JP4150869B2 - Data communication device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a data communication apparatus suitable for using a public wireless line.
[0002]
[Prior art]
Conventionally, digital mobile phone systems including a personal handyphone system (PHS) have been widely used in business and the like because they have a high degree of freedom in place of use.
[0003]
These digital cellular phone systems are configured to include a large number of base stations, and the communication range (service area) of each base station is appropriately arranged with a radius of, for example, several hundred m to several km. Has been.
[0004]
In the digital cellular phone system as described above, as shown in FIG. 3, the mobile station terminal 1 and the nearest base station 2 are connected via a UHF band wireless line WL. And it connects with a desired other party like the server 4 via the base station 2 and the network 3, for example.
[0005]
[Problems to be solved by the invention]
By the way, in a next-generation mobile phone system such as IMT-2000 or MMAC (Multimedia Mobile Access Communication) that is going to be realized in the near future, a high transmission rate of several M to several tens Mbps is adopted, for example.
[0006]
If such a mobile radio communication system with a high transmission rate is used, a video camera 6 is connected to the mobile station terminal 1 as shown in FIG. If the server 4 side stores video data from the video camera 6 in the large-capacity data storage unit 5, the video camera 6 can be sent in real time. On the side, it is possible to take a much longer time without being limited by the capacity of the built-in recording medium.
[0007]
However, when shooting using a mobile radio communication system with a high transmission rate as described above, if the mobile station moves over a relatively wide range, the mobile station terminal may go out of the service area of the base station and the radio line may be disconnected. There arises a problem that the photographing opportunities are extremely limited.
[0008]
In view of such points, the object of the present invention is to provide a series of cases where a mobile station terminal goes out of a communicable range when transmitting a large amount of continuous data such as a moving image through a mobile radio communication system with a high transmission rate. The present invention is to provide a data communication apparatus that can transmit required data to a partner without omission.
[0009]
[Means for Solving the Problems]
In order to solve the above-mentioned problem, a data communication device according to the invention of claim 1 provides:
Data recording means for recording input image data;
Wireless communication means for wirelessly performing data communication with a base station having a predetermined communicable range;
Communicable range identifying means for identifying the inside and outside of the communicable range;
Based on the identification result in the communicable range identification unit and the amount of data stored in the data recording unit, the image data is recorded in the data recording unit, and the image data is transmitted to the outside through the wireless communication unit. Control means for switching between,
Equipped with a,
The control means includes
When the communicable range identifying means identifies that the data is within the communicable range and the accumulated data amount of the data recording means is zero, the input image data is used as it is or the data recording means Sending to the outside through the wireless communication means through the storage unit,
When the communicable range identifying means identifies that the data is within the communicable range and the accumulated data amount of the data recording means is not zero, it records the input image data in the data recording means, and Control to send the image data stored in the data recording means to the outside,
When the communicable range identifying means identifies that the data is outside the communicable range, the input image data is recorded in the data recording means and the image data stored in the data recording means is read. It is characterized by controlling to prohibit .
[0010]
In the data communication apparatus according to the first aspect of the present invention, the required data that cannot be transmitted is temporarily stored in the storage means while the apparatus is outside the wireless communication service area, and the apparatus is wirelessly connected. When moving to a communication service area, by transferring the required data stored to the other party, a series of required data is transferred to the other party without omission, and the period outside the service area is long. In this case, a situation in which the remaining capacity of the data storage unit becomes zero and the data generation unit is unexpectedly disabled can be avoided by the remaining capacity alarm.
[0011]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, an embodiment of a data communication apparatus according to the present invention will be described with reference to FIG.
[0012]
[Configuration of the embodiment]
The configuration of the embodiment of the present invention is shown in FIG.
[0013]
As shown in FIG. 1, the data communication apparatus of this embodiment includes a data processing system 10, a communication system 20, and a control system 30.
[0014]
In the data processing system 10, moving image data S11 from a video camera 11 provided with a CCD image pickup device is supplied to an MPEG2 video encoder 12, subjected to predetermined compression processing, and audio data S13 from a microphone 13 is MPEG audio. The data is supplied to the encoder 14 and subjected to a predetermined compression process.
[0015]
The MPEG2 video packet S12 and the MPEG audio packet 14 output from both encoders 12 and 14 are supplied to a multiplexer (multiplexer) 15 for multiplexing processing, and multiplexed packet data output from the multiplexer 15 S15 is once written in the large-capacity hard disk 16.
