JP4433510B2 - Data recording / reproducing apparatus and operating state display method - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention has a plurality of input / output ports for inputting / outputting audio data and / or video data, and recording the input audio data and / or video data on a recording medium capable of nonlinear access, and a plurality of input / output ports. The present invention relates to a data recording / reproducing apparatus and an operation state display method configured to display respective operation states of output ports.
[0002]
[Prior art]
In recent years, with the spread of digital broadcasting, which transmits video and audio signals in a digital manner in television broadcasting, the provision of information in multiple channels has progressed. Along with the increase in the number of channels, a single video data and / or audio data (hereinafter referred to as A / V data) recording / reproducing apparatus records and reproduces a plurality of A / V data in parallel and records them. However, there has been a demand for performing playback and the like. In order to satisfy this requirement, it is referred to as a video server (hereinafter referred to as an A / V (Audio and / or Video) server) that records A / V data using a randomly accessible recording medium such as a hard disk. Devices are becoming popular.
[0003]
The A / V server has a plurality of inputs / outputs each independently having A / V data input / output. A plurality of cameras, sending devices, editing devices, and the like are connected to the plurality of input / output ports. For example, video data captured by a plurality of cameras is input from each input / output port, displayed on a monitor, and recorded on a recording medium. At the same time, predetermined A / V data is read from the recording medium, sent to the editing device via the input / output port, and edited. Further, the A / V data selected by the predetermined control is read from the recording medium and sent to the sending device via the input / output port.
[0004]
[Problems to be solved by the invention]
By the way, the A / V server has an interface with RS-422 or the like as a communication standard, and is connected to a dedicated editing apparatus or personal computer via this interface, and the operation is controlled from the outside by a connected external controller. Is made. Alternatively, the A / V server is connected to a larger system through a predetermined interface, and is controlled by an application of the system. The A / V data stored in the A / V server and the A / V data input to the input port are separately based on the operation by the above-described control device or personal computer or the control of a large-scale system application. This can be confirmed by a monitor provided.
[0005]
The conventional A / V server is thus controlled by an external controller or a large-scale system application. For this reason, a conventional A / V server is not provided with a user interface for operation, and a display function that indicates what operating state (for example, recording or playback) each input / output port is currently in. Also did not have. Therefore, conventionally, there has been a problem that the operating state of the A / V server has been unclear from the user's perspective.
[0006]
On the other hand, an A / V server that can be used independently has been proposed in which an operation means such as a control panel is provided in the A / V server body. In such an independent A / V server, in particular, it has been desired to have a function capable of displaying the operation state of each port.
[0007]
At this time, if the operation state of each input / output port is simply displayed by lighting a lamp or the like only with characters, there is a problem that a clear display cannot be performed when there are a large number of input / output ports. there were.
[0008]
Furthermore, even when a large number of input / output ports are provided, there has been a demand for making it possible to grasp the operating states of all the ports at a glance.
[0009]
Accordingly, it is an object of the present invention to provide a data recording / reproducing apparatus and an operation state display method which can clearly display the operation states of a plurality of input / output ports.
[0010]
[Means for Solving the Problems]
In order to solve the above-described problem, the present invention provides a plurality of input / output means operating in a time slot assigned to a recording medium capable of nonlinear access, and the input / output means based on operation information of the input / output means. Control means for performing control to display the operating state of the means and the audio level of data handled by the input / output means, and display means for performing display under the control of the control means, The operating state includes a first state in which data is reproduced from the recording medium in the same time sequence as the recording and at the same speed as the recording speed, and a second state in which the operation of the recording medium is stopped. A third state in which the recording operation is performed on the recording medium, a fourth state in which the reproduction operation of data from the recording medium is interrupted, and the data reproduced from the recording medium at the time of the interruption is displayed, and the recording medium To the fifth state in which data is reproduced at the same direction as recording and in the same direction and at the same or lower speed than the recording speed, and from the recording medium in the same time series as the recording time. The sixth state in which data is reproduced at a speed faster than the recording speed at the time of recording, and the recording medium from the recording medium in the reverse direction in time series and at the same or less than the recording speed at the time of recording From the seventh state of reproducing data at a speed of Recording time and chronologically backward, and is in the state of the eighth reproducing data in faster than the recording speed of the recording speed, Display means First and second segments indicating reproduction in the reverse direction in time series with recording, a third segment indicating still image display, and fourth indicating reproduction in the same direction in time series with recording And a fifth segment, a sixth segment indicating a stop state, and a seventh segment indicating a recording state, and when the operation state is the first state, the fourth segment is displayed, When the state is 2, the sixth segment is displayed. When the state is the third state, the seventh segment is displayed. When the state is the fourth state, the third segment is displayed. The fourth segment is displayed when it is in the state, the fourth and fifth segments are displayed when it is in the sixth state, the second segment is displayed when it is in the seventh state, and the eighth segment is displayed. Display the first and second segments when This is a data recording / reproducing apparatus that simultaneously displays the operation states and audio levels of a plurality of input / output means within one screen.
[0011]
Further, the present invention provides a plurality of input / output steps that operate in a time slot assigned to a recording medium capable of nonlinear access, and an operation state of the input / output steps based on operation information of the input / output steps. And a control step for performing control to display the audio level of data handled in the input / output step, and a display step for performing display by control by the control step, The operating state includes a first state in which data is reproduced from the recording medium in the same time sequence as the recording and at the same speed as the recording speed, and a second state in which the operation of the recording medium is stopped. A third state in which the recording operation is performed on the recording medium, a fourth state in which the reproduction operation of data from the recording medium is interrupted, and the data reproduced from the recording medium at the time of the interruption is displayed, and the recording medium To the fifth state in which data is reproduced at the same direction as recording and in the same direction and at the same or lower speed than the recording speed, and from the recording medium in the same time series as the recording time. The sixth state in which data is reproduced at a speed faster than the recording speed at the time of recording, and the recording medium from the recording medium in the reverse direction in time series and at the same or less than the recording speed at the time of recording From the seventh state of reproducing data at a speed of Recording time and chronologically backward, and is in the state of the eighth reproducing data in faster than the recording speed of the recording speed, The display steps are First and second segments indicating reproduction in the reverse direction in time series with recording, a third segment indicating still image display, and fourth indicating reproduction in the same direction in time series with recording And when the operation state is the first state, the fourth segment is displayed using the sixth segment indicating the stop state and the seventh segment indicating the recording state, and the seventh segment indicating the recording state. The sixth segment is displayed in the second state, the seventh segment is displayed in the third state, the third segment is displayed in the fourth state, and the fifth segment is displayed. The fourth segment is displayed in the case of the sixth state, the fourth and fifth segments are displayed in the sixth state, the second segment is displayed in the seventh state, and the second segment is displayed. Display the first and second segments in the state of 8, This is an operation state display method for simultaneously displaying operation states and audio levels of a plurality of input / output steps in one screen.
