JP3136884B2 - Digital mobile communication system and data transmission method - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a system and method for transmitting data using a modem or a terminal adapter in digital mobile communication, and more particularly, to a method for setting an interface between a mobile station and a terminal without installing a modem or the like in the mobile station. The present invention relates to a digital mobile communication system serving as an interface and a data transmission method.

[0002]

2. Description of the Related Art A data transmission method in a conventional digital mobile communication system is as shown in FIG. A case where data is transmitted from the data terminal of the mobile station to the data terminal on the fixed network side will be described with reference to FIG. The mobile station-side data terminal 1 transmits data to the mobile station modem 2 as digital signals. The modem 2 of the mobile station modulates the digital signal and transmits an analog signal to the data transmission circuit 4 of the mobile device 5. The data transmission circuit 4 has a modem 3, receives the analog signal by the modem 3, converts the analog signal into a digital signal, and then performs error correction, coding, and the like to form a digital radio signal frame for mobile communication. Output. Mobile machine 5, that sends to the base station 6 modulates the digital radio signal for the mobile communication. Group Chikyoku 6 transmits demodulates the digital radio signal for the mobile communication to the control station 7. The exchange 8 of the control station 7 discriminates whether the digital radio signal for mobile communication is a voice signal or a data signal, and outputs the digital radio signal for mobile communication to the data transmission device 9 in the case of a data signal. The data transmission device 9
It has a modem 10, decodes the digital radio signal for mobile communication, modulates it by the modem 10, and transmits an analog signal via the public network 11 to the modem 12 on the fixed network side. The modem 12 on the fixed network demodulates the analog signal and transmits a digital signal to the data terminal 13 on the fixed network. According to the above procedure , data is transmitted from the modem 2 of the mobile station to the modem 12 on the fixed network side. In this case, four modems 2, 3, 10, and 12 are inserted into the communication line. When the mobile stations perform data communication, a modem of the data transmission device is connected to the end of the public network 11 and six modems are inserted between the mobile station and the data terminal. It should be noted that a voice transmission device having a voice processing function is required separately from the data transmission device for voice signal transmission.

Next, an initial procedure for establishing data communication will be described with reference to FIG. As shown in FIG.
Channel switching is realized by a channel switching switch 22 installed on the base station side from the data transmission device 9. Here, a case where the mobile station 5 switches channels from the base stations 61 to 62 will be described. Before the channel switching, the channel changeover switch 22 connects the communication line to the exchange 81, and the digital radio signal for mobile communication transmitted by the mobile station 5 passes through the base station 61 and the exchange 81 to the data transmission device 9. It is connected to the. At the time of channel switching, the channel switching switch switches the communication line to the exchange 82. After the channel switching, the digital radio signal for mobile communication transmitted by the mobile device 5 passes through the base station 62 and the exchange 82 to the data transmission device 9
Connected to. As described above, in the conventional data transmission method in digital mobile communication, a data terminal and a mobile device are connected by an analog interface via a modem, and the type of the modem is fixed. In addition, as many as four (for mobile station-to-fixed network communication) or six (for mobile station-to-mobile communication) modems are inserted into a communication line. The initial procedure for establishing data communication is realized using a control line. Further, the channel switching is realized by a channel switching switch provided on the base station side from the data transmission device.

[0004] Incidentally, regarding this type of method,
For example, there is JP-A-4-104529. In this method, means for designating the transmission speed on the mobile station side and the base station side, means for automatically selecting a modem to be used in a wired system from a modem pool installed on the base station side, and automatic switching of voice / data Means and a data packetizing means for unifying communications on a wireless network, and
DCE connected to CE and digital cellular network
It is trying to realize a system that performs data communication between them transparently. The data transmission device on the base station side is located closer to the base station side than the exchange (MSL), and the selection of the modem is controlled by the terminal (external switch).

