JP2014036341A - Data recording system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a data recording system in which record times are easily matched when combined data is made of data recorded by a plurality of data recording devices.SOLUTION: A data recording system according to the invention comprises a plurality of data recording devices 10 and 20, the first data recording device 10 in the system includes a first transmission unit 17 for transmitting a first signal, and the second data recording device 20 includes a second reception unit 24 for receiving the first signal transmitted by the first transmission unit and a second transmission unit for transmitting a second signal after the first signal is received. The first data recording device further includes a first reception unit 17 for receiving the second signal transmitted by the second transmission unit, and the first transmission unit transmits a third signal after the second signal is received. The second data recording device obtains a delay time td required for communication between the second data recording device and the first data recording device from time difference between the reception time of the third signal and the transmission time of the second signal, after the third signal is received.

Description

  The present invention relates to a data recording system.

  In recent years, digital cameras that can shoot high-quality movies have been put on the market. However, it is difficult to install a high-performance recording function such as surround sound in a digital camera in terms of space and cost. For this reason, there is also a technique for recording voice by a recording device different from the imaging device. Conventionally, in such a device, data of predetermined frequency components of the recorded voice data and the voice data by the imaging device are used. The comparison between extraction and elimination eliminates the difference between video and audio (see Patent Document 1).

JP 2010-171626 A

  However, since the above prior art does not strictly match the timing of the start of shooting by the imaging device and the start of recording by the recording device, it is necessary to separate and analyze audio data. For this reason, there exists a problem that a process becomes complicated.

  An object of the present invention is to provide a data recording system that can easily match recording times when creating composite data from data recorded by a plurality of data recording devices.

  The present invention solves the above problems by the following means. In addition, in order to make an understanding easy, although the code | symbol corresponding to embodiment of this invention is attached | subjected and demonstrated, it is not limited to this.

The invention according to claim 1 includes a plurality of data recording devices (10, 20), and the first data recording device (10) of the plurality of data recording devices (10, 20) transmits a first signal. The second data recording device (20) of the plurality of data recording devices (10, 20) includes a first transmission unit (17) that transmits the first data transmitted from the first transmission unit (17). A second receiver (24) for receiving one signal and a second transmitter (24) for transmitting a second signal after receiving the first signal, the first data recording device (10) ) Further includes a first receiver (17) that receives the second signal transmitted from the second transmitter (24), and the first transmitter (17) receives the second signal. Then, a third signal is transmitted, and the second data recording device (20) is connected to the second receiving unit (24). After receiving the third signal transmitted from the first transmission unit (17), the second data recording device ((2) is obtained from the time difference between the reception time of the third signal and the transmission time of the second signal. 20) and a data recording system (10, 20) for obtaining a delay time (td) required for communication between the first data recording device (10).
The invention according to claim 2 is the data recording system (10, 20) according to claim 1, wherein there are a plurality of the second data recording devices (20), each having individual identification information, The second transmission unit (24) transmits the individual identification information together with the second signal from the second transmission unit (24), and the first data recording device (10) includes the second transmission unit (24). When transmitting the third signal after receiving the second signal and the individual identification information transmitted from the third signal, the third signal is associated with the individual identification information and the third signal is recorded in the two data records. The second data recording device (20) recognizes the third signal associated with its own individual identification information among the transmitted third signal. Recording system (10, 20).
The invention according to claim 3 is the data recording system (10, 20) according to claim 1 or 2, wherein the second data recording device (20) calculates the delay time (td). The data recording system (10, 20) is characterized in that data recording is started before receiving a data recording start signal transmitted from the first data recording device (10).
A fourth aspect of the present invention is the data recording system (10, 20) according to the third aspect, wherein the second data recording device (20) is configured to store the data before the data recording start signal is received. The data recording system (10, 20) is characterized in that the data before the delay time (td) is discarded.
A fifth aspect of the present invention is the data recording system (10, 20) according to any one of the first to fourth aspects, wherein the second data recording device (20) includes the first data recording system. After receiving the data recording end signal from the device (10) and finishing the data recording, the data from the time before the delay time (td) before the end time to the end time is discarded. The data recording system (10, 20).
A sixth aspect of the present invention is the data recording system (10, 20) according to any one of the first to fifth aspects, wherein the second data recording device (20) includes the second data recording system. The second data recorded by the device (20) can be output, and the first data recording device (10) can input the second data, and the input second data and the first data recording A data recording system (10, 20) characterized in that the first data recorded by the device (10) can be synthesized.
The invention according to claim 7 is the data recording system (10, 20) according to any one of claims 1 to 6, wherein the first data recorded by the first data recording device (10) is provided. And the second data recorded by the second data recording device (20) can be output, and the output first data and second data can be input, and the first data and the second data can be input. A data recording system (10, 20) characterized by comprising a combining device capable of combining two data.
The invention according to claim 8 is the data recording system (10, 20) according to any one of claims 1 to 7, wherein the first data recording device (10) is an imaging device, The second data recording device (20) is a data recording system (10, 20) characterized by being a recording device.
Note that the configuration described with reference numerals may be modified as appropriate, and at least a part of the configuration may be replaced with another component.

