CN105847685A - Single lens reflex controller capable of controlling single lens reflex through intelligent terminal APP - Google Patents
Single lens reflex controller capable of controlling single lens reflex through intelligent terminal APP Download PDFInfo
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- CN105847685A CN105847685A CN201610204847.0A CN201610204847A CN105847685A CN 105847685 A CN105847685 A CN 105847685A CN 201610204847 A CN201610204847 A CN 201610204847A CN 105847685 A CN105847685 A CN 105847685A
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- 230000011514 reflex Effects 0.000 title claims abstract description 133
- 238000004891 communication Methods 0.000 claims abstract description 24
- 238000002955 isolation Methods 0.000 claims abstract description 14
- 238000009432 framing Methods 0.000 claims description 9
- WHXSMMKQMYFTQS-UHFFFAOYSA-N Lithium Chemical compound [Li] WHXSMMKQMYFTQS-UHFFFAOYSA-N 0.000 claims description 4
- 229910052744 lithium Inorganic materials 0.000 claims description 4
- 230000035945 sensitivity Effects 0.000 description 6
- 238000010586 diagram Methods 0.000 description 4
- 230000007246 mechanism Effects 0.000 description 3
- 230000001960 triggered effect Effects 0.000 description 3
- 230000005540 biological transmission Effects 0.000 description 2
- 230000003111 delayed effect Effects 0.000 description 2
- 238000000034 method Methods 0.000 description 2
- 239000005441 aurora Substances 0.000 description 1
- 238000006243 chemical reaction Methods 0.000 description 1
- 239000002131 composite material Substances 0.000 description 1
- 230000007613 environmental effect Effects 0.000 description 1
- 238000012986 modification Methods 0.000 description 1
- 230000004048 modification Effects 0.000 description 1
- 230000008569 process Effects 0.000 description 1
- 230000006641 stabilisation Effects 0.000 description 1
- 238000011105 stabilization Methods 0.000 description 1
- 238000006467 substitution reaction Methods 0.000 description 1
- 230000000007 visual effect Effects 0.000 description 1
Classifications
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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
- H04N23/66—Remote control of cameras or camera parts, e.g. by remote control devices
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- Engineering & Computer Science (AREA)
- Multimedia (AREA)
- Signal Processing (AREA)
- Studio Devices (AREA)
Abstract
The invention discloses a single lens reflex controller capable of controlling a single lens reflex through an intelligent terminal APP, wherein a Linux system module is in connection with a wireless communication module, a USB interface, and a real time system module; the real time system module is in connection with a sensor and an isolation trigger interface; the wireless communication module is in communication connection with an intelligent terminal to be used for receiving control instructions transmitted by the intelligent terminal; the USB interface is in connection with a single lens reflex through a USB data line; the Linux system module is used for processing the control instructions to generate corresponding control signals, sending the signals to the real time system module, and sending the signals to the single lens reflex through the USB interface so as to remotely control the single lens reflex; the sensor is used for obtaining real time sensing information; the real time system module is used for setting camera trigger parameters according to the control instructions, generating trigger instructions according to the real time sensing information, and sending the information to the single lens reflex through the isolation trigger interface to control the single lens reflex to perform corresponding trigger operation.
Description
Technical Field
The invention relates to the technical field of wireless control, in particular to a single lens reflex controller capable of controlling a single lens reflex through an intelligent terminal App.
Background
At present, the single lens reflex camera is more and more widely applied, and many special use scenes or shooting visual angles require the single lens reflex camera to be as close to a shot object as possible or make a shot object difficult to take pictures in a comfortable and safe manner. In these scenarios, the photographer is no longer eligible to take a close shot with a handheld camera. Therefore, a method for remotely controlling the single lens reflex camera to perform framing shooting is needed.
Disclosure of Invention
In order to realize the mode of framing and shooting by remotely controlling the single lens reflex, the invention provides the single lens reflex controller which can control the single lens reflex through the intelligent terminal App, and the shooting mode of the single lens reflex can be enriched. The intelligent terminal can be connected through Wi-Fi and Bluetooth, so that a user can remotely control the single lens reflex through the intelligent terminal App software, and remote control framing shooting, conditional triggering shooting and the like are realized.
