JP2002209242A - Data communication system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a wireless phone system that can inform a user about the end of a call in a regular operation without causing undesired waiting time processing. SOLUTION: A timing control circuit 22 detects the number of available channels included in a control signal sent from a base station and a terminal interface circuit 16 reduces an information transmission rate between voice terminals or data terminals. In the case that the number of available channels is deficient in other new base station at a zone change, data communication equipment continues communication with the other new base station through an available channel of the base station at the information transmission rate reduced by the terminal interface circuit 16.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a TDMA (Time Divis
ion Multiple Access) and CDMA (Code Division Multipl)
e Access) and other data communication devices in mobile radio.

[0002]

2. Description of the Related Art FIG. 3 shows a schematic configuration of a conventional TDMA type data communication apparatus. Hereinafter, the operation will be described. In FIG. 3, the transmitting side receives a voice or information to be transmitted from a data terminal into a transmission data conversion circuit 35 and adds a control signal or the like to form a frame. The signal is converted to a desired carrier frequency by the transmission circuit 37,
8 is transmitted. On the receiving side, the receiving antenna 3
The signal received at 1 is converted to a baseband signal at a receiving circuit 32, the baseband data is demodulated at a demodulation circuit 33, and separated into a control signal and voice or data by a reception data conversion circuit 34, and the voice or data terminal To obtain the desired information. The timing control circuit 39 controls all timings and sequences of the data communication device.

FIG. 4 shows a schematic configuration of a conventional CDMA data communication apparatus. Hereinafter, the operation will be described. In FIG. 4, on the transmitting side, information to be transmitted from a voice or a data terminal is input to a transmission data conversion circuit 46, a frame is formed by adding a control signal, etc. Then, after the code is spread by the spreading circuit 48, the signal is converted to a desired carrier frequency by the transmitting circuit 49 and transmitted from the transmitting antenna 50. On the receiving side, the signal received by the receiving antenna 41 is converted to a baseband signal by the receiving circuit 42, correlation is detected by the despreading circuit 43, and the baseband data is further demodulated by the demodulating circuit 44. Data conversion circuit 4
At 5, the control signal and voice or data are separated to obtain desired information at the voice or data terminal. The timing control circuit 51 controls all timings and sequences of the data communication device.

[0004]

However, in the TDMA system, the information that can be transmitted on one line is determined by the unit slot, and when transmitting data (high-speed data, image, etc.) exceeding the transmission rate determined by the unit slot, However, if multiple lines are used for transmission at the same time, but there are not enough available lines when you want to use multiple lines, there is a problem that data cannot be transmitted and a call loss occurs. there were. Similarly, in the case of the CDMA system, when there are insufficient available lines, data cannot be transmitted, and a call loss occurs. Furthermore, if the number of available lines during zone switching is insufficient, the zone switching of the data communication device has failed.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned conventional problems, and an object of the present invention is to provide an excellent data communication apparatus capable of reducing a call blocking rate when data exceeding one line of a system is transmitted. It is the purpose.

[0006]

SUMMARY OF THE INVENTION A data communication apparatus according to the present invention includes a detecting means for detecting the number of usable lines included in a control signal transmitted from a base station when transmitting using a plurality of lines. A communication unit capable of executing communication with the base station using a plurality of lines according to the detected number of lines, a zone switching unit for switching a base station of a communication destination, and according to the detected number of lines. Control means for reducing the information transmission rate, when the zone switching is performed by the zone switching means, when the number of lines available in another new base station is insufficient, the control means reduces the number. The communication with the another new base station is continued at the determined information transmission rate via a line usable by the base station.

Therefore, according to the present invention, when available lines are insufficient, by reducing the information transmission rate, the call loss rate of voice or data terminals can be reduced. Further, even when the number of available lines during zone switching is insufficient, by reducing the information transmission speed, it is possible to reduce the failure of the data communication device to switch zones.