[0012]
As described above, the present invention has a plurality of input / output means that operate in time slots assigned to a recording medium capable of nonlinear access, and the input / output by the control means based on the operation information of the input / output means. Control is performed to display the operating state of the means.
[0013]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, an embodiment of the present invention will be described in detail with reference to the drawings. The data recording / reproducing apparatus according to this embodiment has functions of recording / reproducing AV data, inputting / outputting, and editing, and enables an editing operation to be performed by one apparatus.
[0014]
FIG. 1 is a perspective view showing an appearance of a data recording / reproducing apparatus according to an embodiment of the present invention. This data recording / reproducing apparatus has a plurality of input / output ports, and records and stores audio data and / or video data (hereinafter referred to as A / V (Audio and / or Video) data). It is configured as an A / V server capable of reproducing A / V data in parallel.
[0015]
The data recording / reproducing apparatus 1 according to this embodiment includes one housing 2. The housing 2 has a size equivalent to, for example, one VTR. On the front surface of the housing 2, a meter panel 3 is provided on the upper side, and a control panel 4 is provided on the lower side. The control panel 4 can be detached from the housing 2. The control panel 4 can be removed from the housing 2 so that it is not used. Alternatively, the control panel 4 is detached from the housing 2, connected to a circuit in the housing 2 by a cable, and removed from the housing 2. It can also be used in.
[0016]
FIG. 2 is a front view showing main parts of the meter panel 3 and the control panel 4 shown in FIG. The data recording / reproducing apparatus 1 according to this embodiment includes four ports as an input unit for inputting A / V data or an output unit for outputting A / V data. Each port can input or output video data and 4-channel or 8-channel audio data.
[0017]
The meter panel 3 shown in FIG. 2 includes a display unit 11 for displaying the operation states of the four ports. The display unit 11 has four display areas 11A to 11D corresponding to each port. The display areas 11A to 11D are arranged in the upper left, upper right, lower left, and lower right portions of the display unit 11, respectively. Each of the display areas 11A to 11D includes an audio level meter unit 12 for displaying audio level meters for four channels, a dot matrix unit 13 for displaying time codes and the like, and the current operating state of each port. It has a status display unit 14 for displaying (during reproduction, recording, etc.) and an information display unit 15 for displaying various types of information such as the type of time code being displayed.
[0018]
In the audio level meter section 12, the corresponding channel number is displayed below the audio level meter for each channel. Further, by operating a switch to be described later, the audio level meter unit 12 includes four audio level meters from the first channel to the fourth channel and four audio level meters from the fifth channel to the eighth channel. One of them is selectively displayed. The display is switched according to the operation of a switch (not shown).
[0019]
Further, in the data recording / reproducing apparatus 1 according to the embodiment, for each port, selection of A / V data input, adjustment of audio data recording or reproduction level, and channel for monitoring audio data are performed. Various operations such as selection can be performed. The meter panel 3 is provided with four port selection switches 16 for selecting a port to be operated.
[0020]
The meter panel 3 is further provided with four rotary encoders 17 for adjusting the recording or reproduction level of audio data and a rotary encoder 18 for adjusting the video process.
[0021]
On the other hand, the control panel 4 includes an operation / display unit 21 including a display unit for displaying various switches necessary for editing work and images used for the editing work. Further, like the port selection switch 16, the control panel 4 is provided with four port selection switches 22 for selecting a port to be operated. The control panel 4 further includes a switch 23 for instructing recording, a switch 24 for instructing rewinding, a switch 25 for instructing reproduction, a switch 26 for instructing fast-forwarding, and a switch for instructing stop. 27 is provided. In addition, the data recording / reproducing apparatus 1 according to this embodiment can remotely control up to two external VTRs. The control panel 4 is provided with two switches 28 for selecting an external VTR to be remotely operated. Further, the control panel 4 is provided with a dial 29 for instructing the speed and direction of reproduction.
[0022]
FIG. 3 is a block diagram showing a circuit configuration of the data recording / reproducing apparatus 1 according to the embodiment. The data recording / reproducing apparatus 1 according to this embodiment includes a data bus 30A for transferring A / V data and a CPU bus 30B for transferring commands. A timing management unit 31, an information management unit 32, a recording / reproduction unit 33, data management units 34A to 34D, and a control unit 36 are connected to the buses 30A and 30B, respectively. Data input / output units 37A to 37D are connected to the data management units 34A to 34D, respectively. A special effect unit (effector) 39 is connected to the control unit 36. The control unit 36 is connected to the meter panel 3, and the timing management unit 31 is connected to the control panel 4. Each part 31-39 is comprised by the separate board | substrate, for example.
[0023]
The timing management unit 31 has a timing pulse generator 41. The timing pulse generator 41 generates a timing pulse and supplies it to each circuit that requires the timing pulse. An external reference video signal Vref is input to the timing pulse generator 41. The timing management unit 31 further includes an interface (indicated as I / F in the figure) 42 for connecting the control panel 4 and the internal bus 30.