The single lens reflex controller capable of controlling the single lens reflex through the intelligent terminal App provided by the invention comprises: the system comprises a Linux system module, a real-time system module, a wireless communication module, a sensor, a USB interface and an isolation trigger interface; the Linux system module is connected with the wireless communication module, the USB interface and the real-time system module, and the real-time system module is connected with the sensor and the isolation trigger interface; the wireless communication module is in communication connection with the intelligent terminal and is used for receiving a control instruction sent by the intelligent terminal; the USB interface is connected with the single lens reflex through a USB data line; the Linux system module is used for processing the control instruction, generating a corresponding control signal, sending the control signal to the real-time system module, and sending the control signal to the single lens reflex camera through the USB interface so as to remotely control the single lens reflex camera; the sensor is used for acquiring real-time sensing information and sending the real-time sensing information to the real-time system module; and the real-time system module is used for setting a camera trigger parameter according to the control instruction, generating a trigger instruction according to the real-time sensing information, sending the trigger instruction to the single lens reflex through the isolation trigger interface, and controlling the single lens reflex to carry out corresponding trigger operation.
Furthermore, the Linux system module is further configured to obtain parameter data and framing data of the single lens reflex through the USB interface, and send the parameter data and the framing data of the single lens reflex to the intelligent terminal through the wireless communication module.
Further, the controller further comprises: and the power supply module is connected with the Linux system module, the real-time system module, the sensor, the USB interface and the isolation trigger interface and provides power supply by being connected with a lithium battery.
Further, the wireless communication module includes: Wi-Fi module, bluetooth module.
Further, the sensor includes: and the sound sensor is used for acquiring sound sensing information and sending the sound sensing information to the real-time system module.
Further, the sensor includes: and the laser sensor is used for acquiring laser sensing information and sending the laser sensing information to the real-time system module.
Further, the sensor includes: and the light sensor is used for acquiring light sensing information and sending the light sensing information to the real-time system module.
The single lens reflex controller capable of controlling the single lens reflex through the intelligent terminal App comprises an operable Linux operating system, and single lens reflex controller service software is installed in the Linux operating system. The single lens reflex camera controller is provided with a Wi-Fi module, and a Wi-Fi hotspot can be set up through the Wi-Fi module. The intelligent terminal can be connected with the single lens reflex controller service software through the Wi-Fi hotspot, and therefore the purposes that the intelligent terminal App controls the single lens reflex to set parameters of the single lens reflex in real time, preview and view in real time and remotely control shooting are achieved.
The Wi-Fi is used for transmitting data, so that the remote control range of the single lens reflex can be expanded, and the transmission of high-speed data between the single lens reflex and the intelligent terminal App is realized; the single lens reflex controller service software can be compatible with various single lens reflex, provides a uniform remote control environment of different single lens reflex for a user, and is more convenient for the user to use the single lens reflex to carry out remote control shooting; in addition, the single lens reflex camera controller can also trigger the single lens reflex camera at a high speed through mechanisms such as laser triggering, sound decibel triggering or flash triggering, and the like, so that the shooting mode of the single lens reflex camera is enriched.
Drawings
The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the principles of the invention. In the drawings:
fig. 1 shows an application scenario in which an embodiment of the invention may be implemented.
Fig. 2 is a schematic structural diagram of a single-inverse controller according to an embodiment of the present invention.
Fig. 3A and 3B are schematic diagrams of display interfaces for performing camera remote control on an intelligent terminal App according to an embodiment of the present invention.
Fig. 4A to 4E are schematic diagrams of display interfaces for setting a timing shutter by using an intelligent terminal App according to an embodiment of the invention.
Fig. 5A and 5B are schematic display interfaces illustrating a sound trigger scheme set by the smart terminal App according to an embodiment of the present invention.
Fig. 6A and 6B are schematic display interfaces for setting a laser trigger scheme by using an intelligent terminal App according to an embodiment of the present invention.
Fig. 7A and 7B are schematic display interfaces illustrating a light trigger scheme set by the intelligent terminal App according to an embodiment of the present invention.
Detailed Description
The technical means adopted by the invention to achieve the preset object are further described below by combining the drawings and the preferred embodiments of the invention.
