JP2797574B2 - Data wireless communication system - Google Patents

Description

Description: FIELD OF THE INVENTION The present invention relates to a two-way data radio communication system, and more particularly to a communication system having multiplexed channels.

[Conventional technology]

2. Description of the Related Art Conventionally, channels are multiplexed in a multi-channel access two-way data wireless communication system configured between one or more base stations and a plurality of mobile terminals (mobile stations). The multiplexing scheme for the uplink channel from the base station to the base station and the multiplexing scheme for the downlink channel from the base station to the mobile terminal are set to the same scheme. That is, when the frequency division multiplexing method is adopted for the upstream channel, the frequency division multiplexing method is also adopted for the downstream channel. When the time-division multiplexing method is adopted for the uplink channel, the time-division multiplexing method is also adopted for the downlink channel.

[Problems to be solved by the invention]

In the conventional two-way data wireless communication system described above,
Since the respective multiplexing schemes of the uplink channel and the downlink channel between the base station and the mobile terminal are the same, the following problem occurs.

For example, when the frequency division multiplexing method is used for both of the uplink and downlink channels, the base station needs as many transmitters as the number of frequency multiplexes, so that the base station becomes large and the cost increases.

On the other hand, when the time division multiplexing method is used for both of the uplink and downlink channels, the power per bit decreases and the error rate increases because the data speed becomes faster when compared at the same transmission power. In addition, the data transmission time differs depending on the distance between the base station and the mobile terminal, and the uplink channel overlaps with the data from the adjacent mobile terminal on the time slot, resulting in an increase in the data error rate. To avoid this, make sure you have free time (Guard Ti
me) must be provided so that they do not overlap, which increases redundancy and reduces data transmission efficiency.

An object of the present invention is to provide a wireless communication system that solves the above-mentioned problem.

[Means for solving the problem]

The data radio communication system of the present invention performs communication multiplexed by a time division multiplex method on a downlink channel from a base station to a mobile terminal, and performs communication by a frequency division multiplex method on an uplink channel from a mobile terminal to a base station. ing.

That is, the base station comprises a transmission system including a time division channel multiplexing device connected to the downlink channel data line, a modulation device for modulating the time division multiplexed signal, and an amplifier for amplifying the modulation signal, A receiving system is constituted by a frequency division channel distributor and a plurality of demodulators connected to an up channel data line corresponding to each frequency.

Each of the plurality of mobile terminals includes a receiving unit corresponding to time division multiplexing and a transmitting unit for each channel frequency corresponding to the frequency division channel divider of the base station.

[Action]

In this configuration, since the time-division multiplexing method is adopted for the downlink channel, an increase in the number of base station transmitters for a plurality of mobile terminals is prevented. Further, since the frequency division multiplexing method is adopted for the uplink channel, it is possible to suppress an error rate from a mobile terminal having a low transmission output, and it is not necessary to have an idle time between slots to avoid data overlap.

〔Example〕

 Next, the present invention will be described with reference to the drawings.

FIG. 1 is a block diagram showing an embodiment of the present invention.
1 shows a data radio communication system having a plurality of channels and using a multi-channel access scheme in a channel assignment scheme. In the figure, reference numeral 1 denotes a radio base station of the system, and reference numerals 10 and 20 denote mobile terminals that perform radio communication with the radio base station 1, respectively.

The radio base station 1 has a downlink channel data line
A time-division channel multiplexing device 2 connected to 30, 31 is provided, and a modulator 3 and an amplifier 4 are connected to this to form a transmission system, which is connected to an antenna 5 via a duplexer 6. The duplexer 6 is connected to a frequency division channel distributor 9 and further connected to demodulators 7 and 8 to form a receiving system. These demodulators 7 and 8 are connected to the upstream channel data lines 32 and Connected to 33.

The mobile terminal 10 has a duplexer 12 connected to an antenna 11, and a transmitter 13 and a receiver 14 connected to the duplexer 12. Similarly, the mobile terminal 20 has a transmitting unit 23 and a receiving unit 24 connected to an antenna 21 via a duplexer 22.

