WO2015172103A1 - Commande centrale de camera modulaire - Google Patents

Commande centrale de camera modulaire Download PDF

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Publication number
WO2015172103A1
WO2015172103A1 PCT/US2015/030021 US2015030021W WO2015172103A1 WO 2015172103 A1 WO2015172103 A1 WO 2015172103A1 US 2015030021 W US2015030021 W US 2015030021W WO 2015172103 A1 WO2015172103 A1 WO 2015172103A1
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WO
WIPO (PCT)
Prior art keywords
camera
modular
external device
modular camera
digital video
Prior art date
Application number
PCT/US2015/030021
Other languages
English (en)
Inventor
Mihnea Calin Pacurariu
Andreas Von Sneidern
David Hoenig
Joseph Palmer
Original Assignee
Lyve Minds, Inc.
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Priority claimed from US14/273,366 external-priority patent/US20150195442A1/en
Application filed by Lyve Minds, Inc. filed Critical Lyve Minds, Inc.
Publication of WO2015172103A1 publication Critical patent/WO2015172103A1/fr

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Classifications

    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04NPICTORIAL COMMUNICATION, e.g. TELEVISION
    • H04N23/00Cameras or camera modules comprising electronic image sensors; Control thereof
    • H04N23/50Constructional details
    • H04N23/51Housings
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04NPICTORIAL COMMUNICATION, e.g. TELEVISION
    • H04N23/00Cameras or camera modules comprising electronic image sensors; Control thereof
    • H04N23/60Control of cameras or camera modules
    • H04N23/66Remote control of cameras or camera parts, e.g. by remote control devices

Definitions

  • the present invention relates generally to a control for a modular digital camera with a camera core which is configured to be used in a plurality of different camera configurations.
  • the stand-alone digital cameras currently available in the market include simple "point and shoot" cameras which include a wholly integrated device which offer no modularity and which consequently require a user to select a single camera which will be suitable for a variety of situations, including which lens, features, and the like will be most easily adapted to a variety of situations.
  • this forces consumers to find the best "over-all” digital camera, where the consumer sacrifices features and components that would be advantageous in some situations for the benefits of features and components that would be more commonly used.
  • Other digital cameras include those which allow a user to remove specific components of the camera, including a flash, filter or lens. Generally, these cameras are more expensive and bulky.
  • Digital cameras include a series of functional components such as lenses, optical filters, one or more electronic image sensor arrays, electronic circuits to capture, process and store images from the image sensor array, internal or external memory devices to store and transfer image files, power supplies and a display system to preview the captured images.
  • These components are typically integrated and interdependent, from each of an optical, electronics and physical perspective.
  • external lenses and power supplies may be attached to and removed from the camera, but the remaining components are typically permanently integrated into a main framework or housing without any practical ability to be removed and replaced.
  • due to the limited configurability associated with conventional cameras they are typically suitable for a limited range of applications and contexts. As a result, users who want to shoot in a variety of contexts and for a variety of applications often need to purchase multiple cameras to achieve desired results.
  • Embodiments disclosed herein include a method of controlling a modular camera using an external device.
  • the method includes receiving a command to capture a digital video and/or a digital image from the external device via a wireless
  • the modular camera may not include a user interface.
  • the digital video or digital image may be transferred to the external device using Wi-Fi communication between the modular camera and the external device.
  • the command to transfer the digital video or digital image may be received over a Bluetooth communication between the modular camera and external device.
  • the digital video and/or the digital image may be transferred to the external device using Wi-Fi communication between the modular camera and the external device.
  • the command to capture the digital video or digital image is received over a Bluetooth communication between the modular camera and external device.
  • the method may further include receiving a command to transfer the digital video and/or the digital image to the external device via the wireless communication. In some embodiments, the method may further include receiving a command to transfer the digital video and/or the digital image to the external device via the wireless communication, and wherein the command to transfer the digital video or digital image is received over a Bluetooth communication between the modular camera and external device.
  • the method may further include receiving an instruction to highlight a portion of the stored digital video or a digital image from the external device. In some embodiments, the method may further include turning on the Wi-Fi module response to receiving a command to capture the digital video and/or the digital image from the external device.
  • Some embodiments disclosed herein include modular camera comprising a camera configured to capture a digital video and/or a digital image; a processor configured to control the camera to initiate the capture of the digital video and/or the digital image and receive the digital video and/or the digital image from the camera; a memory connected to the processor for storing the digital video and/or the digital image; and a wireless communication module configured to receive commands from an external device and configured to transfer the digital video and/or the digital image from the modular camera to the external device.
  • the modular camera may not include a user interface.
  • the wireless communication module may include a Bluetooth module configured to receive a command from the external device to capture the digital video and/or the digital image.
  • the modular camera may not include a user interface.
  • the wireless communication module may include a Bluetooth module configured to receive a command to transfer the digital video and/or the digital image from the modular camera to the external device.
  • the wireless communication module may include a Wi-Fi module configured to transfer the digital video and/or the digital image from the modular camera to the external device.