[0005]

The prior art shown in FIGS. 2 and 3 has the following problems (1) to (6). (1) Since the data terminal and the mobile unit are connected via a modem, the modem 2 on the mobile station side and the modem 12 on the fixed network side
Is the modem 3 provided in the data transmission circuit 4 of the mobile device 5,
Also, it must be the same as the modem 10 of the data transmission device 9, and the modem cannot be freely selected. (2) Four or six modems are inserted into the communication line,
The reliability is reduced, the delay time is increased, and the like. (3) Data communication using digital signals using a terminal adapter or the like cannot be performed. (4) Since an initial procedure for establishing data communication uses a control line, the load on the control line increases and the processing amount of the control station increases. (5) It is difficult to match the timing of channel switching in the wireless section with the timing of switching of the channel switch. Data is lost in the wireless section, and retransmission is performed. (6) A voice transmission device having a voice processing function is required separately from the data transmission device, which makes it difficult to achieve economics and increases the processing amount of the control station. The technique described in Japanese Patent Application Laid-Open No. 4-104529 has the following problem. (1) Since the data transmission device is closer to the base station than the exchange, a configuration for supporting channel switching (handover) due to movement of the mobile device is required. (2) When selecting a modem in the modem pool, it is controlled by a terminal (external switch).
The hardware configuration becomes complicated, and it is necessary for the mobile station to be aware of the modem type, function, and the like. Further, no consideration is given to a method of automatically selecting a modem according to the line quality and improving the throughput. (3) No consideration is given to a method for improving the throughput. (4) No consideration is given to data loss at the time of channel switching by the mobile device. (5) No consideration is given to transmission delay and reliability in data communication between mobile stations.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a mobile station without a modem, connecting a data terminal of the mobile station to the mobile station by a digital interface, preparing a plurality of modems in a data transmission device of a control station, and freely setting up a modem. Selectable, always reduce the number of modems inserted into the communication line to two or less, improve reliability, reduce delay time, and perform initial procedures for establishing data communication without using a control channel. An apparatus having both a data signal processing function and a voice signal processing function is to perform in a channel, not to impose a burden on a control line and a control station, to improve a throughput by transmitting a data compressed signal in a wireless section. By using it, control station equipment can be made economical and processing amount can be reduced, and both old and new channels can be used when switching channels in a wireless section. Connected to feeder, the data transmission device detects the timing of precise channel switching from the received signal to provide a digital mobile communication system and a data transmission method capable of suppressing the missing data to a minimum.

[0007]

In order to achieve the above object, a digital mobile communication system according to the present invention includes a mobile station, which is provided with either a data terminal, a modem or a terminal adapter.
Receiving a Kano control signals and data signals, means for transmitting to the base station forms a frame of the digital radio signal for mobile communications (14 in FIG. 1), receives the digital radio signal for mobile communications from the base station And the base station modem or terminator
Means for decoding a control signal and a data signal output from one of the null adapters and transmitting the decoded signal to the data terminal (1 in FIG. 1)
4) the base station (6 in FIG. 1) includes means for receiving the digital radio signal from the mobile station, demodulating the signal, and transmitting the demodulated signal to the control station;
Means for composing a frame of a digital radio signal for mobile communication and transmitting the frame to the mobile station. The exchange (8 in FIG. 1) of the control station determines whether or not the mobile station is performing data communication. And a means for connecting a data transmission device to a communication line in the case of data communication. The data transmission device (15 in FIG. 1) of the control station is arranged on the public network side from the exchange. Has multiple modems and terminals
An adapter (17, 18 in FIG. 1) and means for receiving a digital signal, decoding a control signal and a data signal, and selecting one to be used from among a plurality of modems and terminal adapters (16, 19 in FIG. 1). ) And the selected modem
Or a means for controlling by a control signal either the terminal adapter (19 in FIG. 1), 該Mo dem or terminal adapter
And means (16 in FIG. 1) to be transmitted to the mobile station either to output to the data terminal of the mobile station control signals and data signals through to the coding control station and the base station of the data, the modem or data
A data signal either over Terminal adapter output to a fixed data terminal, via a public network, have a means for transmitting to the 該De over data terminal (19 in FIG. 1), data of the mobile station
Data communication between the data terminal and the fixed data terminal.
Control signal from either the modem or the terminal adapter.
The mobile station and the control station.
Control signal transmission and reception between
It is characterized by. Also, the data transmission method of the present invention
Between the mobile station data terminal and the fixed data terminal
When performing data communication, the data transmission device is fixed.
Data terminal modem or terminal adapter
Of the fixed data terminal model in the link establishment procedure
From the signal sent by either the
Fixed data terminal modem or terminal adapter
Identify any type and use the modem or terminal
It is characterized in that one of the adapters is determined. Ma
Between the mobile station data terminal and the fixed data terminal
When performing data communication, the data transmission device must be a base station.
Receive either reception level information or line quality information from
Or estimating the line quality from the frequency of information channel error detection
Do you know what modem or terminal adapter to use
And the transmission speed is determined.
You. In addition, mobile station data terminals and fixed data terminals
When data communication is performed between terminals,
When switching, both the old channel and the new channel
Transmission device, and the data transmission device receives from the base station.
Detecting optimal timing for channel switching from signals
It is characterized by.