  ADVANTAGE OF THE INVENTION According to this invention, when producing | generating synthetic data from the data recorded with the several data recording device, the data recording system which can match recording time easily can be provided.

It is a conceptual diagram which shows the moving image audio | voice recording system to which embodiment of this invention is applied. It is a block block diagram of the camera and external recording device which comprise a moving image audio recording system. It is the time chart which represented in time series the communication between a camera and an external recording device, the video recording in a camera, and the recording in an external recording device. It is a flowchart of the recording synchronous signal transmission control by the control part of a camera, and imaging | photography control. 5 is a flowchart of recording synchronization control and recording control by a control unit of an external recording device.

Embodiments of the present invention will be described below with reference to the drawings.
FIG. 1 is a conceptual diagram showing a moving image audio recording system to which an embodiment of the present invention is applied. FIG. 2 is a block configuration diagram of the camera 10 and the external recording device 20 constituting the moving image / audio recording system.

The moving image / sound recording system shown in FIG. 1 includes a camera 10 capable of capturing a moving image and a plurality (two) of external recording devices 20 disposed close to the subject 1.
The camera 10 captures a moving image of the subject 1, and the external recording device 20 records the sound of the subject 1. The camera 10 and the external recording device 20 can communicate with each other, and the external recording device 20 performs recording (recording of audio data) in synchronization with shooting by the camera 10 (recording of image data).
Although FIG. 1 shows an example in which two external recording devices 20 are used, the number of external recording devices 20 is not limited to two and may be one or three or more. The camera 10 may be an interchangeable lens type or a lens integrated type.

Hereinafter, each component will be described in detail in order. First, the camera 10 will be described. FIG. 2A is a block configuration diagram of the camera 10.
The camera 10 includes a photographing unit 11, a microphone 12, an A / D conversion unit 13, a memory 14, a moving image generation unit 15, a memory card interface unit 16, a communication interface unit 17, a control unit 18, and a timer. 19. Further, as shown in FIG. 1, the camera 10 includes a lens 10L that is an imaging optical system, a release button 10R that commands shooting, a display unit 10D that displays a shooting screen, and the like.

The photographing unit 11 includes a photoelectric conversion element such as a CCD (not shown). When photographing is instructed by the user pressing the release button 10R, the imaging surface of the photoelectric conversion element is formed by the lens 10L (see FIG. 1). The subject image formed on the image is photoelectrically converted and output to the memory 14 as image data.
The A / D conversion unit 13 performs analog / digital conversion on the electrical signal (sound signal) of the sound collected by the microphone 12 at the start of shooting, and outputs the sound data converted into digital data to the memory 14.

The communication interface unit 17 performs wireless communication with the external recording device 20. That is, transmission and reception of control information signals related to recording synchronization signal transmission control in the control unit 18 and recording synchronization control in the external recording device 20 which will be described later are performed.
The memory 14 stores image data captured by the imaging unit 11 and audio data collected by the microphone 12.