Reference is first made to fig. 1, which illustrates an application scenario in which embodiments of the present invention may be implemented. The scene shown in fig. 1 includes a single lens reflex controller 100, a smart terminal 200, and a single lens reflex 300. The smart terminal 200 may be a mobile terminal, such as a mobile electronic device, e.g., a mobile phone, a notebook computer, a personal digital assistant, etc. The single lens reflex controller 100 is in communication connection with the intelligent terminal 200, and is connected with the single lens reflex 300 through a USB data line.
Specifically, a schematic structural diagram of the single lens reflex camera controller 100 can be referred to fig. 2. Wherein, include: the system comprises a Linux system module 101, a real-time system module 102, a wireless communication module 103, a sensor 104, a USB interface 105 and an isolation trigger interface 106. In addition, the controller may also include a power module 107.
The Linux system module 101 is connected to the real-time system module 102, the wireless communication module 103, and the USB interface 105, and the real-time system module 102 is connected to the sensor 104 and the isolation trigger interface 106.
The wireless communication module 103 is in communication connection with the intelligent terminal 100 and is used for receiving a control instruction sent by the intelligent terminal 100; the wireless communication module 103 may include a Wi-Fi module and a bluetooth module. The Wi-Fi module can be used as a wireless routing relay.
The USB interface 105 is connected to the single lens reflex 300 through a USB data line.
The Linux system module 101 is configured to process the control instruction, generate a corresponding control signal, send the control signal to the real-time system module 102, and send the control signal to the single lens reflex 300 through the USB interface 105, so as to remotely control the single lens reflex 300.
Further, the Linux system module 101 is further configured to obtain parameter data and framing data of the single lens reflex 300 through the USB interface 105, and send the parameter data and the framing data to the intelligent terminal 200 through the wireless communication module 103.
The sensor 104 is used for acquiring real-time sensing information and sending the real-time sensing information to the real-time system module 102; wherein the sensor 107 includes: sound sensors, laser sensors and light sensors. The user can also configure the type of sensor according to actual conditions.
And the sound sensor is used for acquiring sound sensing information and sending the sound sensing information to the real-time system module 102.
And the laser sensor is used for acquiring laser sensing information and sending the laser sensing information to the real-time system module 102.
And the light sensor is used for acquiring light sensing information and sending the light sensing information to the real-time system module 102.
The real-time system module 102 is configured to set a camera trigger parameter according to the control instruction, and is further configured to generate a trigger instruction according to the real-time sensing information, and send the trigger instruction to the single lens reflex 300 through the isolation trigger interface 106, so as to control the single lens reflex 300 to perform a corresponding trigger operation.
As further shown in fig. 2, the power module 107 is connected to the Linux system module 101, the real-time system module 102, the sensor 104, the USB interface 105, and the isolation trigger interface 106, and provides power by accessing a lithium battery. The power module 107 can perform the functions of lithium battery charging management, voltage stabilization source supply to the internal circuit, boost circuit and switch circuit.
In actual application, the intelligent terminal 200 needs to install an App program, and the single-lens reflex camera controller service software needs to be set in the single-lens reflex camera controller 100. The single lens reflex camera controller service software is in communication connection with the intelligent terminal 100 through a Wi-Fi and Bluetooth module and is connected with the single lens reflex camera 300 through a USB connecting line.
The user can provide a query request through the intelligent terminal App, and the single lens reflex controller service software further sends the query request to the single lens reflex camera. The single lens reflex camera returns the manufacturer and the model of the single lens reflex camera to the single lens reflex camera controller service software, the single lens reflex camera controller service software determines a communication scheme with the single lens reflex camera according to the manufacturer and the model of the single lens reflex camera, and feeds back the manufacturer and the model of the single lens reflex camera to the intelligent terminal App. Through the steps, the user can remotely control the single lens reflex through the intelligent terminal, and the user can conveniently use the single lens reflex to remotely control shooting.
The single lens reflex controller provided by the invention can realize remote control of the single lens reflex by the intelligent terminal, and can also trigger the single lens reflex at high speed through mechanisms such as laser triggering, sound decibel triggering or flash triggering.
For a clearer explanation of the single lens reflex controller, a specific embodiment is described below, however, it should be noted that the embodiment is only for better explaining the present invention and is not to be construed as an undue limitation to the present invention.
First, in conjunction with the application scenario shown in fig. 1, the single lens reflex controller 100 and the single lens reflex 300 are connected by a USB data line, and the smart terminal 200 links the single lens reflex controller 100 through Wi-Fi.