[0008]

According to the present invention, no modem is provided in the mobile station.
The data terminal of the mobile station and the mobile device are connected by a digital interface, a plurality of modems are prepared in the data transmission device of the control station, and the selection and control of the modem and the like are performed by a control signal from the mobile station. Therefore, the reliability can be improved and the delay time can be reduced. Also, the mobile station
By transmitting the modem control signal on the information channel and directly transmitting and receiving the control signal between the mobile station and the data transmission device of the control station, the control line and the control station are not burdened. Further, the data transmission device, from the signal transmitted by the modem and the like used by the fixed network data terminal in the link establishment procedure with the modem and the like used by the fixed network data terminal,
By identifying the type of the modem or the like and determining the modem or the like to be used, reliability can be improved. Also,
The data transmission apparatus receives line quality information such as reception level information or an error rate from a base station, or estimates line quality from the frequency of error detection of an information channel, and selects a modem or the like to be used and determines the transmission speed of the modem or the like. By determining, reliability can be improved. In the wireless section, since a data-compressed signal is transmitted, the throughput can be improved. Also, by connecting both the old channel and the new channel to the data transmission device at the time of channel switching in the wireless section, the data transmission device accurately detects the timing of channel switching and switches the partner data terminal to the modem or the like for channel switching. Data loss can be minimized without causing an accompanying instantaneous interruption. Further, the data transmission device maps the digital control signal in the output signal on the public network side and transmits the digital control signal, and when receiving the digital control signal from the public network side, determines that the communication partner is the data transmission device, Data signals and control signals to be transmitted thereafter are transmitted and received via the public network as digital signals without using a modem or the like, so that in the case of communication between mobile stations, the number of modems inserted into the communication line is reduced to zero. can do. Further, the control station connects all communication lines to the data transmission device regardless of voice communication and data communication, and the data transmission device includes a plurality of modems and the like in its own device.
One of ODECs is selected, and voice communication or data communication is performed between the mobile station terminal and the fixed network terminal. As a result, the control station can be made economical and the amount of processing can be reduced.

[0009]

An embodiment of the present invention will be described below with reference to the drawings. First, a case where data is transmitted from a data terminal on the mobile station side to a data terminal on the fixed network side will be described with reference to FIG. FIG. 1 is a diagram showing a data transmission method in digital mobile communication according to one embodiment of the present invention. In this embodiment, the data terminal 1 of the mobile station transmits data as a digital signal to the data transmission circuit 14 of the mobile device 5 without passing through a modem. The data transmission circuit 14 performs data compression, error correction coding, and the like, and forms and outputs a frame of a digital radio signal for mobile communication. On the other hand, the mobile device 5 modulates the digital radio signal for mobile communication and transmits it to the base station 6. The base station 6 demodulates the digital radio signal for mobile communication and transmits it to the control station 7. The exchange of the control station 7 discriminates whether the digital radio signal for mobile communication is a voice signal or a data signal, and outputs the digital radio signal for mobile communication to the data transmission device 15 if it is a data signal. Therefore, the number of modems inserted into the communication line is two for mobile station-to-fixed network communication, and zero for mobile station-to-mobile communication.

The data transmission device 15 comprises a radio signal processing unit 16, a modem unit 17, a terminal adapter unit 18, and a control unit 19. The radio signal processing unit 16 inputs the digital radio signal for mobile communication, performs error correction code decoding, ARQ processing, decompresses data compression, etc., outputs a control signal to the control unit 19, and outputs a data signal to the control unit. 19
To select the designated modem or terminal adapter, and control the radio signal processing unit 16, the modem unit 17, and the terminal adapter unit 18. The modem selected in this manner modulates the data signal and transmits it to the fixed network-side modem 12 via the public network 11. When the control unit 19 selects a terminal adapter, the selected terminal adapter transmits a data signal to the fixed network terminal adapter 21 via the ISDN network 20. The same applies to the case where data is transmitted from a fixed network side data terminal to a mobile station data terminal.