The moving image generation unit 15 generates moving image data in which the image data stored in the memory 14 is associated with the audio data, and outputs the moving image data to the memory card interface unit 16. The moving image generating unit 15 generates moving image data in which the image data stored in the memory 14 is associated with the audio data recorded by the external recording device 20 input via the memory card interface unit 16 or the like. A data composition function for outputting to the memory card interface unit 16 is also provided.
In the present invention, the moving image data generating method by the moving image generating unit 15 is not defined.

The memory card interface unit 16 performs processing necessary for recording the moving image data input from the moving image generation unit 15 on the memory card, and records it on a memory card (not shown). In the present invention, a method for recording moving image data on a memory card is not defined.
The memory card interface unit 16 also has a function of reading image data and audio data recorded on a memory card (not shown) and outputting them to the memory 14.

  The control unit 18 controls the entire camera 10 such as a shooting operation in the camera 10. Further, the control unit 18 controls a communication operation with another device (external recording device 20) included in the control range of the camera 10.

Next, the external recording device 20 will be described. FIG. 2B is a block diagram of the external recording device 20.
The external recording device 20 includes a microphone 21, an A / D conversion unit 22, a recording unit 23, a communication interface unit 24, a control unit 25, a delay time calculation unit 26, a memory card interface unit 27, and a timer 28. And.

The A / D conversion unit 22 performs analog / digital conversion on the electrical signal (sound signal) of the sound collected by the microphone 21, and outputs the sound data converted into digital data to the recording unit 23.
The recording unit 23 stores the audio data input from the A / D conversion unit 22 and outputs the stored audio data to the memory card interface unit 27 in accordance with control from the control unit 25.

The communication interface unit 24 communicates with the camera 10 under the control of the control unit 25. In other words, the control unit 18 of the camera 10 transmits and receives the recording synchronization signal transmission control and the control information signal related to the recording synchronization control in the external recording device 20. The communication interface unit 24 outputs the received signal to a delay time calculation unit 26 described later.
The control unit 25 controls the entire external recording device 20 such as a recording operation in the external recording device 20 and a communication operation with the camera 10. In addition, the control unit 25 performs recording synchronization control to match the timing of the recording start by the external recording device 20 with the start of imaging by the camera 10.

The delay time calculation unit 26 calculates a delay time related to communication with the camera 10 performed via the communication interface unit 24 based on a reception signal from the camera 10 input from the communication interface unit 24. The delay time is a time lag until the actual shooting start in the camera 10 and the communication interface unit 24 of the external recording device 20 receives the shooting start signal. The recording synchronization control in the control unit 25 described above is performed by this delay time. It is done using.
The delay time calculation by the delay time calculation unit 26 and the recording synchronization control by the control unit 25 will be described in detail later.
The memory card interface unit 27 performs processing necessary for recording the audio data input from the recording unit 23 on the memory card, and records it on a memory card (not shown).

Next, referring to FIGS. 3 to 5 in addition to FIGS. 1 and 2, the recording synchronization signal transmission control by the control unit 18 of the camera 10, the recording synchronization control by the control unit 25 of the external recording device 20, and the control thereof. The delay time calculation by the delay time calculation unit 26 will be described.
FIG. 3 is a time chart showing the communication between the camera 10 and the external recording device 20, the moving image shooting by the camera 10 and the recording by the external recording device 20 in time series.
FIG. 4 is a flowchart of recording synchronization signal transmission control and imaging control by the control unit 18 of the camera 10.
FIG. 5 is a flowchart of recording synchronization control and recording control by the control unit 25 of the external recording apparatus 20.

First, referring to FIG. 3, communication between the camera 10 and the external recording device 20, moving image shooting with the camera 10 and recording with the external recording device 20 will be described in time series.
As shown in FIG. 3, the camera 10 transmits a standby signal to the external recording device 20 prior to photographing / recording. Further, the camera 10 resets the timer 19 (t = 0) when the standby signal is transmitted and starts measuring time. The standby signal requests a reply from the external recording device 20 within the communicable range in order to obtain information such as the number of external recording devices 20 installed and whether or not they can communicate.

  The external recording device 20 that has received the standby signal from the camera 10 immediately transmits a delay time confirmation signal to the camera 10. An individual identification number of the external recording device 20 is attached to this delay time confirmation signal. In addition, the external recording device 20 resets the timer 28 in the external recording device 20 (T = 0) at the time of the outgoing call, and starts measuring time.