  • the wireless communication module may include a Wi-Fi module configured to transfer the digital video and/or the digital image from the modular camera to the external device.
  • the communication module may include a Bluetooth module configured to receive a command from the external device to highlight a portion of the digital video and/or the digital image.
  • Some embodiments disclosed herein include a modular camera comprising a camera configured to capture a digital video and/or a digital image; a processor configured to control the camera to initiate the capture of the digital video and/or the digital image and receive the digital video and/or the digital image from the camera; a memory connected to the processor for storing the digital video and/or the digital image; a first wireless module configured to receive commands from an external device; and a second wireless module configured to transfer the digital video and/or the digital image from the modular camera to the external device.
  • the processor may be configured to receive a command from the external device to capture the digital video and/or the digital image via the first wireless module. In some embodiments, the processor may be configured to receive a command from the external device to transfer the digital video and/or the digital image via the first wireless module. In some embodiments, the processor may be configured to receive a command from the external device via the first wireless module to highlight a portion of the digital video and/or the digital image.
  • the processor may be configured to transfer the digital video and/or the digital image to the external device via the second wireless module.
  • the modular camera may not include a user interface.
  • Figure 1 illustrates a modular camera system and a modular camera core according to an embodiment of the invention
  • FIGS. 2A-2B illustrate an example of various components of the modular camera core according to embodiments of the claimed invention described herein;
  • Figure 3 is a block diagram illustrating various electrical components of the modular camera core and a corresponding modular camera expansion system according to embodiments described herein;
  • Figures 4A-4B are additional block diagrams illustrating various electrical components of the modular camera core and additional modular camera expansion system according to additional embodiments described herein;
  • Figures 5A-5B illustrate an example of various components of a modular camera expansion system according to embodiments described herein;
  • Figures 6A-6B illustrates an example of a connector for connecting the modular camera expansion system to a modular camera core according to embodiments described herein;
  • Figure 7 illustrates the assembly of the modular camera assembly according to an embodiment described herein
  • Figure 8 illustrates an assembled modular camera assembly according to an embodiment described herein
  • Figure 9 is a block diagram which illustrates the ability of the modular camera expansion system to be connected to and to control a plurality of modular cameras according to an alternative embodiment of the invention.
  • Figure 10 shows an illustrative computational system for performing functionality to facilitate implementation of embodiments described herein.
  • Figure 11 illustrates an example flowchart of a process for capturing digital video and/or a digital photo using a modular camera according to some embodiments described here.
  • Embodiments described herein relate generally to a modular digital camera with a camera core which is configured to be used in a plurality of different camera configurations.
  • the modular camera core may be controlled by an external device using various techniques.
  • commands to control the operation of the modular camera core may be received from the external device using a low power or light protocol such as, for example, Bluetooth.
  • digital video and/or digital images may be transferred from the modular camera using a Wi-Fi protocol.
  • commands may be received via one protocol (e.g., Bluetooth) and data may be transferred using another protocol (e.g., Wi- Fi).
  • a modular digital camera system 100 which includes a modular camera core 150, which is configured to be coupled with a plurality of different other modular camera products, including a plurality of different modular camera expansion systems 110, 120, and 130 so as to provide a user with a simple camera system which is capable of being specifically modified for a variety of uses.
  • the modular digital camera system 100 includes the modular camera core 150, which as described more fully below, is capable of being coupled to a variety of different modular camera products, including the plurality of different modular camera expansion systems 110, 120, and 130 described more fully below.
  • the modular camera core 150 is configured to couple with a modular pocket camera expansion system 110 which includes an assortment of features and controls which are designed to be useful in a variety of situations.
  • the modular camera core 150 and modular pocket camera expansion system 110 together form a pocket camera 160 which is designed to be a general purpose camera which may be carried by a user on a regular basis and which may be used in a variety of situations which a user may encounter on a regular basis.
  • the modular camera core 150 is also configured to couple with the modular active camera expansion system 120 which includes features and controls which are designed to be useful in an athletic or more active setting, such as while engaging in a sport or other recreational activity.
  • the modular camera core 150 and the modular active camera expansion system 120 together form an active camera 170 which is specifically designed to have the various features that would be useful when capturing photograph, video, digital images and/or audio data when engaging in a recreational activity.
  • the modular camera core 150 is also configured to couple with the modular cable camera expansion system 130 so as to form a cable camera configuration 180 which is designed to connect to a computer or other electronic device capable of communicating with the modular camera core 150 via a cable.
  • each of the various modular camera expansion systems 110, 120, and 130 have differing features and aspects, and one advantage of the embodiments described herein is the ability for a user to select the modular camera expansion system 110, 120, or 130 which best serves the immediate needs of the user.
  • the pocket camera 160 may be lighter than the active camera 170, which may be advantageous for every-day use or in situations where simplicity and portability are desired.
  • the active camera 170 has, for example, a larger battery life, a noise-cancelling microphone, and the ability to be coupled to a variety of mounts, including a dash mount, a bike mount, and/or a suction mount.
  • the active camera 170 has additional features which are not available in the pocket camera 160.
