JPH07336284A - Reserving device for transmission of radio communication - Google Patents

Abstract

PURPOSE:To improve the line efficiency as to the transmission reservation device for a radio communication system wherein a base station specifies time slots respectively on the basis of transmission reservations from respective terminal stations and the respective terminal stations send data with the time slots specified for themselves. CONSTITUTION:When one terminal station 1 is to send data, its reservation signal transmitting means 1a sends a reservation signal consisting of a carrier to a base station 3 in the period of a reserved time slot previously assigned to the terminal station 1. A discriminating means 3a receives the reservation signal and discriminates a terminal station 2 that desires to send data on the basis of at least the position of the reserved time slot with which the reservation signal is sent. Then a specification signal transmitting means 3b sends a specification signal specifying the sent time slot which the data should be transmitted to the terminal station that the discriminating means 3a discriminates. A data transmitting means 1b receives the specification signal sent from the specification signal transmitting means 3b to the terminal station 1 and sends the data from the terminal station 1 with the sent time slot specified with the specification signal.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION In the present invention, a base station specifies a time slot based on a transmission reservation from each terminal station,
Each terminal station relates to a transmission reservation apparatus in a wireless communication system in which data is transmitted by mounting data in a time slot designated by the terminal station, and in particular, data collected sporadically from a large number of terminal stations is collected by a collection station (base station). ) Relates to a transmission reservation device for efficiently collecting data in a short time.

[0002] For example, in the training of the Self-Defense Forces, a communication system for collecting data on the situation of troop members in real time from a terminal station which is carried by the member, and a wide variety of data transmitted from each terminal station In a communication system that collects data of different lengths, it is desired to realize a wireless communication multi-access system with excellent line efficiency.

[0003]

2. Description of the Related Art In a wireless communication transmission reservation system, when a terminal station transmits data to a data collection station, it is necessary to have the data collection station specify a time slot for data transmission (random time slot reservation system). ),
Conventionally, in this designation, the terminal number of its own station is mounted in a pre-allocated time slot for reservation and a designation request is transmitted to the data collection station, whereby the data collection station designates a time slot for data transmission. In response to this, the data is loaded into the designated data transmission time slot and transmitted to the data collection station.

[0004]

However, as many time slots as the number of terminal stations are prepared as the time slots for reservation, and one time slot consists of, for example, 2 bytes, so that the number of terminal stations is If there are many (usually several hundred
There was a problem that the station took too much time to make a reservation and the line efficiency was not good.

Further, there is a method of allocating two terminal stations to one reservation time slot in order to improve such poor line efficiency. In this method, two terminal stations are simultaneously allocated to one reservation time slot. There may be a case (reservation collision) of issuing a request for reservation, and when such a reservation collision occurs, one of the two terminal stations shifts the position of the reservation time slot according to a predetermined rule and makes another reservation request. I am trying to do it. However, there is a problem that the line efficiency is returned to its original value when a reservation collision occurs in order to request the designation again.

Further, since the length of the data transmission time slot is matched with the maximum length data among the data handled by each terminal station, there is a problem that the line efficiency is poor when short data is transmitted frequently. there were.

The present invention has been made in view of the above circumstances, and an object thereof is to provide a radio communication transmission reservation apparatus for improving line efficiency.

[0008]

In order to achieve the above object, the present invention is provided in each terminal station 1 and 2 as shown in FIG. 1, and when the terminal station 1 wants to transmit data, Reservation signal transmitting means 1a for transmitting a reservation signal composed of a carrier to the base station 3 during a reservation time slot pre-allocated to the terminal station 1, and at least the reception signal provided in the base station 3 for receiving the reservation signal, Identification means 3a for identifying a terminal station desiring to transmit data based on the position of the reserved time slot in which the received reservation signal is transmitted, and a terminal station provided in the base station 3 and identified by the identification means 3a. To
Designating signal transmitting means 3b for transmitting a designating signal designating a transmission time slot in which data is to be transmitted, and each terminal station
Data provided in No. 2 for receiving the designated signal directed to the own terminal station 1 from the designated signal transmitting means 3b, and mounting and transmitting the data from the own terminal station 1 in the transmission time slot designated by the designated signal. A wireless communication transmission reservation apparatus is provided, which comprises: a transmitting unit 1b.