  The camera 10 that has received the delay time confirmation signal from the external recording device 20 recognizes the external recording device 20, and delays when the delay time confirmation signal is received: at time ts (= tr + t1) after the surplus time: t 1 has elapsed. A delay time calculation signal is transmitted toward the external recording device 20 (identified by the individual identification number) that has transmitted the time confirmation signal. The margin time: t1 is determined in advance, and the information is also held by the control unit 25 in the external recording device 20.

  The external recording device 20 that has received the delay time calculation signal from the camera 10 uses the delay time calculation unit 26 to transmit the delay time confirmation signal: time from T = 0 to reception of the delay time calculation signal: Tx and margin time: The delay time: td is calculated based on t1, and sampling of audio data (storage in the recording unit 23) is started.

Here, the delay time: td is the time required for the transmission signal from the camera 10 to be received by the external recording device 20. At the time of transmission of the delay time confirmation signal: time from T0 to reception of the delay time calculation signal: Tx, since the signal makes one round trip between the camera 10 and the external recording device 20 with a margin time: t1. Assuming that the time required for uplink and downlink of communication is equal, the delay time: td can be calculated by the following equation.
td = (Tx−t1) / 2
The external recording device 20 stores this delay time: td in a memory (not shown).

At the start of shooting, the camera 10 transmits a recording start signal to the external recording device 20 simultaneously with the start of shooting.
The external recording device 20 that has received the recording start signal starts recording at a position (time) that is delayed by td from the reception of the recording start signal in the audio data stored in the recording unit 23 after the reception of the delay time calculation signal. The audio data after that is recorded on the memory card via the memory card interface unit 27. Audio data before the recording start position is discarded.

At the end of shooting, the camera 10 transmits a recording stop signal to the external recording device 20 simultaneously with the stop of shooting.
The external recording device 20 that has received the recording stop signal ends the recording of the audio data in the recording unit 23. Thereafter, a position (time) that is delayed by the time td from the reception of the recording stop signal is set as the recording stop position, and the audio data up to the recording stop position is recorded on the memory card via the memory card interface unit 27. Audio data after the recording stop position is discarded.

  As described above, according to the recording synchronization signal transmission control by the control unit 18 in the camera 10 and the recording synchronization control by the control unit 25 in the external recording device 20, shooting (image file) in the camera 10 and recording in the external recording device 20 are performed. The start time and end time of the (voice file) can be matched. Since the delay time: td can be calculated using only the counter of the timer 28 of the external recording device 20, it is necessary to adjust the time of the clock between the camera 10 and each of the plurality of external recording devices 20. There is no.

  In addition, after the shooting / recording is finished, the audio data of the external recording device 20 is transferred to the camera 10 via a recording medium such as a wired transfer means or a memory card, so that the moving image generating unit 15 of the camera 10 can generate image data and audio data. And can be synthesized. Note that the composition of the image data and the sound data may be performed on the personal computer by importing each data into the personal computer.

  Next, recording synchronization signal transmission control and photographing control by the control unit 18 of the camera 10 will be described with reference to the flowchart shown in FIG. This control is performed when the camera 10 is set to the external recording device use mode using the external recording device 20. In the drawings and the following description, step is also abbreviated as “S”. Also, refer to FIG. 1 and FIG.

In the recording synchronization signal transmission control, first, the recording standby input by the user is waited (S401).
When the recording standby input is determined in step 401, a standby signal is transmitted to the external recording device 20, and the timer 19 is reset (t = 0) to start measuring time (S402).

Next, it waits for reception of a delay time confirmation signal from the external recording device 20 (S403).
If reception of the delay time confirmation signal from the external recording device 20 is determined in step 403, the time at that time is set to tr (S405), and the elapse of a further defined time t1 is determined from this time: tr (S406). ).
When the elapse of time t1 is determined in step 406, a delay time calculation signal is transmitted to the external recording device 20 (S407). When there are a plurality of external recording devices 20, the received identification signal of the individual is transmitted simultaneously with the delay time calculation signal so that the external recording device 20 determines whether it is a delay time calculation signal for itself.