As shown in fig. 3A and 3B, the user can remotely control the slr camera in real time through the display interface of the smart terminal App. Wherein, include on the display interface: a live view finder 1, a view switch 2, a focus adjustment 3, shooting parameters 4, a shot 5, a shutter 6, a diaphragm 7, ISO (photosensitive speed of photosensitive element) 8, and exposure compensation 9.
The operational functions include: the viewfinder switch 2 controls whether the real-time viewfinder 1 displays a real-time viewfinder picture of the single lens reflex; the focal length adjustment 3 controls the focal length setting of the single lens reflex; shooting parameters 4 open a shooting parameter menu; the shutter 6, the aperture 7, the ISO 8 and the exposure compensation 9 respectively control the setting of 4 parameters of the shutter, the aperture, the ISO and the exposure compensation of the single lens reflex. The touch photographing 5 controls the single lens reflex camera to trigger the shutter button to perform photographing according to the current parameter setting.
As shown in fig. 4A to 4E, a display interface of the time shutter is shown. Wherein, include on the display interface: shooting parameters 11, shooting 12, shooting mode 13, shutter 14, aperture 15, ISO 16, exposure compensation 17, delay 18, interval 19, number of shots 20.
The operational functions include: the shooting parameter 11 opens a shooting parameter menu; the shooting mode 13 opens a shooting mode menu; the shutter 14, the aperture 15, the ISO 16 and the exposure compensation 17 respectively control the setting of 4 parameters of the shutter, the aperture, the ISO and the exposure compensation of the single lens reflex; the delay 18 controls the parameters of the single lens reflex camera to delay photographing; the interval 19 controls the interval time of every 2 times of photographing of the single lens reflex; the number of shots 20 controls the total number of shots of the single lens reflex camera. The touch photographing 12 controls the slr camera to trigger the shutter button to perform photographing according to the current parameter setting and delay scheme.
As shown in fig. 5A and 5B, in the technical solution provided by the present invention, the sound triggering solution includes: sensitivity 21, photographing 22, photographing mode 23, number of photographs 24, trigger mode 25, delay time 26.
The operational functions include: the sensitivity 21 controls the sensitivity of the single-reaction controller sound sensor circuit; the photographing mode 23 opens a photographing mode menu; the shooting number 24 controls the total shooting number of the single lens reflex; the trigger mode 25 controls the triggered function of the single lens reflex; the delay time 26 controls the delayed photographing parameters of the single lens reflex; the touch photographing 22 controls the single lens reflex to perform triggering operation according to the current parameter setting and triggering scheme, and when the single lens reflex controller sound sensor circuit monitors that the environmental sound meets the triggering scheme, the single lens reflex camera is automatically controlled to perform photographing.
In a specific embodiment, when the user activates the voice triggering scheme, the user may implement the shooting operation of the single lens reflex camera through voice control, for example, by means of the voice of shooting hands, speaking by voice, and the like, to trigger the single lens reflex camera to shoot.
As shown in fig. 6A and 6B, in the technical solution provided by the present invention, the laser triggering solution includes: delay setting 31, taking a picture 32, delay time 33.
The operational functions include: the delay setting 31 opens a delay setting menu; the delay time 33 controls the delayed photographing parameters of the single lens reflex; the touch photographing 32 controls the single lens reflex to perform operation according to the current parameter setting and triggering scheme, and when the aurora composite triggering scheme is triggered, the single lens reflex controller is triggered, and the single lens reflex is automatically controlled to perform photographing.
As shown in fig. 7A and 7B, in the technical solution provided by the present invention, the flash triggering solution includes: sensitivity 41, photographing 42, delay setting 43, delay time 44.
The operational functions include: the sensitivity 41 controls the sensitivity of the single-reflex controller light sensor circuit; delay setting 43 opens the delay setting menu; the delay time 44 controls the single lens reflex camera to delay the photographing parameters; the touch photographing 42 controls the slr camera to trigger the execution of the operation according to the current parameter setting and triggering scheme. For example, when the single lens reflex controller light sensor circuit detects that the ambient light meets the trigger scheme, the single lens reflex camera is automatically controlled to perform shooting.