[0024]
The information management unit 32 holds file management information indicating a file recording area in the recording medium, and is connected to a file management unit 43 that manages files based on the file management information, and an external network such as Ethernet, And a network driver 44 for inputting / outputting data to / from an external network.
[0025]
The recording / reproducing unit 33 is connected to a plurality of hard disk devices (hereinafter referred to as HDDs) 45 for recording video data, and a video disk array controller 47 for controlling these HDDs 45, and for recording audio data. The audio disk array controller 48 connected to the plurality of HDDs 46 and controlling these HDDs 46 and provided between the disk array controllers 47 and 48 and the internal bus 30 for temporarily storing data. And a buffer memory 49.
[0026]
Here, nine HDDs 45 for video data are provided, of which eight are for recording A / V data and one is for recording parity data. The nine HDDs 45 and the video disk array controller 47 have a RAID (Redutant Arrays of Inexpensive Disks) 3 configuration. On the other hand, two HDDs 46 for audio data are provided. The two HDDs 46 and the audio disk array controller 48 have a RAID 1 configuration.
[0027]
The control unit 36 includes an interface 52 (referred to as I / F in the figure) 52 and a CPU 81 for connecting the editing unit 51 to the meter panel 3 and the internal bus 30. The CPU 81 is connected to the CPU bus 30B, and can communicate with other components connected to the CPU bus 30B. The interface 52 can also input an edit command CE from the outside. The editing unit 51 has functions of a matrix switcher and an audio mixer. In addition, the editing unit 51 is connected to the special effect unit 39, two data output paths for outputting data to the special effect unit 39, and one data input for inputting data from the special effect unit 39 And has a route. The editing unit 51 can output monitor data DM.
[0028]
The special effect unit 39 performs processing for obtaining special effects such as dissolve and wipe.
[0029]
The data input / output units 37A to 37D are connected to terminals 61A to 61D, respectively. Here, the terminal 61A is a data input terminal, and the terminals 61B to 61D are data output terminals. The A / V data input / output through the terminals 61A to 61D is, for example, digital data according to a serial digital interface (hereinafter referred to as SDI) standard.
[0030]
The data input / output unit 37A and the data management unit 34A constitute one port 60A, and the data input / output unit 37B and the data management unit 34B constitute one port 60B, and the data input / output unit 37C and the data management unit 34C. Constitutes one port 60C, and the data input / output unit 37D and the data management unit 34D constitute one port 60D.
[0031]
The data input / output unit 37A includes an encoder 62 for compressing SDI standard data and a 2-input / 1-output changeover switch 64. One input end of the switch 64 is connected to the terminal 61 </ b> A, the other input end is connected to the editing unit 51, and the output end is connected to the input end of the encoder 62. The terminal 61A is also connected to the editing unit 51.
[0032]
The data input / output unit 37B includes a decoder 63 that decompresses compressed data and converts it into SDI standard data, and a 2-input 1-output selector switch 65. One input terminal of the switch 65 is connected to the output terminal of the decoder 63, the other input terminal is connected to the editing unit 51, and the output terminal is connected to the terminal 61B. Note that the output terminal of the decoder 63 is also connected to the editing unit 51.
[0033]
The data input / output unit 37C includes a decoder 72 that decompresses the compressed data and converts it into SDI standard data, and a 2-input 1-output selector switch 74. One input terminal of the switch 74 is connected to the output terminal of the decoder 72, the other input terminal is connected to the editing unit 51, and the output terminal is connected to the terminal 61C. Note that the output terminal of the decoder 72 is also connected to the editing unit 51.
[0034]
The data input / output unit 37D includes a decoder 73 that decompresses the compressed data and converts it into SDI standard data, and a 2-input 1-output selector switch 75. One input terminal of the switch 75 is connected to the output terminal of the decoder 73, the other input terminal is connected to the editing unit 51, and the output terminal is connected to the terminal 61D. Note that the output terminal of the decoder 73 is also connected to the editing unit 51.
[0035]
The data management unit 34A has a buffer memory 66 interposed between the output end of the encoder 62 of the data input / output unit 37A and the internal bus 30. The data management unit 34B has a buffer memory 67 interposed between the internal bus 30 and the input terminal of the decoder 63 of the data input / output unit 37B. The data management unit 34C includes a buffer memory 76 interposed between the internal bus 30 and the input terminal of the decoder 72 of the data input / output unit 37C. The data management unit 34D has a buffer memory 77 interposed between the internal bus 30 and the input end of the decoder 73 of the data input / output unit 37D.
[0036]
The data management unit 34A has a CPU 80A and can communicate with other components connected by the CPU bus 30B. Similarly, the data management units 34B, 34C, and 34D have CPUs 80B, 80C, and 80D, respectively, and can communicate with other configurations connected by the CPU bus 30B.
[0037]
An external recording command CR can be input to the data management unit 34A. The data management unit 34A controls the process of transferring the data input to the terminal 61A to the recording / reproducing unit 33 for recording in accordance with the recording command CR. An external reproduction command CP can be input to the data management units 34B to 34D. The data management units 34B to 34D control the process of reproducing data by the recording / reproducing unit 33 and transferring this data to the terminals 61B to 61D in accordance with the reproduction command CP.
[0038]
Each unit 31 to 39 in FIG. 3 has a microcomputer including a CPU (Central Processing Unit), a ROM (Read Only Memory), and a RAM (Random Access Memory).
[0039]
The data management units 34A to 34D use the time slots to access the recording / reproducing device 33 for each of the ports 60A to 60D in a time division manner.
[0040]
The data input / output units 37A to 37D and the data management units 34A to 34D can be replaced with other types of data input / output units and data management units, respectively. For example, any one of the output type data input / output unit 37B and data management unit 34B, the data input / output unit 37C and data management unit 34C, the data input / output unit 37D and the data management unit 34D is connected to the data input / output unit 37A and It can be replaced with an input type data input / output unit and data management unit such as a set of data management unit 34A. In such a case, the data recording / reproducing apparatus 1 is an apparatus having two input ports and two output ports.