In this system, for example, bidirectional data communication is performed with the mobile terminal 10 through the downlink channel data line 30 and the uplink channel data line 32, and bidirectional data communication with the mobile terminal 20 is performed through the downlink channel data line 31 and the uplink channel data line 33. Can be. The data input from the downlink channel data lines 30 and 31 are time-division multiplexed by the time-division channel multiplexing device 2, modulated by the modulation device 3, amplified by the amplifier 4 to a predetermined level, and transmitted from the antenna 5. You.

Each of the mobile terminals 10 and 20 receives and recognizes the time-division multiplexed downlink signal at the timing of data for itself. The uplink signals are transmitted from the mobile terminals 10 and 20 according to the frequencies assigned to them, that is, in a state where they are frequency division multiplexed.

The base station 1 receives the frequency-division multiplexed uplink signal, distributes the frequency-division multiplexed signal to the frequency corresponding to each channel by the frequency division channel distributor 9, and demodulates the channel signal by the demodulators 7 and 8 for each channel. Output data to lines 32 and 33.

Therefore, in this system, communication is performed by multiplexing signals from the base station 1 to the mobile terminals 10 and 20 in a time division manner, and conversely, from the mobile terminals 10 and 20 to the base station 1 by frequency division. Multiplexed communication will be performed. By using the time-division multiplexing method only for the downlink channel, only one transmitter of the base station 1 requiring a large output is required. Although frequency division multiplexing is used for uplink channels, since the mobile terminals 10 and 20 do not require a plurality of channels at the same time, the number of transmitters is not increased by frequency division multiplexing.

Further, regarding the error rate, by using only the uplink channel in the frequency division multiplexing scheme, the error rate from the mobile terminals 10 and 20 having a low transmission output can be suppressed. This error rate is suppressed because the station can have a sufficient transmission output.

Further, an idle time between slots for avoiding data overlap due to a difference in distance between the base station 1 and the mobile terminals 10 and 20 is not necessary because the uplink channel is a frequency division multiplexing system. The downlink channel is a time-division multiplexing system, but the mobile terminals 10 and 20 can basically regard the base station 1 as one, so there is no need for idle time between slots in principle, and data transmission efficiency can be improved.

〔The invention's effect〕

As described above, the present invention employs the time division multiplexing method for the downlink channel and the frequency division multiplexing method for the uplink channel between the base station and the mobile terminal mobilely operated for the base station. Therefore, an increase in the number of transmitters of the base station can be prevented, and miniaturization and cost reduction can be achieved. Further, by using the frequency division multiplexing method only for the uplink channel, the error rate from a mobile terminal having a low transmission output can be suppressed. Furthermore, by employing this uplink channel, the time between slots for avoiding data overlap due to the difference in the distance between the base station and the mobile terminal becomes unnecessary, and the data transmission efficiency can be improved.

[Brief description of the drawings]

FIG. 1 is a block diagram of one embodiment of the data radio communication system of the present invention. 1 ... base station, 2 ... time division channel multiplexer, 3 ...
... A modulator, 4 an amplifier, 5 an antenna, 6 a duplexer, 7, 8 a demodulator, 9 a frequency division channel splitter, 10, 20 a mobile terminal, 11, 21 …antenna,
12,22 ... duplexer, 13,23 ... transmission unit, 14,24 ... reception unit, 30,31 ... downlink channel data line, 32,33 ...
… Up channel data line.

Claims (3)

(57) [Claims] 1. A data radio communication system using a multi-channel access system, comprising one or more base stations and a plurality of mobile terminals movably operated with respect to said base station, comprising: A data radio communication system characterized by performing communication multiplexed by a time division multiplexing method on a downlink channel to a mobile station and performing communication by a frequency division multiplexing method on an uplink channel from a mobile terminal to a base station. 2. The transmission system according to claim 1, wherein the base station includes a time division multiplexing device connected to the downlink channel data line, a modulation device for modulating the time division multiplexed signal, and an amplifier for amplifying the modulation signal. 2. The data wireless communication according to claim 1, wherein the receiving system comprises a frequency division channel splitter and a plurality of demodulators connected to the upstream channel data line corresponding to each frequency. method. 3. The mobile terminal according to claim 1, wherein the plurality of mobile terminals include a receiving unit corresponding to time division multiplexing and a transmitting unit for each channel frequency corresponding to a frequency division channel divider of the base station. 3. The data wireless communication system according to claim 1.