Further, the reservation signal transmitting means 1a is the carrier which the reservation signal transmitting means of another terminal station transmits when the reservation time slot assigned to the own terminal station 1 is also assigned to another terminal station. The carriers having different frequencies are transmitted, and the identification unit 3a detects the frequencies of the carriers forming the received reservation signal, and based on the detected frequency and the position of the reservation time slot in which the reservation signal is transmitted,
Identify the terminal station that wants to send data.

Further, the data transmitted by the data transmitting means 1a has a plurality of types of lengths, and the transmission time slot has a unit length equal to or shorter than the length of the shortest data among the data, and the designation signal transmitting means is provided. 3b transmits to the terminal station identified by the identifying means 3a a designation signal for designating a number of transmission time slots according to the length of the data that the terminal station desires to transmit.

[0011]

With the above configuration, the reservation signal transmitting means 1 can be used when data is to be transmitted from the own terminal station 1.
a transmits a reservation signal composed of a carrier to the base station 3 during a reservation time slot pre-allocated to the terminal station 1. The identification means 3a receives this reservation signal,
At least, the terminal station desiring to transmit data is identified based on the position of the reserved time slot in which the reservation signal is transmitted. That is, even if the reservation signal is a mere carrier, the position of the reserved time slot to which the carrier is sent is assigned to a specific terminal station in advance. The terminal station desired to send can be identified.

Next, the designation signal transmitting means 3b transmits a designation signal designating a transmission time slot in which data is to be transmitted, to the terminal station identified by the identifying means 3a. The data transmitting means 1b receives the designation signal directed to the own terminal station 1 from the designation signal transmitting means 3b, and carries the data from the own terminal station 1 in the transmission time slot designated by the designation signal and transmits the data. To do so.

Since one bit is enough for the reserved time slot in which the reserved signal composed of the carrier is transmitted,
The length of the reserved time slot is reduced to 1/16, and the line efficiency is greatly improved, as compared with the conventional reserved time slot that requires, for example, 2 bytes.

When the reserved time slot assigned to the own terminal station 1 is also assigned to another terminal station, the reserved signal transmitting means 1a is the carrier transmitted by the reserved signal transmitting means of the other terminal station. By transmitting the carriers having different frequencies, the identification unit 3a detects the frequency of the carrier that constitutes the received reservation signal, and based on the detected frequency and the position of the reservation time slot in which the reservation signal is transmitted, Identify the terminal station that wants to send data. That is, even if a plurality of reservation signals are transmitted at the same time in the same reservation time slot, they can be distinguished from each other because the frequencies of the carriers that make up the reservation signals are different. The terminal station can be identified with certainty. As a result, even if a plurality of terminal stations are assigned to one reserved time slot, the line efficiency does not decrease.

Further, when the data transmitted by the data transmitting means 1a has a plurality of types of lengths, the transmission time slot has a unit length equal to or shorter than the length of the shortest data of the data. Designated signal transmission means 3b
Sends to the terminal station identified by the identifying means 3a a designation signal that designates a number of transmission time slots according to the length of data that the terminal station desires to transmit. That is, by combining a plurality of transmission time slots each having a unit length, a time slot suitable for the length of data that the terminal station desires to transmit is prepared, thereby realizing wasteful data transmission and Efficiency is improved.

[0016]

Embodiments of the present invention will be described below with reference to the drawings. First, the first embodiment will be described.

FIG. 2 is a block diagram showing the configuration of the terminal station of the first embodiment. A plurality of terminal stations are provided, and the internal configuration of each is, as shown in FIG. 2, an antenna 10, a transmission / reception switching unit 11, a receiving unit 12, a transmitting unit 13, and a control unit 14.
Consists of. The transmission / reception switching unit 11 switches transmission / reception according to an instruction from the control unit 14, and the control unit 14 is composed of a processor and executes the transmission reservation according to the present invention in cooperation with the control unit of the collection station.

Only one collection station is provided to collect data sporadically sent from a plurality of terminal stations. The internal configuration is the same as the configuration of the terminal station shown in FIG. The state of the transmission reservation performed between the control unit of the terminal station and the control unit of the collection station will be described with reference to the time chart shown in FIG.