[0041]
Next, the operation of the data recording / reproducing apparatus 1 according to this embodiment will be described. First, an operation for recording A / V data input from the outside will be described. At this time, data is input to the terminal 61A. This data is input to the encoder 62 and compressed through the switch 64 in the data input / output unit 37A. The compressed data is temporarily stored in the buffer memory 66 in the data management unit 34A. The data management unit 34A accesses the recording / reproducing unit 33 during the time slot assigned to itself, and transfers the data stored in the buffer memory 66 to the recording / reproducing unit 33 via the internal bus 30.
[0042]
In the recording / reproducing unit 33, the transferred data is temporarily stored in the buffer memory 49 and then read out. Of the data read from the buffer memory 49, video data is input to the video disk array controller 47 and audio data is input to the audio disk array controller 48. The video disk array controller 47 divides the input video data by a predetermined unit, calculates parity data, and records the divided data and parity data in the plurality of HDDs 45. The audio disk array controller 48 records the input audio data in the two HDDs 46.
[0043]
Next, the operation when outputting recorded data to the outside will be described. At this time, any of the data management units 34B to 34D accesses the recording / reproducing unit 33 during the time slot assigned to itself, and requests the recording / reproducing unit 33 to reproduce the data. In the data reproducing unit 33, the video disk array controller 47 reads the video data and parity data divided from the plurality of HDDs 45, unifies the divided data, and detects and corrects errors based on the parity data. To play the video data. Also, the audio disk array controller 48 reproduces audio data from the HDD 46 with no error out of the two HDDs 46. The reproduced video data and audio data are temporarily stored in the buffer memory 49, read out, and transferred to any of the data management units 34 </ b> B to 34 </ b> D via the internal bus 30.
[0044]
In the case of outputting data from the terminal 61B to the outside, the reproduced data is expanded by the decoder 63 in the data input / output unit 37B via the buffer memory 67 of the data management unit 34B, through the switch 65, and then to the terminal Output from 61B to the outside. When the data is output to the outside from the terminal 61C, the reproduced data is expanded by the decoder 72 in the data input / output unit 37C via the buffer memory 76 of the data management unit 34C, and then passed through the switch 74 to the terminal Output from 61C to the outside. In the case of outputting data from the terminal 61D to the outside, the reproduced data is expanded by the decoder 73 in the data input / output unit 37D via the buffer memory 77 of the data management unit 34D, and through the switch 75 to the terminal 61D outputs to the outside.
[0045]
In the data recording / reproducing apparatus 1 according to this embodiment, since the data management units 34A to 34D operate in time division, the same data or different data can be simultaneously output from the three terminals 61B to 61D. It is.
[0046]
Next, an operation when editing data will be described. The editing unit 51 of the control unit 36 performs data editing processing using at least one of data input from the outside and data reproduced by the recording / reproducing unit 33. That is, the editing unit 51 can input data input from the outside via the terminal 61A and output data reproduced by the recording / reproducing unit 33 and expanded by the decoders 63, 72, 73. The editing unit 51 uses at least one of these data to perform editing processing using a matrix switcher or an audio mixer that the editing unit 51 has and using a special effect unit 39 as necessary. The editing unit 51 can perform AB roll editing for obtaining special effects such as dissolve and wipe.
[0047]
The editing unit 51 can output the data obtained by the editing process to any of the switches 64, 65, 74, and 75. The data output to the switch 64 is recorded in the HDDs 45 and 46 by the recording / reproducing unit 33. The data output to the switches 65, 74, and 75 are output from the terminals 61B, 61C, and 61D, respectively. Thus, the editing unit 51 can perform linear editing.
[0048]
The editing unit 51 can also perform non-linear editing that retains only editing information such as editing point data without outputting edited data.
[0049]
In the data recording / reproducing apparatus 1 according to this embodiment, the meter panel 3 is used to select input of A / V data, adjust the recording or reproduction level of audio data, and monitor audio data. Various operations such as channel selection can be performed. Further, the operation state of the four ports can be displayed by the display unit 11 of the meter panel 3.
[0050]
Further, in the data recording / reproducing apparatus 1 according to the embodiment, the control panel 4 can be used to perform operations necessary for editing work.
[0051]
Next, a file system applied to this embodiment will be described. The file system is a system that manages in the server unit, that is, the recording / reproducing unit 33, at which position of the HDD 45 that constitutes the recording / reproducing unit 33. File management by the file system is executed by the file management unit 43.
[0052]
File system information is roughly
(1) File entry information,
(2) Record entry information,
(3) Free space list information,
It consists of these three pieces of information. FIG. 4 schematically shows an example of the structure of each piece of information. The file entry information, record entry information, and free space information are held in the information management unit 32 as file management information, for example.
[0053]
As shown in FIG. 4A, the file entry information (1) describes a file name and pointer information to the first record entry information. Therefore, the file entry information is set for each file. The file entry information is linked based on the link information to record entry information described later, which is information indicating from what position in the HDD 45 the file is written and how long.
[0054]
As shown in an example in FIG. 4B, the record entry information (2) is the length of the address information from the head address on the HDD 45 and the address indicating the head position where the file is actually written to the HDD 45. Data length information indicating the data length of the continuous area, which indicates whether the data has been continuously written. Further, in the record entry information, link information to the next record entry information is described.
[0055]
In the HDD 45, one file may be divided and written in different areas. In this case, record entry information is created for each divided area. The link information includes, for example, pointer information, which is information indicating a link to record entry information indicating information on the next area in which the divided file is written. By tracking the pointer information indicated by the link information one after another in a plurality of record entry information, it is possible to grasp the address information of the file divided into different areas. When the file ends in the continuous area, for example, “EOF (End of File)” is written as the link information.
[0056]
FIG. 5 schematically shows file access based on this record entry information. Assume that a file with the file name “A” is written in the address space of the HDD as shown in FIG. 5A. That is, the file “A” is divided into three and written to addresses [50] to [100], addresses [200] to [300], and addresses [500] to [750], respectively. In the following description, the numerical value of the address corresponds to the recording and reproduction time. For example, the reproduction length of address [100] from address [100] to address [200] is length [100]. Is described.