  • the cable camera configuration 180 is specifically designed to connect the modular camera core 150 to a computer or other electronic device so as to enable the transfer of pictures, audio data and/or video data, perform updates to the software operating on the modular camera core 150 or the like. Because the designated purpose of the cable camera configuration 180 is to facilitate the transfer of data to and from the modular camera core 150, the cable camera configuration 180 may have limited camera functionality. Conversely, because there is the designated modular cable camera expansion system 130, there is no need to provide a connection port in either the pocket camera 160 or the active camera 170. As may be understood, this provides an advantage since it allows the pocket camera 160 and the active camera 170 to have a simpler design.
  • Figures 2A-2B illustrate an example of the modular camera core 150 that may be used in association with the embodiments described herein.
  • the modular camera core 150 includes, for example, a camera lens 210 which may be used in capturing digital video and/or digital images and a lens holder 215 which holds the camera lens 210 in place (shown in Figure 2B).
  • the modular camera core 150 may also include a GPS antenna 220 which may be used in association with a space-based satellite navigation system that provides location and time information when the GPS antenna 220 communicates with one or more GPS satellites.
  • the modular camera core 150 may also include a Bluetooth and/or Wi-Fi antenna 230 which, as may be described more fully below, may be used to communicate with various other devices, including an external computing device, controls on the various modular camera expansion systems 110, 120, and 130, and the like.
  • the modular camera core 150 also includes a pin receiver 240, which may be used to provide a physical connection with components of the various modular camera expansion systems 110, 120, and 130.
  • the modular camera core 150 also includes a printed circuit board assembly (PCBA) 290 which mechanically supports and electrically connects electronic components using conductive tracks, pads and other features etched from copper sheets laminated onto a non-conductive substrate. Examples of components which may comprise a portion of the PCBA 290 are described in more detail with respect to Figure 3.
  • the modular camera core 150 may also include a heat spreader 250, a PCBA shielding 260, and a camera flex connection 280 which electrically connects the camera lens 210 to the PCBA 290.
  • a casing 270 houses the various components of the modular camera core 150 and may be formed of a material or a combination of materials so as to provide stability and security for the various components housed therein.
  • the materials used for the casing may include a combination of plastics, metals, or other materials currently known in the art.
  • Figure 3 is a block diagram which illustrates an example of the various electrical components of the modular camera core 150 which may be integrated into or used in association with the PCBA 290.
  • Figure 3 also illustrates an example of the various electrical components of a modular camera expansion system 110 or 120 which may be integrated into or used in association with a PCBA 350 of the modular camera expansion system 110 or 120, which is also illustrated in Figures 5A-5B and described more fully below.
  • Figure 4A is a block diagram which illustrates the various electrical components of the modular camera core 150 when used in association with an alternative embodiment of the modular cable camera expansion system 450 which illustrates a vast array of different features which could be used in association with the modular camera core.
  • Figure 4B is a block diagram which illustrates the various electrical components of the modular camera core 150 when used in association with the modular cable camera expansion system 130.
  • the PCBA 290 includes a CPU 316 or other microprocessor or
  • the CPU 316 is connected to a variety of different components and controls the various components.
  • the CPU 316 communicates with the camera lens 210 via a 4-lane MIPI or other form of interface and may also be connected to a motion processor 314 which may perform sub-processing routines, including powering components, such as an accelerometer, compass, and/or gyroscope and performing processing based on the data collected from those components to provide 9-axis motion processing.
  • the CPU 316 may include a camera module, not shown, which is specifically designed to control the exchange of data between the CPU 316 and the camera lens 210.
  • the PCBA 290 is also connected to a microphone 310 via an audio CODEC 312 which may be used to configure digital audio data captured by the microphone 310 according to a given audio file format or streaming media audio format. This digital audio data is then sent to an audio module 332 of the CPU 316 for compressing and decompressing, as necessary.
  • the CPU 316 is also connected to a GPS antenna 304 via a GPS module 308, which may be used to perform telemetry or other location or positioning processing. The GPS data may then be sent to a GPS module of the CPU 316.
  • the CPU 316 is also connected a Wi-Fi and/or Bluetooth antenna 302 via a Wi-Fi and Bluetooth module 306.
  • the CPU 316 may also include a MFi module 318 so as to enable the CPU 316 and the modular camera core 150 to connect with Apple® brand products.
  • the data from the MFi module 318, and the Bluetooth and Wi-Fi data from the Wi-Fi and Bluetooth module 306 may be sent to a Bluetooth and Wi-Fi module 306 of the CPU 316 for further processing and, in some instances as described more fully below, to initiate control operations.
  • the processing may be performed by modules within the CPU 316.
  • the CPU 316 may also include a Universal Serial Bus (USB) port 338 for connecting to an external device and/or the PCBA 350 of the modular camera expansion system and a Universal Asynchronous Receiver/Transmitter (UART) 340 which translates data between parallel and serial forms.
  • USB Universal Serial Bus
  • UART Universal Asynchronous Receiver/Transmitter
  • the USB port may also include a micro USB port, mini USB port or other connection means currently known in the art.