On the other hand, if there is no reception of the delay time confirmation signal from the external recording device 20 in step 403, it is determined whether the predetermined standby time: te has elapsed (S404). A warning display such as “No external recording device found” is displayed on the display unit 10D (see FIG. 1), and the control is terminated.
Here, the standby time: te is set to a value slightly exceeding the time until the reception of the delay time confirmation signal calculated from the delay time due to the response assumed for the prepared communication means. Thereby, the camera 10 (control part 18) can recognize the external recording apparatus 20 which can be recorded in the control range. Subsequent control is performed with respect to the external recording apparatus 20 in which mutual communication is established.

Through the above steps, the recording synchronization signal transmission control in the camera 10 is completed, and thereafter the shooting control is performed.
In the shooting control, first, the user waits for an input of a shooting start command (S408).
When it is determined in step 408 that a shooting start command is input, a recording start signal is transmitted to the external recording device 20 (S409), and shooting (storage of image data in the memory 14) is started (S410).

Thereafter, the photographing is continued (S411), and the input of the photographing stop command by the user is determined (S412).
If it is determined in step 412 that a shooting stop command is input, a recording stop signal is transmitted to the external recording device 20 (S413), and shooting is stopped (S414).
Then, the moving image generation unit 15 generates moving image data in which the image data stored in the memory 14 and the audio data recorded by the external recording device 20 are associated with each other, and the image data is stored in a memory card (not shown) via the memory card interface unit 16. Record.

  Next, recording synchronization control and recording control by the control unit 25 of the external recording device 20 will be described with reference to the flowchart shown in FIG. This control is performed when the operation mode of the external recording device 20 is set to a driven mode that operates according to a command from the external camera 10.

In the recording synchronization control, when a standby signal is received from the camera 10 (S501), a delay time confirmation signal is transmitted and the timer 28 is reset (T = 0) to start timekeeping (S502).
Next, it waits for reception of a delay time calculation signal from the camera 10 (S503).
If reception of the delay time calculation signal is determined in step 503, it is determined whether or not the individual identification signal in the received delay time calculation signal matches itself (S504).
If the individual identification signal does not coincide with itself in step 504, the process returns to step 502 and waits again.

If the individual identification signal coincides with itself in step 504, the time is set as Tx (S505), and the delay time calculation unit 26 calculates the delay time: td (S506).
Delay time: td is the time required until the external recording device 20 receives the transmission signal of the camera 10 as described above,
td = (Tx−t1) / 2
Calculated by

Through the above steps, the recording synchronization control in the external recording device 20 is completed, and thereafter the recording control is performed.
In the recording control, when the individual identification signal coincides with itself in step 504, voice sampling (storage in the recording unit 23) is started (S507), and reception of the recording start signal is awaited (S508).

  If it is determined in step 508 that the recording start signal is received, the audio sampling data that has been delayed by the delay time: td from that point is discarded (S509). Note that the audio sampling data is discarded when the recording start signal is not received in step 508, the audio sampling data that is traced back by the delay time: td is continuously discarded, and the sampling data is discarded simultaneously with the reception of the recording start signal. You may make it complete | finish operation | movement.

After that, the reception of the recording stop signal is waited while continuing the audio sampling (S510).
If it is determined in step 508 that the recording stop signal has been received, the audio sampling is stopped (S511), and the audio sampling data that has been delayed by the delay time: td or more from the time when the recording stop signal was received is discarded (S512).
Then, the audio sampling data stored in the recording unit 23 is recorded as audio data on a memory card (not shown) via the memory card interface unit 27 (S513).

As described above, this embodiment has the following effects.
(1) In the video / audio recording system according to the present embodiment, the camera 10 and the external recording device 20 communicate with each other, and the delay time calculation unit 26 of the external recording device 20 calculates the delay time of the communication signal from the time required for the communication. calculate. Then, when the external recording device 20 receives the command signal from the camera 10, the external recording device 20 controls the recording so as to synchronize with the shooting of the camera 10 based on the delay time. As a result, the start and end times of the shooting (moving image file) in the camera 10 and the recording (audio file) in the external recording device 20 can be matched.