[0008]

(Embodiment 1) FIG. 1 shows a first embodiment of the present invention.
FIG. 1 is a schematic block diagram of a TDMA data communication device showing an embodiment of FIG. In FIG. 1, 1 is a reception antenna, 2 is a reception circuit, 3 is a demodulation circuit, 4 is a reception data conversion circuit, 5 is a terminal interface circuit, 6 is a transmission data conversion circuit, 7 is a modulation circuit, 8 is a transmission circuit, 9 Is a transmitting antenna, and 10 is a timing control circuit.

Next, the operation of the first embodiment will be described. The transmitting side requests the number of lines to be used from the terminal interface circuit 5 according to the information transmitted from the voice or data terminal. This request is input to the timing control circuit 10 and transmitted as a control signal to the transmission data conversion circuit 6.
Is input to The transmission data conversion circuit 6 forms a frame by adding an input control signal and the like, modulates the signal by various modulation methods in the modulation circuit 7, converts the signal into a desired carrier frequency in the transmission circuit 8, and transmits the signal from the transmission antenna 9. Is done. On the receiving side, the signal received by the receiving antenna 1 is converted into a baseband signal by the receiving circuit 2, the baseband data is demodulated by the demodulating circuit 3, and the control signal and the voice or data are decoded by the receiving data converting circuit 4. To obtain the desired information in a voice or data terminal.

The timing control section 10 detects the number of usable lines from the received control signal from the base station and notifies the terminal interface circuit 5 of the number. When the number of usable lines is insufficient, the terminal interface circuit 5 outputs a request signal for reducing the information rate to a data terminal such as high-speed data. The data terminal notifies the terminal interface circuit 5 of a low-speed switching signal of the information transmission speed when the data terminal wants to switch to the low-speed rate and transmit even if it takes more time than the call loss. If the data to be transmitted is an image and transmission is desired even if the image quality is degraded, a low-speed switching signal of the information source coding rate is notified to the terminal interface circuit 5. Based on the switching signal, the terminal interface circuit 5
Transmit information over available lines. Timing control circuit 10 controls all timings and sequences of the data communication device.

Also, when the data communication apparatus issues a zone switching request to another base station at the time of zone switching, the information transmission speed is also reduced when the number of lines available to the other base station is insufficient. By performing (negotiation), it is possible to reduce a failure in zone switching due to a shortage of lines that can be used during high-speed data communication.

(Embodiment 2) FIG. 2 is a schematic block diagram of a CDMA data communication apparatus showing a second embodiment of the present invention. 2, 11 is a receiving antenna, 12 is a receiving circuit, 13 is a despreading circuit, 14 is a demodulation circuit, 15 is a reception data conversion circuit, 16 is a terminal interface circuit, 17 is a transmission data conversion circuit, 18 is a modulation circuit, 19 is a spreading circuit, 20 is a transmitting circuit, 21 is a transmitting antenna, and 22 is a timing control circuit.

Next, the operation of the second embodiment will be described. The transmitting side requests the number of lines to be used from the terminal interface circuit 16 according to the information transmitted from the voice or data terminal. This request is input to the timing control circuit 22 and is input to the transmission data conversion circuit 17 as a control signal. The transmission data conversion circuit 17 forms a frame by adding the input control signal and the like, and is modulated by various modulation methods in the modulation circuit 18, code-spread by the spreading circuit 19, and And transmitted from the transmitting antenna 21. On the receiving side, the signal received by the receiving antenna 11 is converted into a baseband signal by the receiving circuit 12, the correlation is detected by the despreading circuit 13, and the baseband data is demodulated by the demodulating circuit 14, and The control signal and voice or data are separated by the data conversion circuit 15,
Get desired information in voice or data terminal.

The timing control circuit 22 detects the number of usable lines from the received control signal from the base station and notifies the terminal interface circuit 16 of the number. When the number of usable lines is insufficient, the terminal interface circuit 16 outputs a request signal for reducing the information rate to a data terminal such as high-speed data. The data terminal notifies the terminal interface circuit 16 of a low-speed switching signal of the information transmission speed when it is desired to switch to the low-speed rate and transmit even if it takes more time than the call loss. If the data to be transmitted is an image and transmission is desired even if the image quality is degraded, a low-speed switching signal of the information source coding rate is transmitted to the terminal interface circuit 16.
Notify. Based on the switching signal, the terminal interface circuit 16 transmits information on an available line. The timing control circuit 22 controls all timings and sequences of the data communication device.