[0057]
FIG. 5B shows an example of file entry information (FE) and record entry information (RE) corresponding to FIG. 5A. In the file entry information, the file name “A” of the file is described, and link information for linking to the first record entry information is described. The link information is, for example, the file name of the first record entry information to be linked. Alternatively, the position where the record entry information is written, for example, pointer information indicating an address may be directly used as link information.
[0058]
In this example in which the file “A” is divided into three, three pieces of record entry information are created. First, in the first divided area, it is described that the data of the address [50] to the ganga [50] is written (that is, the address is up to [100]). That is, data is continuously written in the addresses [50] to [100]. The file “A” is written over the next continuous area. By following the link information, the record entry information indicating the next continuous area in which the file “A” is written is referred to, and the data from the address [100] to the length [100], that is, the addresses [100] to [200]. It can be seen that data is written in the continuous area. Further, the file “A” is written to the next continuous area. In the same manner as described above, by following the link information, the record entry information indicating the next continuous area in which the file “A” is written is referred to, and the data from the address [500] to the length [250], that is, the address It can be seen that data is written in the continuous area of [500] to [750]. Since the file “A” ends at the address [750], it is not linked to the next continuous area, and “EOF” is described as link information in the corresponding record entry information.
[0059]
The free space list information (3) describes information on an area on the HDD 45 where no data is written. The description method is based on the record entry information described above. That is, as shown in FIG. 4C, the address information at the head of the area where data is not written, that is, the empty area, and the length of the continuous empty area are described. At the same time, link information to the next free space list information is described. The link information is, for example, the file name of the first free space list information to be linked. Alternatively, the position where the free space list information is written, for example, pointer information indicating an address may be directly used as link information.
[0060]
FIG. 5C schematically shows a link state of the free space list information corresponding to FIG. 5A. In the example of FIG. 5A, addresses [0] to [50], addresses [100] to [200], and addresses [300] to [500] are areas where data is not written. Therefore, as shown in FIG. 5C, the first free space list information describes that the start address of continuous free areas is [0] and there is a free area of length [50]. When the link information is traced and the next free space list information is referred to, it is described that the free space start address is [100] and that there is a free space 100 minutes from the start address. Further, by tracing the link information and referring to the next free space information, it can be seen that the start address of the free area is [300] and there is a free area of length [200] from the start address. Since “EOF” is described as the link information, it can be seen that there is no more free space in this HDD. Thus, by referring to the free space list information one after another based on the link information, the free space of the entire HDD can be grasped.
[0061]
A file system for managing files on the HDD 45 according to this embodiment is configured based on the above-described three pieces of information: file entry information, record entry information, and free space information. For example, when another file “B” is written to the HDD 45 in which the file “A” is already written, file entry information is created based on the file name “B” of the file “B” to be written. The Then, the file “B” is written in the HDD 45 while referring to the free space list information. At this time, record entry information is created based on the write address and data length of the file “B”. Further, when the file “B” is written, the free space on the HDD 45 changes, and the free space list information is rewritten.
[0062]
Next, the A / V data editing process according to this embodiment, which is performed based on the file system as described above, will be schematically described. In this embodiment, a virtual file (virtual file list: referred to as VFL) indicating the editing result is created without outputting the edited result as a real A / V data file. In the VFL, information necessary for reproducing the editing result on the A / V server is described.
[0063]
An editing device is connected to the A / V server. In the A / V server according to this embodiment, the stored A / V data can be edited also by the control panel 4 attached to the A / V server body. Hereinafter, a case where an external editing apparatus is connected to the A / V server will be described.
[0064]
Various commands such as an editing command CE, a reproduction command CP, and a recording command CR are supplied from the editing apparatus to the A / V server. For example, when trying to edit a file whose file name is “A” (hereinafter referred to as file “A”) stored in the A / V server, information indicating the file “A” is sent from the editing device to the A / V. Output to the server. On the A / V server side, based on the file management information held in the information management unit 32, it can be seen in which area on the HDD 45 the file “A” is recorded. A reproduction command is issued to the file “A”. The reproduced file “A” is supplied to, for example, the port 60B via the bus 30A, and transferred from the port 60B to the editing apparatus.
[0065]
On the editing device side, based on the transferred file “A”, the image is displayed on a monitor connected to or incorporated in the editing device. An editing operator who performs an editing operation operates an operating means provided in the editing apparatus to check an editing point indicating which part of the material stored in the A / V server is actually used while checking the monitor video. To set. The editing work includes various processes such as setting an IN point for starting reproduction and an OUT point for ending reproduction, and applying special effects such as wipe and dissolve to the reproduced video. Hereinafter, for the sake of explanation, a case where the IN point and the OUT point are set will be described.
[0066]
The editing result in which the IN point and OUT point are set by editing is transferred to the A / V server. At this time, in this embodiment, only the information of the set IN point and OUT point is transferred to the A / V server together with the file name of the A / V file used for editing. An actual A / V file based on the edited content is not created.
[0067]
As an editing result, the VF described above is transferred to the A / V server. The VFL is transferred to the A / V server and stored in a memory (not shown) of the information management unit 32, thereby completing the editing work. The A / V server reads the A / V data stored in the HDD 45 based on the VFL, and sends the edited material. That is, by using the VFL, it is not necessary to record the edited result as a new A / V file, and it becomes possible to edit the material and send the edited result in real time.
[0068]
FIG. 6 shows an example of the structure of the VFL. In the VFL, the file name of the target A / V file, the reproduction start position in the file, that is, information on the IN point, and the reproduction end position, that is, information on the OUT point are described. The reproduction start position and the reproduction end position are address information with respect to the head position of the address space in the target A / V file.