  • the CPU may also include dual USB ports, such as 338a and 338b and/or a multiplexer 395 shown in Figure 4A.
  • the modular camera core 150 may also include an LED light 320 which is controlled by a Power Management Unit (PMU) 322.
  • the PMU 322 may be powered by a battery 414 stored in a modular camera expansion system 110 or 120.
  • the modular camera core 150 may also include various types of memory, including ROM, RAM 324, and flash memory 326 which may be used to store various types of data including stored video and picture captured by the system. Further, the modular camera core may include other components such as a JTAG header 330 for testing the PCBA 290 and a UART header 328.
  • the modular camera core 150 includes various features including a camera 210 which is capable of capturing digital video, audio data, digital audio data, metadata, digital images, and/or photographs.
  • the digital video may be captured in a variety of resolutions, including 1080p60, 720pl20, 480p240 format, and in 8-13MP stills, although it should be understood that a variety of resolutions may be used in association with the embodiments described herein.
  • the camera 210 includes a fixed focus lens although the embodiments described herein may be adapted to include variable focus lens and other optical components.
  • the camera 210 may also include a temporary flash which may be powered by the battery 414 of the corresponding modular camera expansion system 110 or 120.
  • the modular camera core 150 is designed without a separate power supply and without an integrated user interface. Rather, these elements are designed to be incorporated in the modular camera expansion system 110, 120, or 130, and the modular camera core 150 is designed to be controlled remotely by an external computing device which is capable of communicating with the modular camera core 150 via the Bluetooth or Wi-Fi connection.
  • the Bluetooth connection may be used to control the features of the modular camera core 150 while the Wi-Fi connection is used to transfer data between the memory of the modular camera core 150 and the external device.
  • one advantage of enabling external control is that the camera, such as when incorporated into the pocket camera 160 or the active camera 170 may be mounted by a user who then can use his or her cellular phone or other device capable of communicating with the modular camera core 150 of the pocket camera 160 or the active camera 170 to control the device. In some instances, this may include using the external device as a viewfinder, which is capable of receiving streaming data from the modular camera core 150 to determine what the camera is currently viewing. As may be understood, such a configuration would enable a photographer to use an external device to compose, and in many cases to focus, the picture.
  • the remote control would also be advantageous in situations where the photographer wishes to be positioned separate from the camera because he or she is unable to fit in the space where the camera is positioned or in other instances where the safety of the photographer requires the photographer to be located remotely from the camera.
  • the external control may also be used to delete data stored in the memory of the modular camera core 150 or to transfer data from the memory from the modular camera core 150 or between different types of memory within the modular camera core 150 and the modular camera expansion system 110 or 120.
  • the external control may also add metadata to the digital video and/or digital images including adding metadata corresponding to information collected from other components of the modular camera core 150 including GPS information from the GPS module 308.
  • Metadata may include, for example, metadata described in copending patent application 14/143,335 entitled “Video Metadata,” filed December 30, 2013.
  • the external control may also be used to transfer the digital video and/or the digital image(s) to a user network via the Wi-Fi connection. In some instances, this may include transferring the digital video and/or the digital image(s) to a storage network, such as the storage network described in copending patent application 14/137,654 entitled “Storage Network Data Allocation,” filed December 20, 2013, which is herein incorporated by reference in its entirety.
  • the external control may be used to perform basic camera functions, such as setting flash settings, initiating the capture of a photo and the starting or stopping of a video recording. In addition or in the alternative, some of these features may be initiated using a button on the corresponding modular camera expansion systems 110 or 120. Further, the external control may also be used to mark video highlights. Additionally, embodiments described herein may also perform pass-through control of external devices, such as motor heads, lights, etc., which are connected to or in communication with the modular cameras 160 or 170. In addition to controlling operations of the modular camera core 150, the modular camera expansion systems 110, 120, and 130 may also be controlled remotely via the Bluetooth or Wi-Fi connection.
  • Figures 3 - 6 are exemplary figures which illustrate the components of modular camera expansion systems 110, 120, and 130. More specifically, as described briefly above, Figure 3 is a block diagram illustrating the various components of the PCBA 290 of the modular camera core 150 and some exemplary components of the PBCA 350 of the modular pocket camera expansion system 110 or the modular active camera expansion system 120.
  • Figure 4A is a block diagram which illustrates the various electrical components of the modular camera core 150 when used in association with an alternative embodiment of the modular cable camera expansion system 450 which illustrates vast array of different features which could be used in association with the modular camera core 150.
  • Figure 4B is a block diagram illustrating the various components of the CPU 316 of the modular camera core 150 and some exemplary components of the PCBA 350 of the connector modular cable camera expansion system 130.
  • Figures 5A-5B illustrate various components of an exemplary modular pocket camera expansion system 110 or the modular active camera expansion system 120 and Figure 6 illustrates various components of an exemplary connector which is used to provide a physical and electronic connection between the modular camera expansion systems 110, 120, and 130 with the modular camera core 150.