The single lens reflex controller capable of controlling the single lens reflex through the intelligent terminal App comprises an operable Linux operating system, and single lens reflex controller service software is installed in the Linux operating system. The single lens reflex camera controller is provided with a Wi-Fi module, and a Wi-Fi hotspot can be set up through the Wi-Fi module. The intelligent terminal can be connected with the single lens reflex controller service software through the Wi-Fi hotspot, and therefore the purposes that the intelligent terminal App controls the single lens reflex to set parameters of the single lens reflex in real time, preview and view in real time and remotely control shooting are achieved.
The Wi-Fi is used for transmitting data, so that the remote control range of the single lens reflex can be expanded, and the transmission of high-speed data between the single lens reflex and the intelligent terminal App is realized; the single lens reflex controller service software can be compatible with various single lens reflex, provides a uniform remote control environment of different single lens reflex for a user, and is more convenient for the user to use the single lens reflex to carry out remote control shooting; in addition, the single lens reflex camera controller can also trigger the single lens reflex camera at a high speed through mechanisms such as laser triggering, sound decibel triggering or flash triggering, and the like, so that the shooting mode of the single lens reflex camera is enriched.
The above-mentioned embodiments are intended to illustrate the objects, technical solutions and advantages of the present invention in further detail, and it should be understood that the above-mentioned embodiments are only exemplary embodiments of the present invention, and are not intended to limit the scope of the present invention, and any modifications, equivalent substitutions, improvements and the like made within the spirit and principle of the present invention should be included in the scope of the present invention.
Claims (7)
1. A single lens reflex controller capable of controlling a single lens reflex through an intelligent terminal (App), the controller comprising: the system comprises a Linux system module, a real-time system module, a wireless communication module, a sensor, a USB interface and an isolation trigger interface; the Linux system module is connected with the wireless communication module, the USB interface and the real-time system module, and the real-time system module is connected with the sensor and the isolation trigger interface; wherein,
the wireless communication module is in communication connection with the intelligent terminal and is used for receiving a control instruction sent by the intelligent terminal;
the USB interface is connected with the single lens reflex through a USB data line;
the Linux system module is used for processing the control instruction, generating a corresponding control signal, sending the control signal to the real-time system module, and sending the control signal to the single lens reflex camera through the USB interface so as to remotely control the single lens reflex camera;
the sensor is used for acquiring real-time sensing information and sending the real-time sensing information to the real-time system module;
and the real-time system module is used for setting a camera trigger parameter according to the control instruction, generating a trigger instruction according to the real-time sensing information, sending the trigger instruction to the single lens reflex through the isolation trigger interface, and controlling the single lens reflex to carry out corresponding trigger operation.
2. The controller of claim 1, wherein the Linux system module is further configured to obtain parameter data and framing data of the single lens reflex through the USB interface, and send the parameter data and the framing data of the single lens reflex to the smart terminal through the wireless communication module.
3. The controller of a single lens reflex camera that can be controlled by an intelligent terminal App according to claim 1, further comprising: and the power supply module is connected with the Linux system module, the real-time system module, the sensor, the USB interface and the isolation trigger interface and provides power supply by being connected with a lithium battery.
4. The single lens reflex controller capable of controlling a single lens reflex by an intelligent terminal (App) according to claim 1, wherein the wireless communication module comprises: Wi-Fi module, bluetooth module.
5. The single lens reflex controller capable of being controlled by the intelligent terminal App according to claim 1, wherein the sensor comprises: and the sound sensor is used for acquiring sound sensing information and sending the sound sensing information to the real-time system module.
6. The single lens reflex controller capable of being controlled by the intelligent terminal App according to claim 1, wherein the sensor comprises: and the laser sensor is used for acquiring laser sensing information and sending the laser sensing information to the real-time system module.
7. The single lens reflex controller capable of being controlled by the intelligent terminal App according to claim 1, wherein the sensor comprises: and the light sensor is used for acquiring light sensing information and sending the light sensing information to the real-time system module.
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| Application Number | Priority Date | Filing Date | Title |
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| CN201610204847.0A CN105847685A (en) | 2016-04-05 | 2016-04-05 | Single lens reflex controller capable of controlling single lens reflex through intelligent terminal APP |
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| CN201610204847.0A CN105847685A (en) | 2016-04-05 | 2016-04-05 | Single lens reflex controller capable of controlling single lens reflex through intelligent terminal APP |
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Cited By (1)
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