[0069]
As an example, in the example shown in FIG. 5A described above, with respect to the file “A” having the length [400], the position of the length [10] from the beginning of the file is taken as the IN point, and the length [50] ] When the position of the length [60] from the beginning after the position is the OUT point, the playback start position is [10] and the playback end position is [60] as shown in FIG. .
[0070]
On the other hand, as described above, when a file is written on the HDD 45, the file may be divided into different areas on the HDD 45 and written. The divided files are managed as one continuous file by the file management unit 43 by referring to the record entry information by following the link information of the record entry information one after another.
[0071]
Similarly, the VFL may be divided and written in different areas of the HDD 45 from the described reproduction start position to the reproduction end position. FIG. 8 shows the processing in this case in the same manner as FIG. 5A described above. As shown in FIG. 8A, the file “A” is divided and recorded in different areas on the HDD 45. On the other hand, the reproduction start position and reproduction end position in the address space of the VFL are as shown in FIG. 8B.
[0072]
Based on the file entry information and record entry information, the file management unit 43 starts reproduction of the file “A” described in the VFL from the file head position data described in the record entry information and the recording length data of the continuous area. Access location. In the example of FIG. 8A, the head position of the file “A” is the address [50] in the address space of the HDD 45. Since the playback start position is set to the address [10] in the address space of the file “A” by the VFL, the address space of the HDD 45 is obtained by adding the length [10] to the address [50] in the address space of the HDD 45. Playback starts from the address [60].
[0073]
When the playback length exceeding the recording length of the continuous area described in the record entry information is specified by the playback start position and playback end position of the VFL, the next record entry information is based on the link information of the record entry information. Link to In the example of FIG. 8A, the playback length indicated by VFL is [50], whereas the recording area indicated by the first record entry information is from address [50] to address [100] in the address space of HDD 45. It is. Since the reproduction is started from the address [60], in order to reproduce the reproduction length designated by the VFL, the data of the length [10] must be reproduced. The data of the above length [10] is reproduced from the file head position indicated in the next record entry information linked based on the link information. That is, addresses [200] to [210] are reproduced in the address space of the HDD 45.
[0074]
That is, the reproduction range indicated by VFL of the file “A” in the address space of VFL is based on a continuous area on the address space of HDD 45 as shown in FIG. It is divided into a portion and a length [10] portion, and each is written in different areas.
[0075]
On the other hand, if the VFL has a description as shown in FIG. 9, the address of the data to be actually reproduced in the address space of the HDD 45 is reproduced from the address [60] and continues to the address [100]. Data written in the area is reproduced.
[0076]
FIG. 10 shows an example of the configuration of the meter panel 3 shown in FIG. The meter panel 3 includes a display unit 86 that performs display, a display control unit 82 that performs display control on the display unit 86, an operation switch 85, and a memory 84. The display control unit 82 receives a flag indicating the operating state of each of the ports 60A to 60D from the interface 52 via the CPU bus 30B. The display control unit 82 includes a CPU 83, and the CPU 83 creates display data based on the received flag.
[0077]
The display unit 86 reads display data from the display 90 that displays on the display unit 11, the driver 89 that drives the display 90, the memory 87 in which the display data created by the display control unit 82 is written, and the memory 87. The CPU 88 controls the driver 89 based on the read display data.
[0078]
The operation switch 85 is a level setting knob corresponding to each of a port selection button and a port, for example. When the port selection button is operated by the user, a desired port is selected from the ports 60 </ b> A to 60 </ b> D, and the port selection information is supplied to the display control unit 82. Further, by operating the level setting knob, for example, the level of audio data of the corresponding port can be set. Level setting information obtained by operating the level setting knob is supplied to the display control unit 82. Each of the port selection information and the level setting information is a control command for performing predetermined control, and is output from the display control unit 82.
[0079]
The display 90 includes, for example, a fluorescent display tube in which a plurality of phosphors are arranged in a predetermined pattern in the display surface, and the light emission of each phosphor in the predetermined pattern is controlled by the driver 89, so that Predetermined display. Each pattern formed by each phosphor is referred to as a segment.
[0080]
FIG. 11 shows an example of the display made on the display screen of the display device 90. The display screen of the display 90 includes four areas corresponding to the ports 60A to 60D, respectively. In this example, the upper left area corresponds to the port 60A, the upper right area corresponds to the port 60B, the lower left area corresponds to the port 60C, and the lower right area corresponds to the port 60D. In FIG. 3 described above, the port 60C is described as an output port, but here, the port 60C has the same configuration as the port 60A and is an input port.
[0081]
For example, in the upper right area corresponding to the port 60B, the port name 100 and the time code 101 are displayed in the upper part. Below the port name 100, a port operation state display 102 is displayed. Although details will be described later, the port operation status display 102 displays various operations such as recording, playback, fast forward (FFWD), rewind (REW), and still image display for each of the ports 60A to 60D. The Various status displays 103 and an audio level meter 104 are also displayed.
[0082]
In the example of FIG. 11, it can be seen that the port name of the port 60B is “P1” and the current time code is “00: 05: 56: 22”. I understand that. The various status displays 103 display a predetermined status of the current port 60B, and the audio level meter 104 displays the level of the audio signal currently output from the port 60B as an output port in substantially real time.
[0083]
FIG. 12 shows an example of the segment configuration of the port operation status display 102. In this embodiment, seven segments of segments (seg) A to G are used to express various operations of the port as described above. As will be described later, segments D and E indicate reproduction in the same direction in time series as recording. On the other hand, segments A and B show reproduction in the reverse direction in time series with respect to recording. Segment C shows a still image display (still). Segment F indicates a stop state, and segment G indicates that recording is in progress. By controlling the light emission of these segments A to F, the operation of the port is displayed.
[0084]
As described above, the operation state of each port is displayed as a symbol, so that the operation state of each port can be clearly grasped.
[0085]
Control of light emission of each of the segments A to G is performed based on display data written in the memory 87. FIG. 13 shows an example of display data. As the display data, for example, a flag in which a bit is associated with each of the segments A to G can be used. That is, as an example is shown in FIG. 13, one bit is provided for each of the seven segments A to G. Further, although not shown, the display data includes information for identifying the port. Based on the value of the corresponding bit, the display controller 82 controls the light emission of the segments A to G.