  • FIG 3 which illustrates exemplary components of the PCBA 350 which may comprise a component of either the modular pocket camera expansion system 110 or the modular active camera expansion system 120.
  • the modular pocket camera expansion system 110 and the modular active camera expansion system 120 is the size and capacity of the battery included in the respective modular expansion systems 110 and 120 and many components of the two modular camera expansion systems 110 and 120 are similar.
  • the modular camera expansion system shown in Figure 3 and Figures 5A-5B is shown as a generic modular camera expansion system 500 which includes exemplary components which may be included or excluded from the different modular camera expansion systems 110 and 120 depending on the specific design of the individual modular camera expansion system 110 or 120.
  • the generic modular camera expansion system 500 of Figures 5A-5B includes a video record slider switch 510 which may be used to initiate the capture of a digital video data.
  • the video record slider switch 510 is connected to a video record slider switch flex 518, which is in turn connected to the modular camera expansion system PCBA 520 which operates to control the camera lens 210 and the motion processor 314 to initiate the capture of data.
  • the video record slider switch flex 518 may be eliminated.
  • sliding the video record slider switch 510 may initiate the capture of the digital video data and a second sliding operation of the video record slider switch 510 may terminate the video capture.
  • the video record slider switch 510 may be configured to capture the digital video for the duration of the period at which the slider switch is held.
  • the video record slider switch 510 may also be made out of different materials, depending on the configuration of the modular camera expansion system 110 or 120.
  • the video record slider switch 510 may be made from a polished metal material to provide a sleek overall look whereas in the modular active camera expansion system 120, the video record slider switch 510 is made from a durable plastic material that is specifically designed to be used when an operator is wearing gloves or other materials typically worn during a recreational activity.
  • the generic modular camera expansion system 500 of Figures 5A-5B also includes a photo capture button 505 which may be used to initiate the capture of a digital image or images.
  • the generic modular camera expansion system 500 may also include a battery 514 and battery protection circuitry 512.
  • the battery 514 of the modular active camera expansion system 120 is designed to have greater battery life than the battery 514 of the modular pocket camera expansion system 110.
  • the battery of the modular pocket camera expansion system 110 may be 45-60 minutes whereas the battery life of the battery 514 of the modular active camera expansion system 120 may be two or more hours.
  • the battery 514 of the modular active camera expansion system 120 may be designed to be replaceable.
  • the generic modular camera expansion system 400 of Figures 5A-5B also includes a pin connection 522 for connecting to the corresponding pin connection of the modular camera core 150.
  • the pin connection 522 is a proprietary 30-pin connection, although it should be understood that a plurality of different connection methods may be used without departing from the scope and meaning of the claimed invention.
  • Figure 3 illustrates the various electrical components of the generic modular camera expansion system 500.
  • many elements shown may be selectively included in the various modular camera expansion systems 110 or 120.
  • an external noise-cancelling microphone 375 and an accompanying audio CODEC 380 may be included in the modular active camera expansion system 120, but excluded from the modular pocket camera expansion system 110 and the modular cable camera expansion system 130.
  • the micro USB port may be included in the modular pocket camera expansion system 110 and the modular active camera expansion system 120, but excluded from the modular cable camera expansion system 130, shown in Figure 4B since the modular cable camera expansion system 130 may be configured to integrate the micro USB port or utilize an additional type of cable for data transfer.
  • the modular pocket camera expansion system 110 and the modular active camera expansion system 120 include the battery 414
  • the modular cable camera expansion system 130 shown in Figure 4B does not include the battery 414 or an accompanying fuel gauge 352 which is used to determine how much battery life remains in the battery 414.
  • the PCBA 350 of the generic modular camera expansion system 500 includes a microcontroller 360 for controlling the various buttons and sensors of the generic modular camera expansion system. Further, the PCBA 350 may also include additional sensors 365, including a detector for detecting the external noise of the area so as to initiate the noise cancelling features of the external microphone 375. As is described above, the generic modular camera expansion system 500 may be connected to the video record slider switch 510 (shown as video switch 390 in Figure 3) and a photo capture button 505 (shown as photo switch 355 in Figure 3). In another embodiment, the generic modular camera expansion system may also include a connect button (shown as connect button 345 in Figure 3) which would initiate the transfer of video and/or photo data to an external device.
  • a connect button shown as connect button 345 in Figure 3
  • Figure 4A illustrates the various electrical components of the modular camera core 150 when used in association with an alternative embodiment of a modular camera expansion system 450 which illustrates vast array of different features which could be used in association with the modular camera core 150.
  • a modular camera expansion system 450 which is included to show the modularity available with the variety of modular cable camera expansion systems which may be individually selected in order to assemble a modular camera with the desired features.
  • the modular expansion system 450 includes a vast array of components and is nick-named "Frankie" because it represents a vast assembly of available features.
  • the "Frankie” modular camera expansion system 450 also includes a variety of features, including a battery 406, which is connected to a DC jack 402 which may be charged externally via an external charger 402.