In this embodiment, selection and control of a modem are performed using an information channel after a communication line is established. Therefore, the control signal and the data signal are mixed in the information channel. In order to distinguish between them, it is effective to provide a bit for identifying the control signal and the data signal in the header of the information channel or to add a unique word to the control signal. Further, a voice CODEC may be arranged in the data transmission device 15 in parallel with the modem and the terminal adapter. That is, the exchange 8 connects all communication lines to the data transmission device irrespective of voice communication and data communication, and the data transmission device 15 transmits a control signal from the mobile station mapped to the information channel or a control signal from the exchange. To select one from a plurality of modems, terminal adapters, and voice codecs. In this case, it is not necessary to use the voice CODEC as a separate device, which is effective in simplifying the system configuration and reducing the cost. The data transmission device 15 can identify the type of the signal received from the fixed network side modem or the like based on the modulation method and transmission speed of the signal. The modem or the like used by the data transmission device 15 may be determined based on this information. Further, the data transmission device 15 sends a specific control signal predetermined in advance to the public network 11 prior to the first modem signal at the start of communication.
When the control signal is received from the public network 11 and the communication partner is another data transmission device and data communication between mobile stations is identified, the communication is received from the base station 6 without using a modem. It is also effective to transmit or receive a digital signal as it is or perform only error correction and transmit and receive it as a digital signal via a public network. With this method, it is possible to reduce the transmission delay and improve the reliability. Also, the base station 6
The digital radio signal for mobile communication is demodulated and transmitted to the control station 7. If, in addition to the demodulated signal, reception level information or line quality information such as an error detection frequency or determination information is transmitted, the data transmission device 15 can transmit the information. Can be used to perform higher quality decoding. In the data transmission device 15,
It is also effective to estimate the line quality and the effective transmission speed in the wireless section from the quality information and the error detection frequency of the information channel, and determine the type of modem to be used and the transmission speed.

Next, a case where a mobile station switches channels to a base station will be described. FIG. 4 is a diagram illustrating a channel switching method in the data transmission method according to one embodiment of the present invention. In this embodiment, the digital radio signal for mobile communication transmitted by the mobile device 5 before the channel switching is transmitted to the base station 6.
1. It is connected to the data transmission device 15 via the exchange 81. Immediately before channel switching, both the output of the exchange 81 and the output of the exchange 82 are connected to the data transmission device 15. At this time, the data transmission device 15 checks both the output signal of the exchange 81 and the output signal of the exchange 82, accurately detects the channel switching timing, and outputs the data to the public network without data loss. As a method of detecting the timing of channel switching, specifically, error detection of an information channel, wireless synchronization information from a base station, reception level information, and the like can be considered. The wireless synchronization information is information indicating whether or not the base station is in synchronization with a wireless signal from the mobile device. For example, the data transmission device 15 outputs data from the base station 61 to the public network 11 while the signal from the base station 61 is in a synchronization established state, and outputs a dummy signal to the public network when the signal from the base station 61 is out of synchronization. The data is output to the network 11, and when the signal from the base station 62 is synchronized, the data from the base station 62 is output to the public network 11. In this manner, the loss of the uplink data signal can be suppressed to only the time required for the mobile station to switch channels. During this time, the data transmission device 15 outputs the data received from the public network 11 to both the base stations 61 and 62. With this configuration, since the mobile device 5 can receive the downlink data signal immediately after the channel switching, the loss of the downlink data signal can be suppressed to only the time required for the mobile device to switch the channel. After the channel switching, only the output of the exchange 82 is output to the data transmission device 15. Since the data transmission device 15 is located closer to the public network 11 than the exchanges 81 and 82, a special configuration for supporting handover is unnecessary.

[0013]

According to the present invention, in a digital mobile communication system, a modem is not provided in a mobile station, a data terminal of the mobile station is connected to a mobile device by a digital interface, and a plurality of modems are connected to a data transmission device of a control station. Prepare and freely select a modem. Set the number of modems to be inserted into the communication line to 2 (for mobile station-to-fixed network communication) or 0 (for mobile station-to-mobile communication), and to improve reliability. To reduce the delay time, to perform the initial procedure for establishing data communication on the information channel without using the control channel, and not to burden the control line and control station. By using a device having both a data signal processing function and a voice signal processing function to improve throughput by transmitting, economical control station equipment and reduction in processing amount can be achieved. When the channel is switched in the wireless section, both the old channel and the new channel are connected to the data transmission device, and the data transmission device accurately detects the channel switching timing from the received signal and minimizes data loss. be able to.