(2) The delay time calculator 26 of the external recording device 20 calculates a delay time based on the time from the transmission of the delay time confirmation signal to the reception of the delay time calculation signal. Therefore, the delay time can be calculated only by the timer 28 of the external recording device 20. Thereby, time adjustment of the clock between the troublesome camera 10 and each of the plurality of external recording devices 20 is not necessary, and the setting and configuration can be simplified.

(Deformation)
The present invention is not limited to the above-described embodiment, and various modifications and changes as described below are possible, and these are also within the scope of the present invention.
(1) In the present embodiment, communication between the camera 10 and the external recording device 20 is performed by wireless communication. However, the present invention is not limited to this, and a configuration for performing wired communication may be employed. Further, communication using a wireless LAN or light may be used, and any means can be used as long as information exchange is possible.
(2) Although the present embodiment is based on the premise of moving image generation, only audio data may be targeted by a master recording device and a subordinate external recording device.

(3) A position detection function by a satellite positioning system such as GPS may be added to the camera 10 and each external recording device 20, and the position information may be used for speech synthesis. This makes it possible to synthesize speech so as to be compatible with a high-quality system such as a surround system using a large number of speakers.
In addition, although embodiment and a deformation | transformation form can also be used in combination as appropriate, detailed description is abbreviate | omitted. Further, the present invention is not limited to the embodiment described above.

  10: Camera, 11: Shooting unit, 12: Microphone, 15: Video generation unit, 16: Memory card interface unit, 17: Communication interface unit, 18: Control unit, 19: Timer, 20: External recording device, 21: Microphone 24: Communication interface unit, 25. Control unit, 26: delay time calculation unit, 27: memory card interface unit, 28: timer

Claims (8)

A plurality of data recording devices,
A first data recording device of the plurality of data recording devices has a first transmission unit for transmitting a first signal;
The second data recording device of the plurality of data recording devices includes a second receiving unit that receives the first signal transmitted from the first transmitting unit, and a second signal after receiving the first signal. A second transmission unit for transmitting
The first data recording apparatus further includes a first receiving unit that receives the second signal transmitted from the second transmitting unit, and the first transmitting unit receives the second signal, Send 3 signals,
The second data recording device receives the third signal transmitted from the first transmitter by the second receiver, and then receives a reception time of the third signal and a transmission time of the second signal. From the time difference, a delay time required for communication between the second data recording device and the first data recording device is obtained.
Data recording system. The data recording system according to claim 1,
There are a plurality of the second data recording devices, each having individual identification information, and the second transmission unit transmits the individual identification information together with the second signal from the second transmission unit,
When the first data recording device transmits the third signal after receiving the second signal and the solid identification information transmitted from the second transmission unit, the first data recording device recognizes the individual individual identification of the third signal. Transmitting the third signal in association with information to the two data recording unit,
The second data recording device recognizes the third signal associated with the individual identification information of the third signal to be transmitted;
A data recording system characterized by this. The data recording system according to claim 1 or 2,
The second data recording device starts recording data after calculating the delay time and before receiving a data recording start signal transmitted from the first data recording device;
A data recording system characterized by this. A data recording system according to claim 3, wherein
The second data recording device discards the data before the delay time in the data before receiving the data recording start signal;
A data recording system characterized by this. The data recording system according to any one of claims 1 to 4,
The second data recording device receives the data recording end signal from the first data recording device, ends the data recording, and then the data from the time before the end time to the end time. Destroy it,
A data recording system characterized by this. The data recording system according to any one of claims 1 to 5,
The second data recording device can output the second data recorded by the second data recording device,
The first data recording device is capable of inputting the second data, and is capable of synthesizing the input second data and the first data recorded by the first data recording device;
A data recording system characterized by this. The data recording system according to any one of claims 1 to 6,
The first data recorded by the first data recording device and the second data recorded by the second data recording device can be output,
A synthesizing device capable of inputting the output first data and the second data, and capable of synthesizing the first data and the second data;
Providing
A featured data recording system. The data recording system according to any one of claims 1 to 7,
The first data recording device is an imaging device;
The second data recording device is a recording device;
A data recording system characterized by this.

Images