When the terminal station wants to transmit data to the collecting station (at the time of "generation of transmission data" in the figure), the terminal station first
The reservation signal is transmitted to the collection station during the reservation time slot a pre-allocated to the own terminal station within the transmission reservation time. The reserved time slot a has a length of 1 bit, and the reserved signal is composed of carriers of a predetermined frequency.

FIG. 4 is a time chart specifically showing a reserved time slot and a reserved signal. For example, a terminal station to which time slot 5 is assigned desires data transmission, and a reservation signal is generated during slot 5. This reservation signal is generated only by on / off controlling the output of the carrier generator in the transmitter of the terminal station.

Returning to FIG. 3, the collection station that has received this reservation signal specifies the terminal station that has transmitted the reservation signal based on the position of the reservation time slot a to which the reservation signal was sent. That is, since each reserved time slot is assigned to one specific terminal station in advance, this specification can be easily performed. Then, the collection station transmits the reservation permission data (designation signal) to the specified terminal station. The reservation permission data is a signal that specifies a transmission time slot to be used when the terminal station transmits data.

The terminal station receiving this reservation permission data,
The data from the terminal station is mounted in the data reservation time slot b designated by the reservation permission data in the data transmission time and transmitted to the collection station.

When the collection station receives this data without fail, it sends confirmation response data indicating that the data has been received to the terminal station. As described above, one bit is enough for the reserved time slot in which the reserved signal composed of the carrier is transmitted. Therefore, like the conventional reserved time slot,
For example, the length of the reserved time slot is reduced to 1/16 as compared with a device which requires 2 bytes, and the line efficiency is greatly improved.

Next, a second embodiment will be described. In the second embodiment, a plurality of terminal stations are assigned to the same reserved time slot. Then, the terminal stations assigned to the same reservation time slot transmit carriers of different frequencies as reservation signals. The configuration of the terminal station of the second embodiment is the same as the configuration of the first embodiment shown in FIG.

FIG. 5 is a block diagram showing the structure of the receiving unit of the collecting station of the second embodiment. In the receiving section of the collecting station of the second embodiment, circuits having one set of the filter 21a, the amplifier 22a, and the demodulator 23a are prepared by the number of terminal stations assigned to the same reserved time slot. Are connected to the identification unit 24. Filters 21a to 21c
Is a band-pass filter having pass bands in different bands, and allows each carrier transmitted by each terminal station allocated to the same reserved time slot to pass through. The identified carrier is from which of the terminal stations allocated to the same reserved time slot.

The state of the transmission reservation performed between the control unit of the terminal station and the control unit of the collection station having the above-described configuration will be described with reference to the time chart shown in FIG. The overall procedure of transmission reservation of the second embodiment is basically the same as the overall procedure of transmission reservation of the first embodiment shown in FIG.

In the second embodiment, the same reservation time slot is used.
Multiple terminal stations are assigned to
For slot 1, terminal stations 1, (n + 1), (2n +
1), ... Are assigned to reserved time slot 2
On the other hand, the terminal station 2, (n + 2), (2n + 2), ...
Is assigned to the terminal for the reserved time slot n.
Stations n, 2n, 3n, ... Are assigned. And
For example, the terminal stations 1 to n have the modulation frequency f₁Send the carrier of
The terminal stations (n + 1) to 2n receive the modulation frequency f ₂The
The rear transmits, and the terminal stations (2n + 1) to 3n have the modulation frequency.
f₃To send the carrier.

Therefore, for example, the terminal station 5 and the terminal station (2n + 5) assigned to the reserved time slot 5
Even if the reservation signals are simultaneously transmitted by the terminal, the collecting station determines the terminal based on the position of the reserved time slot 5 at which they are received and the modulation frequency f ₁ and the modulation frequency f ₃ of the carrier detected by the identification unit 24. Station 5 and terminal station (2n + 5)
Can be identified immediately.

The subsequent processing is the same as in the first embodiment.
As described above, when a plurality of terminal stations are assigned to one reserved time slot in order to improve the line efficiency, the line efficiency returned to the original value caused by reservation collision, which has occurred conventionally. Can be prevented.