  • the "Frankie” modular camera expansion system 450 also includes a multiplexer 408, a Bluetooth pair 422, a five -way switch 424 which is configured to be pushed in 4 directions, or straight down, a OLED matrix 426 for driving a display device, a buzzer 428, or other piezoelectric element which may provide a vibration as a notification to a user.
  • the multiplexer 408 may be connected to a hub 410 which in turn is connected to a USB storage port 412 which is configured to receive a USB memory stick, a USB video port 430 which may be connected to a HDMI port 418 for driving an external display or a display 416 which is included in the "Frankie" modular camera expansion system 450.
  • a port may be provided for external flash memory, and as is shown in Figure 9, a modular camera expansion system 950 with its accompanying
  • microcontroller or CPU 960 may be configured to control more than one modular camera core 990a and 990b.
  • the modular expansion system 950 may also include a battery 914 which powers a PMU 322 of each of the modular camera cores 990a and 990b.
  • the battery 914 may be associated with a fuel gauge 952.
  • the modular expansion system 950 may include the variety of components described above, including a microcontroller 960, an external noise-cancelling microphone 975 and an accompanying audio CODEC 980, a micro USB port 970, additional sensors 965, including a detector for detecting the external noise of the area so as to initiate the noise cancelling features of the external microphone 3975.
  • the modular camera expansion system 950 may also include a reset button 985, a connect 945 button for initiating a transfer of data via the USB port 970, a video button 960 for initiating the capture of video data from either or both of the camera lenses 210 of the modular camera cores 990a and 990b, and a photo capture button 965 for initiating the capture of photo data from either or both of the modular camera cores 990a and 990b.
  • Figure 4B illustrates exemplary components of the modular cable camera expansion system 130 which merely includes a pass-through connection between an external devices 464 via a USB connector 462 connected to the modular cable camera expansion system 130 via wiring 466.
  • the modular cable camera expansion system 130 is specially designed to facilitate in the transfer of data between the modular camera core 150 and an external device 464.
  • the modular cable camera expansion system 130 does not include a micro controller or other electrical components.
  • the modular cable camera expansion system 130 includes a USB port 455 or other communication interface commonly known in the art.
  • the USB connection is used for connection, communication, and power supply between the external device 464 and the modular camera core 150. Because the USB port 455 enables the external device 460 to supply power to the modular camera core 150 via the CPU 316, the modular cable camera expansion system 130 does not include the battery 414.
  • any of the buttons or sliders on the various modular camera expansion systems 110, 120, and 130 may be also used to reset or power on or off the pocket camera 160, active camera 170, or cable camera configuration 180.
  • holding down a photo capture button 405 or a connection button for a predetermined period of time or some combination of pressing the photo capture button 405 and sliding the video record slider switch 510 may be used to imitate such an operation and a reset/power detector 385 may be used to detect such an operation.
  • the modular camera expansion systems 110, 120, and/or 130 may include connections for attaching the modular camera expansion systems 110 and 120 to a lanyard, clip, or a key holder, or as described above to a variety of different mounts.
  • the various modular camera expansion systems 110, 120, and 130 can be specially designed for a variety of camera applications.
  • the modular camera expansion system 110 or 120 may include a flexible clip mount which enable the pocket camera 160 or the active camera 170 to be mounted to a piece of clothing while allowing the camera lens 210 to point forward.
  • the modular camera core 150 of any of the modular camera expansion systems 110, 120, and 130 are each designed to be waterproof or water resistant.
  • Figures 6A and 6B illustrate the pin connection between the modular camera expansion systems 110, 120 and 130 and the modular camera core 150. More specifically, as shown in Figure 6A a pin receiver 240 of the modular camera core 150 is adapted to receive a pin connector 622 disposed on each of the modular camera expansion systems 110, 120, and 130. As may be understood by those of skill in the art, the pin receiver 240 and the pin connector 622 may be specifically adapted to provide a mechanical and electrical connection and communication between the modular camera core 150 and the modular camera expansion systems 110, 120, and 130. In one embodiment, the pin connector 622 is a proprietary 30 pins although it should be understood that alternate embodiments or configurations may be used without departing from the meaning or scope of the claims.
  • Figure 8 illustrates the process wherein the modular camera core 150 is coupled to modular pocket camera expansion system 110 to form the assembled pocket camera 160.
  • the modular pocket camera core 150 slides into a housing of the modular camera expansion system 110 and the two components are joined mechanically and electrically by their respective pin connections 240 and 522.
  • the modular pocket camera expansion system 110 may include a button or other mechanism for intimating the release of the modular camera core 150 from the modular pocket camera expansion system 110.
  • FIG. 7 illustrates the various aspects of the assembled pocket camera 160 according to one embodiment.
  • the assembled pocket camera 160 includes the video record slide button and a photo capture button 720 which are integrated in this embodiment.
  • a tapered front of the assembled pocket includes a metal bezel and a metal band 710 is formed at a rear of the assembled pocket camera 160.
  • LED indicators 740 on the top of the assembly indicate that the camera is powered on and/or that a recording is in progress or that a data transfer is in process.
  • a crystal cover 750 is placed over the front of the camera lens 210 so as to provide clear pictures and video while providing durability.