[0016]
In the communication system 20, the transmission circuit 21 and the confirmation signal reception unit 22 are connected to the antenna 23 via a common circuit (not shown), and the transmission circuit 21 receives the multiplexed packet read from the hard disk 16. Data S16 is supplied.
[0017]
The writing and reading of the hard disk 16 are performed in a first-in first-out format, so-called FIFO (First-in, First-out).
[0018]
In the control system 30, a control signal is supplied from the system control circuit (microcomputer) 31 to the remaining capacity alarm unit 32 including, for example, a red lamp and a buzzer, and between the system control circuit 31 and the hard disk 16. The control data is exchanged at.
[0019]
Further, a control signal is supplied from the system control circuit 31 to the communication system 20, and a confirmation signal S 22 from the receiving unit 22 is supplied to the system control circuit 31.
[0020]
[Data transmission of the embodiment]
Next, data transmission according to the embodiment of FIG. 1 will be described.
[0021]
In the embodiment of FIG. 1, it is assumed that the hard disk 16 is blank in the initial state. When shooting by the video camera starts, the multiplexed packet data S15 output from the multiplexer 15 is temporarily stored in the hard disk 16.
[0022]
The accumulated packet data is sequentially read from the hard disk 16 under the control of the system control circuit 31, and is transmitted from the transmission circuit 21 of the communication system 20 to the reception side (server) through the wireless line WL. .
[0023]
When the mobile terminal device is located outside the service area of the nearest base station, the hard disk 16 is temporarily set to the read mode by the control signal from the system control circuit 31 based on the control information corresponding to the amount of data stored in the hard disk 16. The read packet data is supplied to the transmission circuit 21 of the communication system 20 and transmitted from the antenna 23.
[0024]
In this case, since the mobile terminal device is located outside the service area of the base station and the wireless circuit WL is not connected, the packet data read out first cannot be normally transmitted to the server side. 22 also cannot receive a confirmation signal from the server side. Then, the control signal supplied from the system control circuit 31 causes the hard disk 16 to be in a read prohibition mode and prohibits subsequent reading of packet data.
[0025]
When the mobile terminal device moves and returns to the service area of the nearest base station, the wireless circuit WL is connected and the packet data is normally transmitted from the transmission circuit 21, so that the correct data is also received from the server side. An acknowledgment signal (ACK) notifying the completion of transmission is sent out and reaches the acknowledgment signal receiver 22.
[0026]
Based on the confirmation signal S22 supplied from the receiving unit 22 and the control information corresponding to the amount of data stored in the hard disk 16, a control signal is supplied from the system control circuit 31 to the hard disk 16, and the read prohibition of the hard disk 16 is released. Subsequent packet data is sequentially extracted.
[0027]
In this way, all of the packet data stored in the hard disk 16 is transferred to the server through the transmission circuit 21 and the wireless line WL, and packet data without any loss is stored in the server-side data storage unit (see FIG. 3). The
[0028]
Further, if shooting outside the service area continues and the multiplexed packet data S15 continues to be stored in the hard disk 16, and the remaining capacity becomes zero, an unexpected shooting interruption will occur.
[0029]
In this embodiment, when the filling rate of the hard disk 16 exceeds a predetermined threshold, a control signal from the system control circuit 31 is supplied to the remaining capacity alarm unit 32, for example, a red lamp is lit or a buzzer is turned on. Sounds to warn the user that the remaining capacity of the hard disk 16 is low.
[0030]
As a result, the user can recognize that the remaining capacity of the hard disk 16 is small, stop the shooting before the remaining capacity of the hard disk 16 becomes zero, and cope with the unexpected shooting interruption in advance.
[0031]
As described above, in the embodiment shown in FIG. 1, during a period in which a mobile terminal device including a continuous data generation unit such as a video camera is outside the wireless communication service area, necessary data that cannot be transmitted is transferred to the mobile terminal. Temporarily save on the hard disk provided in the device, and when moving to the wireless communication service area, transfer the required data stored in the device to the other party, so that a series of required data is not lost. The continuous data generation unit can be used outside the wireless communication service area.
[0032]
Further, in the embodiment of FIG. 1, the remaining capacity alarm unit can be provided to avoid an unexpected shooting interruption when the remaining capacity of the hard disk becomes zero.
[0033]
[Configuration of other embodiments]
Next, another embodiment of the data communication apparatus according to the present invention will be described with reference to FIG.
[0034]
The configuration of another embodiment of the present invention is shown in FIG. In FIG. 2, parts corresponding to those in FIG.