Next, a third embodiment will be described. Also in the third embodiment, as in the second embodiment, a plurality of terminal stations are assigned to the same reserved time slot. However, in the third embodiment, the inside of one reserved time slot is divided into a plurality of periods, and a plurality of terminal stations assigned to the same reserved time slot are respectively associated with these divided periods. Each terminal station transmits a carrier of the same frequency in the divided period associated with itself. The configurations of the terminal station and the collection station of the third embodiment are the same as the configurations of the terminal station and the collection station of the first embodiment, respectively.

FIG. 7 is a time chart showing the state of the transmission reservation made between the control unit of the terminal station and the control unit of the collection station of the third embodiment. The overall procedure of transmission reservation in the third embodiment is basically the same as the overall procedure of transmission reservation in the first embodiment shown in FIG.

Also in the third embodiment, as in the second embodiment, a plurality of terminal stations are assigned to the same reserved time slot. However, unlike the second embodiment, for example, the terminal stations 4, (n + 4), (2
, (n + 4), ... Are respectively associated with the first, second, third, ... Divided periods in the reserved time slot 4. Therefore, for example, when the terminal station 4 and the terminal station (2n + 4) desire to transmit data at the same time, the terminal station 4 transmits the carrier in the first divided period in the reserved time slot 4, and the terminal station (2n + 4) ) Transmits the carrier in the third divided period in the reserved time slot 4.

The collecting station identifies the terminal station that has sent each carrier based on the position of the reserved time slot to which these carriers have been sent and the division period. The subsequent processing is the same as in the first embodiment.

In the third embodiment, the inside of one reserved time slot is divided into a number corresponding to the number of terminal stations assigned to the same reserved time slot, and one terminal station is set in each divided period. However, instead of this, each terminal station may be associated with a binary code, and this binary code may be represented by using each divided period to reduce the number of divided periods. .

Next, a fourth embodiment will be described. Also in the fourth embodiment, as in the second embodiment, a plurality of terminal stations are assigned to the same reserved time slot. The configurations of the terminal station and the collecting station of the fourth embodiment are the same as the configurations of the terminal station and the collecting station of the first embodiment, respectively.

FIG. 8 is a time chart showing the state of the transmission reservation made between the control unit of the terminal station and the control unit of the collection station of the fourth embodiment. In the fourth embodiment, for example, the terminal stations 2, (n +) assigned to the reserved time slot 2 are
2) and (2n + 2) simultaneously request data transmission, each terminal station transmits a carrier in the reserved time slot 2. Therefore, a reservation collision occurs, but in this case, since the collection permission station does not send the reservation permission data to each terminal station, each terminal station performs carrier transmission again (second time). However, the terminal stations (n + 2) and (2n + 2) delay the reserved time slot by one time slot and transmit in the reserved time slot 3. Even with this, the terminal station (n +
2), (2n + 2), since no reservation permission data has been sent, each terminal station repeats carrier transmission (third time). However, the terminal station (2n + 2) further delays the reserved time slot by one time slot and transmits in the reserved time slot 4. With this, the reservation permission data is sent from the collection station to each terminal station.

When a reservation collision occurs in this way,
The reservation time slot is shifted by the conventional method and the reservation is made again. However, in the fourth embodiment, since one bit of carrier transmission is performed, the length of the reserved time slot is reduced to, for example, 1/16 as compared with the conventional device,
Line efficiency is greatly improved.

In the fourth embodiment described above, at the time of the second carrier transmission, terminal stations (n + n) other than the terminal station 2 are transmitted.
2) and (2n + 2), the reserved time slot is delayed by one time slot, but instead of this, at the time of the second carrier transmission, the reserved time slot is delayed by one time slot with respect to the terminal station (n + 2). , Terminal station (2
The reserved time slot may be delayed by two time slots with respect to (n + 2).

Next, a fifth embodiment will be described. In the fifth embodiment, a single terminal station is allocated to each specific reserved time slot, and the remaining reserved time slots are allocated so that a plurality of terminal stations correspond to the same reserved time slot. The configurations of the terminal station and the collecting station of the fifth embodiment are the same as the configurations of the terminal station and the collecting station of the first embodiment, respectively.