[0086]
In this embodiment, the eight states shown in FIG. 13 are set as the operation states of the respective ports displayed on the display device 90. That is, four states of normal operation such as playback (PLAY), stop (STOP), recording (REC), and still image display (STILL), and a speed that differs in time series from the recording speed by using the dial 29 or the like. The four statuses of special playback in which playback is performed are displayed on the display 90. Details of these eight operating states will be described later.
[0087]
A segment to be displayed is determined for each of these eight operating states, and display data is created. In this example, the segment to be displayed is indicated by setting a bit corresponding to the segment to be displayed. The display data need not be unique for each operation state, and the same display can be used in different operation states such as “PLAY” and “FWD 1 × speed or less”.
[0088]
Next, an example of display processing for the display device 90 will be schematically described with reference to the flowchart of FIG. FIG. 14A shows the processing of the display control unit 82, and FIG. 14B shows the processing of the display unit 86. 14A and 14B are performed in parallel.
[0089]
First, the processing of the display control unit 82 in FIG. 14A will be described. In the first step S <b> 10, information indicating the operating states of all the ports 60 </ b> A to 60 </ b> D is supplied to the display control unit 82 from the interface 52 provided in the control unit 36. For example, the operating state of the port 60A is monitored at predetermined intervals by the CPU 80A that controls the port 60A. Information indicating the operating state of the port 60A is output from the CPU 80A by monitoring the port 60A at a predetermined interval by the CPU 80A, and transferred to the controller 36 along with the port information via the CPU bus 30B. These pieces of information are supplied from the control unit 36 to the interface 52 and transferred from the interface 52 to the display control unit 82 of the meter panel 3.
[0090]
Similarly, in the other ports 60B to 60D, information indicating the operation states of the ports 60B to 60D output from the CPUs 80B to 80D is transferred to the control unit 36 via the CPU bus 30B and supplied to the interface 52. And transferred to the display control unit 82.
[0091]
In the next step S11, display data is created based on the information indicating the operating states of the ports 60A to 60D supplied to the display control unit 82 in this way. Data stored in the memory 84 is read to the CPU 83 of the display control unit 82 at a predetermined timing. The CPU 83 creates display data based on the read data. The created display data is supplied to the display unit 86 and written to the memory 87 in the next step S12.
[0092]
On the other hand, in the display unit 86, display data is read from the memory 87 at predetermined intervals by the CPU 88 and converted into a control signal for the driver 89 in step S20. This control signal is supplied from the CPU 88 to the driver 89, and the display device 90 is driven by the driver 89 based on this control signal, and a predetermined display based on the display data is made.
[0093]
Next, each operation state shown in FIG. 13 will be described. First, four states of normal operation of “PLAY”, “STOP”, “REC”, and “STILL” will be described. “PLAY” is an operation of reproducing in the same direction in recording and time series at the same speed as recording speed in time series. “STOP” is a stop state. “REC” is an operation for recording. “STILL” is an operation for displaying a still image. For example, when “STILL” is instructed during the above “PLAY” operation, the reproduction operation is temporarily interrupted, and an image at that timing is displayed as a still image on a monitor or the like.
[0094]
In this embodiment, the segment D is displayed in the “PLAY” state. The segment F is displayed in the “STOP” state. The segment G is displayed in the “REC” state. Segment C is displayed in the “STILL” state. It is more preferable that the segment G corresponding to the “REC” state indicating recording has a different color from the other segments. For example, if the other segments A to F are displayed in white, the segment G is displayed in red.
[0095]
The special reproduction will be described. As described above, the special reproduction is an operation for making the time-series reproduction speed and direction different from those at the time of recording by operating the dial 29 or the like. The dial 29 has a jog dial function, a shuttle dial function, and a variable dial function selected by a select button (not shown).
[0096]
When the jog dial function is selected, by rotating the dial 29, for example, frame advance playback is performed according to the rotation direction and rotation speed. When the shuttle dial function is selected, for example, reproduction is performed at a direction and speed corresponding to the angle of the dial 29. In the case of the shuttle dial function, playback at a speed higher than the speed at the time of recording can be performed. When the variable dial function is selected, for example, reproduction is performed in a direction and speed according to the angle of the dial 29. In the variable dial function, reproduction is performed mainly at a speed slower than the recording speed, and noise is not generated on the display screen by, for example, displaying the same frame image a plurality of times.
[0097]
In the case of special playback, the segment to be displayed differs depending on the time-series direction and speed of playback. Whether to display the segments D and E or the segments A and B is determined depending on the time series direction of reproduction. Segments D and E are displayed during playback in the same direction as the time of recording (forward playback). Also, depending on the time-series speed of playback, for example, in the case of forward playback, it is determined whether to display both segments D and E or one of them. In this example, both segments D and E are displayed when the reproduction speed exceeds the recording speed. The same applies to the segments A and B.
[0098]
Note that the segment configuration for displaying the operation status of each port shown in FIG. 12 is not limited to this example, and other arrangements may be used as long as the operation status is clear. it can. Further, the operation state to be displayed on the display device 90 shown in FIG. 13 is not limited to this example, and other operation states can be displayed. Furthermore, the display device 90 is not limited to a fluorescent display device, and other display elements such as an LCD (Liquid Crystal Display) and an LED (Light Emitting Diode) can be used.
[0099]
In the above description, the four input / output ports 60A to 60D have been described. However, this is not limited to this example. It is also possible to provide more input / output ports and display each operation state at once.
[0100]
【The invention's effect】
As described above, according to the present invention, on the operation panel of the A / V server having a plurality of input / output ports, the current operation state of all ports is displayed as a symbol for each port. Therefore, the user can clearly grasp the operating state of all ports.
[0101]
This also has an effect that the user can easily search for an empty port, find an abnormal operation for each port, and the like.