[0035]
The data communication apparatus according to the embodiment of FIG. 2 is also composed of a data processing system 10A, a communication system 20A, and a control system 30, as in the above-described embodiment.
[0036]
In the data processing system 10A, the moving image data S11 from the video camera 11 provided with the CCD image pickup device is supplied to the MPEG2 video encoder 12, and the audio data S13 from the microphone 13 is supplied to the MPEG audio encoder 14.
[0037]
MPEG2 video packet S12 and MPEG audio packet 14 output from both encoders 12 and 14 are supplied to multiplexer 15.
[0038]
The above-described configuration is the same as that shown in FIG.
[0039]
In the embodiment of FIG. 2, the multiplexed packet data S15 output from the multiplexer 15 is supplied to the movable contact of the changeover switch 17. The a-side fixed contact of the switch 17 and the a-side fixed contact of the second changeover switch 18 are connected, and the d-side fixed contact of both the switches 17, 18 are the input terminal and output of the first-in first-out hard disk 16. Connected to each terminal. The movable contact of the switch 18 is connected to the input terminal of the transmission circuit 21.
[0040]
Further, in the communication system 20A of the embodiment of FIG. 2, the transmission circuit 21 and the out-of-service identification unit 24 are connected to the antenna 23 via a common circuit (not shown), and the output S24 of the identification unit 24 is It is supplied to the system control circuit 31.
[0041]
In the control system 30, control data is exchanged between the system control circuit 31 and the hard disk 16, and a control signal is supplied from the system control circuit 31 to the communication system 20 </ b> A and the remaining capacity alarm unit 32. A common switching control signal is supplied to both the switches 17 and 18.
[0042]
[Data transmission in other embodiments]
Next, data transmission according to the embodiment of FIG. 2 will be described.
[0043]
In the embodiment of FIG. 2, when the mobile terminal device is located within the service area of the nearest base station, predetermined control information is constantly transmitted from the base station through the control channel of the wireless line WL. The service area outside identification unit 24 of the communication system 20A determines, for example, whether or not the mobile terminal apparatus is located within the service area of the base station based on the strength of the electric field strength of the received control information.
[0044]
It is assumed that the hard disk 16 is blank in the initial state as in the above-described embodiment.
[0045]
In the embodiment of FIG. 2, when the mobile terminal device is located within the service area of the base station, the received control information has a strong electric field strength, and the identification unit 24 outputs an identification signal within the service area. Based on the control signal from the system control circuit 31 based on this area identification signal, the movable contacts of both the switches 17 and 18 are respectively connected to the a-side fixed contact as shown by the solid line in FIG.
[0046]
When shooting by the video camera 11 is started, the multiplexed packet data S15 output from the multiplexer 15 is supplied to the transmission circuit 21, transmitted to the server through the wireless line WL, and sequentially stored in the data storage unit. The
[0047]
When the mobile terminal apparatus moves and goes out of the service area of the base station, the electric field strength of the received control information becomes weak and an identification signal outside the service area is output from the identification unit 24. By the control signal from the system control circuit 31 based on the out-of-service identification signal and the control information corresponding to the data amount zero of the hard disk 16, the movable contacts of both the switches 17 and 18 are indicated by dotted lines in FIG. Each is switched to the d-side fixed contact, and the hard disk 16 is set to the write mode, and the multiplexed packet data S15 output from the multiplexer 15 is sequentially written to the hard disk 16.
[0048]
For example, when shooting by the video camera 11 is completed, the control information received when the mobile terminal device is further moved and returned to the service range of the base station after the shooting is finished, after the shooting is finished. Thus, the identification signal in the service area is output from the identification unit 24.
[0049]
The movable contacts of both the switches 17 and 18 are connected as shown by the dotted lines in FIG. 2 according to the control signal from the system control circuit 31 based on the area identification signal and the control information corresponding to the amount of data stored in the hard disk 16. At the same time, the hard disk 16 is switched to the transfer mode.
[0050]
Then, the multiplexed packet data S16 sequentially extracted from the hard disk 16 is transferred to the server through the transmission circuit 21 and the wireless line WL.
[0051]
On the server side, based on the time information embedded in the packet data, the packet data transmitted later is aligned with the previously transmitted packet data in time and stored in the data storage unit. Is done.
[0052]
For the time information for data alignment, for example, a PCR (Program Clock Reference) of MPEG2 transport stream packet is used.
[0053]
Further, if shooting outside the service area continues and the multiplexed packet data S15 continues to be stored in the hard disk 16, and the remaining capacity becomes zero, an unexpected shooting interruption will occur.
