記撮影者の生体情報に基づく撮影を行う際に、前記第1焦点検出装置から前記第2焦点検出装置に切替えて前記撮影部の状態を変更することを特徴とする請求項17~19のいずれか一項に記載の撮影装置。 - 前記制御部は、撮影した画像を記憶する記憶媒体の容量に応じて、動画撮影と静止画撮影のいずれか一方を行うことを特徴とする請求項17~20のいずれか一項に記載の撮影装置。
- 前記制御部は、前記撮影者の生体情報に基づく動画撮影を行う際に、間欠的な撮影を行うことを特徴とする請求項17~21のいずれか一項に記載の撮影装置。
- 前記制御部は、前記撮影者の生体情報に基づく静止画撮影を行う際に、複数枚の静止画を撮影することを特徴とする請求項17~22のいずれか一項に記載の撮影装置。
- 音声を収集する音声収集装置を備え、
前記制御部は、前記撮影者の生体情報と前記音声収集装置が収集した音声とに基づいて、前記撮影部による撮影を行うことを特徴とする請求項17~23のいずれか一項に記載の撮影装置。 - 前記撮影者が被写界を視認する視認装置を備え、
前記制御部は、前記撮影者の生体情報に基づく撮影を行う際に、前記視認装置において撮影を行っていることを表示することを特徴とする請求項17~24のいずれか一項に記載の撮影装置。 - 前記撮影者の生体情報を検出する生体センサが前記撮影装置に設けられていることを特徴とする請求項17~25のいずれか一項に記載の撮影装置。
- 前記制御部は、前記生体センサからの生体情報の出力に応じて撮影準備を開始することを特徴とする請求項17~26のいずれか一項に記載の撮影装置。
- 前記撮影部への撮影を指示するスイッチを備え、
前記制御部は、前記スイッチの指示に基づく撮影の前に、前記撮影者の生体情報に基づいた撮影を行うことを特徴とする請求項17~27のいずれか一項に記載の撮影装置。 - 動画および静止画を撮像可能な撮像部と、
手振れを検出する検出装置に接続され、前記動画に対応した第1手振れ制御と、前記静止画に対応し、前記第1手振れ制御とは異なる第2手振れ制御を行う制御部とを備え、
前記制御部は、生体センサにより検出した撮影者の生体情報の変化に応じて、前記第1手振れ制御と前記第2手振れ制御とのそれぞれの制御を変更することを特徴とする撮像装置。 - 前記制御部は、前記撮像部が静止画を撮像する際に、前記検出装置の検出感度を変更することを特徴とする請求項29記載の撮像装置。
- 前記制御部は、前記撮像部が動画を撮像する際に、手振れ補正を行う振幅値を変更することを特徴とする請求項29記載の撮像装置。
- 撮像部による撮像は光学系を介して行われており、
前記制御部は、前記光学系の一部を用いて手振れを補正する第1補正部と、前記第1補正部とは異なる第2補正部とを併用して手振れ制御を行うことを特徴とする請求項29から31のいずれか一項に記載の撮像装置。 - 光学系を用いて動画および静止画を撮像可能な撮像部と、
手振れを検出する検出装置に接続された制御部と、を備え
前記制御部は、生体センサにより検出した撮影者の生体情報の変化に応じて、前記光学系の一部を用いて手振れを補正する第1補正部と、前記第1補正部とは異なる第2補正部とを併用して手振れ制御を行うことを特徴とする撮像装置。 - 撮像を行う撮像部と、
手振れを検出する検出装置の設定を変更可能な変更部と、
生体センサにより検出した撮影者の生体情報の変化に応じて、前記変更部を制御して検出装置の設定を変更する制御部と、
を備えたことを特徴とする撮像装置。 - 前記制御部は、前記検出装置の検出感度を変更することを特徴とする請求項34記載の撮像装置。
- 撮像部は撮像時間を制御するシャッタを備え、
前記変更部は、前記生体センサにより検出した撮影者の生体情報の変化に応じて、前記シャッタを制御して前記撮像時間を短くすることを特徴とする請求項34または35記載の撮像装置。 - 撮像を行う撮像部と、
手振れを検出する検出装置に接続された制御部と、を備え
前記制御部は、生体センサにより検出した撮影者の生体情報の変化に応じて、前記検出装置が検出した手振れのうち振幅が所定値を超えたものの手振れを補正することを特徴とする撮像装置。 - 前記制御部は、前記生体センサにより検出した撮影者の生体情報の変化に応じて、前記撮像部が動画を撮像する際のフレームレートを高くすることを特徴とする請求項37記載の撮像装置。
- 設定されたゲインにて音声を記録する音声記録装置を備え、
前記制御部は、前記生体センサにより検出した撮影者の生体情報の変化に応じて、前記ゲインを変更することを特徴とする請求項37または38記載の撮像装置。 - 使用者による操作を受ける操作部と、
生体センサにより使用者の生体情報の変化を検出した際に、前記操作部が受けた操作の一部の実行を禁止する禁止部と、
を備えたことを特徴とするパーソナル装置。 - 前記操作部は、電源のオンとオフとの操作を受ける電源スイッチを有し、
前記禁止部は、前記生体センサにより使用者の生体情報の変化を検出した際に、前記電源スイッチのオフの実行を禁止することを特徴とする請求項40記載のパーソナル装置。 - 撮像を行う撮像部を備え、
前記操作部は、前記撮像部が撮像した画像の削除の操作を受ける削除部を有し、
前記禁止部は、前記生体センサにより使用者の生体情報の変化を検出した際に、前記画像の削除の実行を禁止することを特徴とする請求項40または41記載のパーソナル装置。 - 前記撮像部が撮像した画像を編集する編集部を備え、
前記操作部は、前記編集部の操作を受ける編集部を有し、
前記禁止部は、前記生体センサにより使用者の生体情報の変化を検出した際に、前記編集部による編集を禁止することを特徴とする請求項42記載のパーソナル装置。 - 前記禁止部は、前記操作部が複数回操作された場合に、前記禁止した操作の実行を許可することを特徴とする請求項40から43のいずれか一項に記載のパーソナル装置。
- 表示を行う表示部を備え、
前記使用者の生体情報の変化を検出した際に、前記表示部に水準を示す表示を行わせる制御部を備えたことを特徴とする請求項40から44のいずれか一項に記載のパーソナル装置。
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- 2010-11-19 WO PCT/JP2010/006811 patent/WO2011080868A1/ja active Application Filing
- 2010-11-19 CN CN201410730182.8A patent/CN104410788B/zh not_active Expired - Fee Related
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2012
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CN110477861A (zh) * | 2013-10-18 | 2019-11-22 | 辛辛那提大学 | 以确保时间顺序方式的汗液感测 |
CN110477861B (zh) * | 2013-10-18 | 2023-02-03 | 辛辛那提大学 | 以确保时间顺序方式的汗液感测 |
Also Published As
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CN104410788A (zh) | 2015-03-11 |
CN104410788B (zh) | 2019-05-10 |
CN102483559B (zh) | 2016-01-13 |
CN102483559A (zh) | 2012-05-30 |
US20120229661A1 (en) | 2012-09-13 |
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