  • the modular camera system described herein provides a camera which may be easily adapted for a variety of different purposes.
  • specific modular camera expansion systems 110 and 120 may be selected which provide differing user interfaces, physical attributes, electrical components, and battery life that are better suited for a variety of situations.
  • the additional modular cable camera expansion system 130 may be used that is specifically designed for data transfer.
  • a user may purchase a variety of different modular camera expansion systems 110, 120, and 130 with the modular camera core 150.
  • the modular camera core 150 may be sold together with the three separate modular camera expansion systems 110, 120, and 130.
  • the modular camera core 150 may be sold with only one modular camera expansion system 110, 120, or 130, with the other modular camera expansion systems being sold separately.
  • the system described herein offers a degree of personalization and adaptability which is not currently known in the art.
  • embodiments described herein allow for further modular camera expansion systems to be developed and offered for sale which include new features or components, which would enable a user to upgrade or further personalize his or her modular camera without having to purchase an entirely new camera system.
  • the embodiments described herein provide advantages not currently known in the art.
  • FIG. 11 illustrates an example flowchart of a process 1100 for capturing digital video and/or a digital photo using a modular camera according to some embodiments described here.
  • Process 1100 may be executed by computational system 1000 and/or by modular camera core 150.
  • a command can be received at the modular camera from an external device such as, for example, modular camera expansion system 110, 120, and/or 130 or any other external device.
  • the external device for example, may be physically and/or removably coupled with the modular camera.
  • the command may instruct the modular camera to capture a digital video and/or a digital image.
  • the command for example, may be received from the external device using Bluetooth, Bluetooth light, and/or Zigbee communication protocols.
  • the modular camera may capture the digital video and/or the digital image using the camera of the modular camera core.
  • the digital video and/or the digital image may be saved in memory at modular camera core.
  • a command may be received from the external device to stop capturing digital video.
  • the modular camera may receive another command (e.g., a second command) from the external device to transfer the digital video and/or the digital video to the external device.
  • the command may be received using Bluetooth, Bluetooth light, and/or Zigbee communication protocols.
  • the command may be initiated internally with the controller at the modular camera and may not originate from the external device.
  • the command may be initiated in response to modular camera being in proximity of an external device or when Wi-Fi capabilities are available to transfer the digital video and/or the digital image.
  • the modular camera may turn on the Wi-Fi module and make a connection with the external device. Prior to this, the Wi-Fi module may be turned off to save battery power.
  • the digital video and/or the digital image may be transferred from the modular camera to the external device using a wireless communication protocol such as, for example, Wi-Fi protocol.
  • a wireless communication protocol such as, for example, Wi-Fi protocol.
  • the external device and the modular camera may communicate through a Wi-Fi network communicating, for example, through a Wi-Fi router.
  • the external device and the modular camera may communicate with each other using ad hoc Wi-Fi transmissions or using Wi-Fi Direct protocol developed by the Wi-Fi Alliance.
  • the digital video and/or the digital image may be deleted from the modular camera after it has been transferred to the external device. In some embodiments, the digital video and/or the digital image may be deleted from the modular camera after confirmation has been received from the external device that the digital video and/or the digital image has been received or after receiving a command from the external device to delete the digital video and/or the digital image. In some embodiments, after the digital video (and/or the digital image) has been transferred to the external device, the Wi-Fi module at the modular camera may be turned off to save battery power.
  • commands may be received from the external device by the camera core. These commands, for example, may be received through the Bluetooth module (or a zigbee module). These commands may include, for example, a pan command, a zoom command, a pause command, a video delete command, an image delete command, a record command, a command to adjust the F-stop of the camera core, a focus command, a field of view command, an image sensor clean command, a streaming command, etc.
  • a computational system 1000 (or processing unit) illustrated in Figure 10 can be used to perform any of the embodiments described herein.
  • the computational system 1000 can be used alone or in conjunction with other components to execute all or parts of the processes described above.
  • the computational system 1000 can be used to perform any calculation, solve any equation, perform any identification, and/or make any determination described here.
  • the computational system 1000 includes hardware elements that can be electrically coupled via a bus 1005 (or may otherwise be in communication, as appropriate).
  • the hardware elements can include one or more processors 1010, including, without limitation, one or more general purpose processors and/or one or more special purpose processors (such as digital signal processing chips, graphics acceleration chips, and/or the like); one or more input devices 1015, which can include, without limitation, a mouse, a keyboard, and/or the like; and one or more output devices 1020, which can include, without limitation, a display device, a printer, and/or the like.
  • processors 1010 including, without limitation, one or more general purpose processors and/or one or more special purpose processors (such as digital signal processing chips, graphics acceleration chips, and/or the like)
  • input devices 1015 which can include, without limitation, a mouse, a keyboard, and/or the like
  • output devices 1020 which can include, without limitation, a display device, a printer, and/or the like.
  • the computational system 1000 may further include (and/or be in communication with) one or more storage devices 1025, which can include, without limitation, local and/or network-accessible storage and/or can include, without limitation, a disk drive, a drive array, an optical storage device, a solid-state storage device, such as random access memory (“RAM”) and/or read-only memory (“ROM”), which can be programmable, flash-updateable, and/or the like.