[0054]
In this embodiment, when the filling rate of the hard disk 16 exceeds a predetermined threshold, a control signal from the system control circuit 31 is supplied to the remaining capacity alarm unit 32, for example, a red lamp is turned on, or A buzzer sounds to alert the user that the remaining capacity of the hard disk 16 is low.
[0055]
As a result, the user can recognize that the remaining capacity of the hard disk 16 is small, and can stop shooting before the remaining capacity of the hard disk 16 becomes zero, thereby avoiding an unexpected interruption of shooting.
[0056]
As described above, in the embodiment of FIG. 2, a mobile terminal device including a continuous data generation unit such as a video camera is provided with a hard disk for storing data and a storage / transfer control means including a switch to move. When the terminal device is in the wireless communication service area, it transmits continuous data to the other party, and temporarily stores the required data that cannot be transmitted to the hard disk during the period outside the wireless communication service area, When moving to a wireless communication service area, by transferring the required data stored to the other party, a series of required data can be transferred to the other party almost immediately without omission, For example, it is possible to use the continuous data generation unit without being aware of the outside or the inside of the wireless communication service, for example, in a live broadcast where isochronism is required.
[0057]
In the embodiment of FIG. 2, the remaining capacity alarm unit is provided, and it is possible to avoid an unexpected interruption of shooting when the remaining capacity of the hard disk becomes zero.
[0058]
【The invention's effect】
As described above, according to the present invention, when the data communication apparatus moves inside and outside the wireless communication service area, a series of required data can be transferred to the other party without omission and out of the service area. When the period of time is long, it is possible to avoid a situation in which it becomes unusable.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a configuration of an embodiment of a data communication apparatus according to the present invention.
FIG. 2 is a block diagram showing a configuration of another embodiment of the present invention.
FIG. 3 is a block diagram for explaining the present invention.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 10,10A ... Data processing system, 11 ... Video camera, 12 ... Video encoder, 13 ... Microphone, 14 ... Audio encoder, 15 ... Multiplexer (multiplexer), 16 ... Hard disk, 17, 18 ... Changeover switch, 20, 20A ... Communication system, 21 ... Transmission circuit, 22 ... Confirmation signal receiving unit, 23 ... Antenna, 24 ... Out-of-service area identification unit, 30 ... Control system, 31 ... System control circuit (microcomputer), 32 ... Remaining capacity alarm unit

Claims (4)

Data recording means for recording input image data;
Wireless communication means for wirelessly performing data communication with a base station having a predetermined communicable range;
Communicable range identifying means for identifying the inside and outside of the communicable range;
Based on the identification result in the communicable range identification unit and the amount of data stored in the data recording unit, the image data is recorded in the data recording unit, and the image data is transmitted to the outside through the wireless communication unit. Control means for switching between,
Equipped with a,
The control means includes
When the communicable range identifying means identifies that the data is within the communicable range and the accumulated data amount of the data recording means is zero, the input image data is used as it is or the data recording means Sending to the outside through the wireless communication means through the storage unit,
When the communicable range identifying means identifies that the data is within the communicable range and the accumulated data amount of the data recording means is not zero, it records the input image data in the data recording means, and Control to send the image data stored in the data recording means to the outside,
When the communicable range identifying means identifies that the data is outside the communicable range, the input image data is recorded in the data recording means and the image data stored in the data recording means is read. Data communication device that controls to prohibit . A means for determining whether or not reception of a confirmation signal notifying completion of transmission of the image data from the outside with respect to transmission of the image data read out from the data recording means to the outside through the wireless communication means;
The control means includes
When the confirmation signal is received, the image data from the data recording unit is read out and transmitted to the outside through the wireless communication unit.
The data communication apparatus according to claim 1, wherein when the confirmation signal cannot be received, reading of the image data from the data recording unit is prohibited. The control means includes
The image data is recorded in the data recording unit based on an out-of-service identification signal identified as being out of the communicable range by the communicable range identifying unit and control information corresponding to zero stored data amount of the data recording unit. Switch to
Based on the range identification signal identified as being within the communicable range by the communicable range identifying means and the control information corresponding to the amount of data stored in the data recording means, the outside of the image data through the wireless communication means The data communication device according to claim 1, wherein the data communication device is switched so as to perform transmission. 4. The data communication apparatus according to claim 1, further comprising a remaining capacity notifying unit that notifies when the remaining capacity of the data recording unit is less than a predetermined value.

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