[Brief description of the drawings]

FIG. 1 is a diagram showing a data transmission method in a digital mobile communication system according to one embodiment of the present invention.

FIG. 2 is a diagram illustrating a data transmission method in a conventional digital mobile communication system.

FIG. 3 is a diagram showing a channel switching method in a data transmission method of a conventional digital mobile communication system.

FIG. 4 is a diagram showing a channel switching method in the data transmission method of the digital mobile communication system according to one embodiment of the present invention.

[Explanation of symbols]

 Reference Signs List 1 data terminal 2 modem 3 modem 4 data transmission circuit 5 mobile device 6 base station 7 control station 8 exchange 9 data transmission device 10 modem 11 public network 12 modem 13 data terminal 14 data transmission circuit 15 data transmission device 16 wireless signal processing unit 17 Modem section 18 Terminal adapter section 19 Control section 20 ISDN network 21 Data terminal 22 Channel switch 61 Base station 62 Base station 81 Switch 82 Switch

────────────────────────────────────────────────── ─── Continuation of the front page (56) References JP-A-4-104529 (JP, A) JP-A-3-171860 (JP, A) JP-A-5-31431 (JP, U) (58) Field (Int.Cl. ⁷ , DB name) H04B ^7/ 24-7/26 H04Q ⁷ /04-7/38

Claims (4)

(57) [Claims] 1. A mobile station having a data terminal and a mobile station connected to the data terminal, a base station having a radio communication function with the mobile station, an exchange and a data base connected to the base station and a public network. In a digital mobile communication system comprising a control station consisting of a transmission device and a fixed data terminal connected to a public network via either a modem or a terminal adapter, a mobile station is connected to a modem or terminal from a data terminal. Means for receiving a control signal and a data signal for controlling any of the adapters, constructing a frame of a digital radio signal for mobile communication and transmitting the frame to a base station, and transmitting a digital radio signal for mobile communication from the base station. Receives and decodes control and data signals output by either the base station modem or terminal adapter and sends them to the data terminal A base station for receiving the digital radio signal from the mobile station, demodulating and transmitting the digital radio signal to the control station, receiving the digital signal from the control station, and forming a frame of the digital radio signal for mobile communication. And a means for transmitting to the mobile station, wherein the exchange of the control station detects whether or not the mobile station is performing data communication, and in the case of data communication, connects the data transmission device to a communication line. A data transmission device is arranged on the public network side of the exchange, receives a plurality of modems and terminal adapters, receives digital signals and decodes control signals and data signals, and Means for selecting one of the modem and the terminal adapter to be used; means for controlling either the selected modem or the terminal adapter by a control signal; Means for encoding a control signal and a data signal output by any of the terminal adapters to the data terminal of the mobile station, and transmitting the encoded data to the mobile station via the control station and the base station; and data for which the modem or the terminal adapter is fixed. Means for transmitting a data signal to be output to the terminal to the data terminal via a public network, and when performing data communication between the data terminal of the mobile station and a fixed data terminal, a modem or a terminal adapter. A digital mobile communication system characterized by transmitting any control signal using an information channel, and directly transmitting and receiving a control signal between a mobile station and a data transmission device of the control station. 2. A data transmission method using a digital mobile communication system according to claim 1, wherein when performing data communication between a data terminal of the mobile station and a fixed data terminal, the data transmission device is fixed. During the procedure for establishing a link with either the modem or the terminal adapter of the data terminal, the signal transmitted by the modem or the terminal adapter of the fixed data terminal is used to determine whether the modem or the terminal adapter of the fixed data terminal. A data transmission method characterized in that the type of the data is identified and a modem or a terminal adapter to be used is determined. 3. A data transmission method using a digital mobile communication system according to claim 1, wherein when data communication is performed between a data terminal of the mobile station and a fixed data terminal, the data transmission apparatus includes a base station. To select either the modem or the terminal adapter to be used and to determine the transmission speed by receiving either the reception level information or the line quality information from the network or estimating the line quality from the frequency of error detection of the information channel. A data transmission method characterized by the above-mentioned. 4. A data transmission method using a digital mobile communication system according to claim 1, wherein when data communication is performed between a data terminal of the mobile station and a fixed data terminal, at the time of channel switching in a radio section, A data transmission method, wherein both an old channel and a new channel are connected to a data transmission device, and the data transmission device detects an optimal timing of channel switching from a received signal from a base station.