  • storage devices 1025 can include, without limitation, local and/or network-accessible storage and/or can include, without limitation, a disk drive, a drive array, an optical storage device, a solid-state storage device, such as random access memory (“RAM”) and/or read-only memory (“ROM”), which can be programmable, flash-updateable, and/or the like.
  • RAM random access memory
  • ROM read-only memory
  • the computational system 1000 might also include a communications subsystem 1030, which can include, without limitation, a modem, a network card (wireless or wired), an infrared communication device, a wireless communication device, and/or chipset (such as a Bluetooth device, an 802.6 device, a Wi-Fi device, a WiMax device, cellular communication facilities, etc.), and/or the like.
  • the communications subsystem 1030 may permit data to be exchanged with a network (such as the network described below, to name one example) and/or any other devices described herein.
  • the computational system 1000 will further include a working memory 1035, which can include a RAM or ROM device, as described above.
  • the computational system 1000 also can include software elements, shown as being currently located within the working memory 1035, including an operating system 1040 and/or other code, such as one or more application programs 1045, which may include computer programs of the invention, and/or may be designed to implement methods of the invention and/or configure systems of the invention, as described herein.
  • an operating system 1040 and/or other code such as one or more application programs 1045, which may include computer programs of the invention, and/or may be designed to implement methods of the invention and/or configure systems of the invention, as described herein.
  • application programs 1045 which may include computer programs of the invention, and/or may be designed to implement methods of the invention and/or configure systems of the invention, as described herein.
  • one or more procedures described with respect to the method(s) discussed above might be implemented as code and/or instructions executable by a computer (and/or a processor within a computer).
  • a set of these instructions and/or codes might be stored on a computer-readable storage medium, such as the storage device(s) 1025
  • the storage medium might be incorporated within the computational system 1000 or in communication with the computational system 1000.
  • the storage medium might be separate from the computational system 1000 (e.g., a removable medium, such as a compact disc, etc.), and/or provided in an installation package, such that the storage medium can be used to program a general purpose computer with the instructions/code stored thereon.
  • These instructions might take the form of executable code, which is executable by the computational system 1000 and/or might take the form of source and/or installable code, which, upon compilation and/or installation on the computational system 1000 (e.g., using any of a variety of generally available compilers, installation programs, compression/decompression utilities, etc.), then takes the form of executable code.
  • processing refers to actions or processes of a computing device, such as one or more computers or a similar electronic computing device or devices, that manipulate or transform data represented as physical, electronic, or magnetic quantities within memories, registers, or other information storage devices, transmission devices, or display devices of the computing platform.
  • a computing device can include any suitable arrangement of components that provides a result conditioned on one or more inputs.
  • Suitable computing devices include multipurpose microprocessor-based computer systems accessing stored software that programs or configures the computing system from a general purpose computing apparatus to a specialized computing apparatus implementing one or more embodiments of the present subject matter. Any suitable programming, scripting, or other type of language or combinations of languages may be used to implement the teachings contained herein in software to be used in programming or configuring a computing device.
  • Embodiments of the methods disclosed herein may be performed in the operation of such computing devices.
  • the order of the blocks presented in the examples above can be varied— for example, blocks can be re -ordered, combined, and/or broken into sub-blocks. Certain blocks or processes can be performed in parallel.
  • the use of "adapted to” or “configured to” herein is meant as open and inclusive language that does not foreclose devices adapted to or configured to perform additional tasks or steps. Additionally, the use of "based on” is meant to be open and inclusive, in that a process, step, calculation, or other action "based on” one or more recited conditions or values may, in practice, be based on additional conditions or values beyond those recited. Headings, lists, and numbering included herein are for ease of explanation only and are not meant to be limiting.

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  • Engineering & Computer Science (AREA)
  • Multimedia (AREA)
  • Signal Processing (AREA)
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Abstract

La présente invention concerne un procédé de commande d'une caméra modulaire à l'aide d'un dispositif externe, le procédé comprenant les étapes suivantes: la réception d'une commande pour capturer une vidéo numérique et/ou une image numérique en provenance du dispositif externe par l'intermédiaire d'une communication sans fil, la capture de la vidéo numérique et/ou de l'image numérique selon la commande provenant du dispositif externe, le stockage de la vidéo numérique et/ou de l'image numérique dans une mémoire, la réception d'une commande pour le transfert de la vidéo numérique et/ou de l'image numérique vers le dispositif externe par l'intermédiaire de la communication sans fil, et le transfert de la vidéo numérique et/ou de l'image numérique vers le dispositif externe par l'intermédiaire de la communication sans fil.
PCT/US2015/030021 2014-05-08 2015-05-08 Commande centrale de camera modulaire WO2015172103A1 (fr)

Applications Claiming Priority (2)

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US14/273,366 US20150195442A1 (en) 2014-01-03 2014-05-08 Modular camera core control
US14/273,366 2014-05-08

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