[0015] Further, when the data communication apparatus issues a zone switching request to another base station at the time of zone switching, if the number of available lines of the other base station is insufficient, the information transmission speed is reduced. By performing (negotiation), it is possible to reduce a failure in zone switching due to a shortage of lines that can be used during high-speed data communication.

[0016]

According to the present invention, as is apparent from the above embodiment, when the available lines are insufficient, the information transmission speed is reduced to reduce the call loss rate of voice or data terminals. In addition, even when the number of lines that can be used at the time of zone switching is insufficient, by reducing the information transmission speed, there is an effect that the failure of the mobile terminal to switch the zone can be reduced.

[Brief description of the drawings]

FIG. 1 is a schematic block diagram illustrating a configuration of a TDMA data communication device according to a first embodiment of the present invention.

FIG. 2 is a schematic block diagram illustrating a configuration of a CDMA data communication apparatus according to a second embodiment of the present invention.

FIG. 3 is a schematic block diagram showing the configuration of a conventional TDMA data communication device.

FIG. 4 is a schematic block diagram showing a configuration of a conventional CDMA data communication device.

[Explanation of symbols]

 REFERENCE SIGNS LIST 1 reception antenna 2 reception circuit 3 demodulation circuit 4 reception data conversion circuit 5 terminal interface circuit 6 transmission data conversion circuit 7 modulation circuit 8 transmission circuit 9 transmission antenna 10 timing control circuit 11 reception antenna 12 reception circuit 13 despreading circuit 14 demodulation circuit 15 Receive data conversion circuit 16 Terminal interface circuit 17 Transmission data conversion circuit 18 Modulation circuit 19 Diffusion circuit 20 Transmission circuit 21 Transmission antenna 22 Timing control circuit

 ──────────────────────────────────────────────────続 き Continued on the front page F term (reference) 5K028 BB06 CC02 HH00 RR03 5K067 BB01 BB21 CC04 CC10 EE02 EE10 EE24 GG01 GG11 JJ11 JJ39 JJ71 5K101 KK20 LL12 QQ11 TT00

Claims (3)

[Claims] When transmitting using a plurality of lines,
Detecting means for detecting the number of usable lines included in the control signal transmitted from the base station, and communication means capable of executing communication with the base station using a plurality of lines according to the detected number of lines; A zone switching unit for switching a base station of a communication destination, and a control unit for reducing an information transmission speed in accordance with the detected number of lines. When the number of lines that can be used in the base station is insufficient, communication with the other new base station is performed by a line that can be used in the base station at an information transmission rate reduced by the control unit. A data communication device characterized by continuing. 2. A method for reducing an information transmission rate in a voice terminal or a data terminal which performs information transmission using a plurality of lines with a base station, the method comprising the number of usable lines included in a control signal transmitted from the base station And performs communication with the base station using a plurality of lines in accordance with the detected number of lines, and can be used in another new base station at the time of zone switching for switching the communication destination base station. When the number of lines is insufficient, the information transmission rate is reduced according to the detected number of lines, and communication with the other new base station is performed by a line that can be used by the base station. A method for reducing an information transmission speed in a voice terminal or a data terminal, wherein the method is continued. 3. When transmitting using a plurality of lines,
Detecting means for detecting the number of usable lines included in a control signal transmitted from the base station, and communication means capable of executing communication with the base station using a plurality of lines according to the detected number of lines And zone control means for switching the base station of the communication destination, and control means for reducing the information transmission rate in accordance with the detected number of lines. Communication with the other new base station by a line available in the base station at an information transmission rate reduced by the control means when the number of lines available in the base station is insufficient. A data communication device,
A base station device that communicates with the data communication device by transmitting the control signal including the number of lines that can be allocated to the communication, and when starting communication with the data communication device by switching the zone of the communication terminal device, A base station apparatus, which communicates with the data communication apparatus via a line that can be used at a reduced information transmission speed.