[Brief description of the drawings]
FIG. 1 is a perspective view showing an appearance of a data recording / reproducing apparatus according to an embodiment of the invention.
FIG. 2 is a front view showing main parts of a meter panel and a control panel.
FIG. 3 is a block diagram showing a circuit configuration of a data recording / reproducing apparatus according to an embodiment.
FIG. 4 is a schematic diagram schematically showing structures of file entry information, record entry information, and free space information.
FIG. 5 is a schematic diagram schematically illustrating file access based on record entry information.
FIG. 6 is a schematic diagram illustrating an example of a structure of a virtual file VFL.
FIG. 7 is a schematic diagram illustrating an example of a description of a virtual file VFL.
FIG. 8 is a schematic diagram for explaining a process of reproducing a file that has been divided into different areas and written using a virtual file VFL;
FIG. 9 is a schematic diagram illustrating another example of the description of the virtual file VFL.
FIG. 10 is a block diagram illustrating an example of a configuration of a meter panel.
FIG. 11 is a schematic diagram illustrating an example of display performed on a display screen of a display device.
FIG. 12 is a schematic diagram illustrating an example of a segment configuration of a port operation state display.
FIG. 13 is a schematic diagram illustrating an example of display data for displaying an operation state of a port.
FIG. 14 is a flowchart for explaining display processing on a display device;
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Data recording / reproducing apparatus, 2 ... Housing | casing, 3 ... Meter panel, 4 ... Control panel, 11 ... Display part, 30 ... Internal bus, 31 ... Timing management , 32... Information management unit, 33... Recording / playback unit, 34 A to 34 D... Data management unit, 36... Control unit, 37 A to 37 D. Special effect section 41 ... Timing pulse generator 45, 46 ... HDD 51 ... Editing section 60A-60D ... Port 61A-61D ... Terminal 82 ... Display control Part, 83 ... CPU, 84 ... memory, 86 ... display part, 87 ... memory, 88 ... CPU, 89 ... driver, 90 ... display, 102 ... Port operational status display

Claims (3)

A plurality of input / output means operating in time slots assigned to a recording medium capable of nonlinear access;
Control means for performing control to display the operation state of the input / output means and the audio level of data handled by the input / output means based on the operation information of the input / output means;
Display means for performing display under the control of the control means,
The above operating state is
A first state in which data is reproduced from the recording medium in the same time-series as in recording and at the same speed as the recording speed in recording;
A second state in which the operation of the recording medium is stopped;
A third state in which a recording operation is performed on the recording medium;
A fourth state in which the reproducing operation of the data from the recording medium is interrupted and the data reproduced from the recording medium is displayed at the time of the interruption;
A fifth state in which data is reproduced from the recording medium in the same time-series manner as recording and at a speed equal to or less than the recording speed at the time of recording;
A sixth state in which data is reproduced from the recording medium in the same time-series as in recording and at a speed faster than the recording speed in storage;
A seventh state in which data is reproduced from the recording medium in a time-series reverse direction at the time of recording and at a speed equal to or less than a recording speed at the time of recording;
An eighth state in which data is reproduced from the recording medium at a speed reverse to the time of recording in time series and at a speed higher than the recording speed at the time of recording;
And
The display means is
A first segment and a second segment showing reproduction in the reverse direction in time series with the recording time;
A third segment showing a still image display;
4th and 5th segments showing playback in the same direction in time sequence as when recording,
A sixth segment indicating a stopped state;
A seventh segment indicating the recording state;
And the above operating state is
Display the fourth segment when in the first state,
Display the sixth segment when in the second state,
Display the seventh segment in the third state,
Display the third segment when in the fourth state,
Display the fourth segment in the fifth state,
Display the fourth and fifth segments when in the sixth state,
Display the second segment when in the seventh state,
Displaying the first and second segments when in the eighth state,
A data recording / reproducing apparatus for simultaneously displaying the operation state and the audio level of each of the plurality of input / output means within one screen. The control means includes
The data recording / reproducing apparatus according to claim 1, wherein the display unit is controlled to display audio levels of audio data for four channels handled by each of the plurality of input units. A plurality of input / output steps that operate in time slots assigned to recording media capable of non-linear access;
A control step for performing control to display an operation state of the input / output step based on operation information of the input / output step and an audio level of data handled in the input / output step;
A display step of performing display by control according to the control step,
The above operating state is
A first state in which data is reproduced from the recording medium in the same time-series as in recording and at the same speed as the recording speed in recording;
A second state in which the operation of the recording medium is stopped;
A third state in which a recording operation is performed on the recording medium;
A fourth state in which the reproducing operation of the data from the recording medium is interrupted and the data reproduced from the recording medium is displayed at the time of the interruption;
A fifth state in which data is reproduced from the recording medium in the same time-series manner as recording and at a speed equal to or less than the recording speed at the time of recording;
A sixth state in which data is reproduced from the recording medium in the same time-series as in recording and at a speed faster than the recording speed in storage;
A seventh state in which data is reproduced from the recording medium in a time-series reverse direction at the time of recording and at a speed equal to or less than a recording speed at the time of recording;
An eighth state in which data is reproduced from the recording medium at a speed reverse to the time of recording in time series and at a speed higher than the recording speed at the time of recording;
And
The above display steps are:
A first segment and a second segment showing reproduction in the reverse direction in time series with the recording time;
A third segment showing a still image display;
4th and 5th segments showing playback in the same direction in time sequence as when recording,
A sixth segment indicating a stopped state;
A seventh segment indicating the recording state;
The above operating state is
Display the fourth segment when in the first state,
Display the sixth segment when in the second state,
Display the seventh segment in the third state,
Display the third segment when in the fourth state,
Display the fourth segment in the fifth state,
Display the fourth and fifth segments when in the sixth state,
Display the second segment when in the seventh state,
Displaying the first and second segments when in the eighth state,
An operation state display method for simultaneously displaying the operation state and the audio level of each of the plurality of input / output steps in one screen.

Images