FIG. 9 is a time chart showing a state of transmission reservation made between the control unit of the terminal station and the control unit of the collection station in the fifth embodiment. In the fifth embodiment, for example, each of the dedicated time slots is assigned to the terminal stations 1 to 10,
Shared time slots are assigned to the terminal stations 11 to n and (n + 1) to 2n. The terminal stations 1 to 10 to which dedicated time slots are assigned are terminals that handle important data and are preferentially collected by the collecting station.

When data transmission is desired in the terminal stations 1 to 10 to which dedicated time slots are assigned, the transmission reservation shown in the first embodiment is performed and the terminal stations 11 to n to which shared time slots are assigned. , (N + 1) to 2n, when the data transmission is desired, the transmission reservation shown in the fourth embodiment is performed.

When data transmission is desired at the terminal stations 11 to n and (n + 1) to 2n to which shared time slots are assigned, the transmission reservation shown in the second and third embodiments may be made. Good.

Next, a sixth embodiment will be described. The sixth embodiment has the same configuration as that of the first embodiment, and also in the sixth embodiment, a single terminal station is assigned to each reserved time slot.
However, in the sixth embodiment, there are a plurality of types of data lengths transmitted by each terminal station, the terminal stations are classified in advance according to the length of the data, and the position of each reserved time slot is different for each classification. Is decided. In addition, the length of the transmission time slot in which the terminal station transmits data is set to a length equal to or shorter than the shortest data among the lengths of data transmitted by the terminal stations.
The configurations of the terminal station and the collecting station of the sixth embodiment are the same as the configurations of the terminal station and the collecting station of the first embodiment, respectively.

FIG. 10 is a time chart showing a state of transmission reservation made between the control unit of the terminal station and the control unit of the collection station of the sixth embodiment. The entire procedure of the transmission reservation of the sixth embodiment is basically the same as the entire procedure of the transmission reservation of the first embodiment shown in FIG.

In the sixth embodiment, for example, the terminal stations 1 to 6 transmit data having a data length of 8 bytes, the terminal stations 7 to 12 transmit data having a data length of 16 bytes, and the terminal stations 13 to n.
Transmits data having a data length of 32 bytes.
In that case, the 8-byte time slots 1 to 6 are allocated to the terminal stations 1 to 6 and 16 to the terminal stations 7 to 12.
Byte time slots 7 to 12 are assigned to the terminal station 1
32-byte time slots 13 to n are assigned to 3 to n.

Then, for example, when the terminal station 7 desires data transmission, a carrier as a reservation signal is sent from the terminal station 7 to the collecting station in the 16-byte time slot 7. The collection station identifies the terminal station 7 from the position of the time slot in which this carrier is sent and
Recognizing that 6-byte data is to be transmitted, a 16-byte time slot is prepared as a transmission time slot, and these time slot numbers 1 and 2 are notified to the terminal station 7. The transmission time slot has 8 bytes as a unit slot.

Next, for example, when the terminal station 14 desires data transmission, the 32-byte time slot 14 is used.
At, the carrier as a reservation signal is sent from the terminal station 14 to the collection station. The collection station identifies the terminal station 14 from the position of the time slot to which this carrier is sent, recognizes that 32-byte data is to be transmitted, and prepares a 32-byte time slot as a transmission time slot. , And informs the terminal station 14 of those time slot numbers 3 to 6.

As described above, in the sixth embodiment, even when each terminal station transmits data of different lengths, the time slot for transmission is prepared in accordance with the length, so that the longest data is transmitted. Data can be transmitted more efficiently than when the credit time slot is fixedly prepared.

In the sixth embodiment described above, it is assumed that one terminal station fixedly transmits data of one length, but instead of this, one terminal station has a different length. In preparation for the case of transmitting the data of, each terminal station is allowed to transmit carriers of multiple frequencies, and at the collecting station,
The terminal station may be specified from the position of the time slot in which the carrier is sent, and the length of the transmission data may be recognized from the frequency of the carrier.

Next, a seventh embodiment will be described. In the seventh embodiment, as in the third embodiment, a plurality of terminal stations are assigned to the same reserved time slot, the inside of one reserved time slot is divided into a plurality of periods, and assigned to the same reserved time slot. A plurality of terminal stations are respectively associated with the divided periods. Each terminal station transmits a carrier of the same frequency in the divided period associated with itself. The configurations of the terminal station and the collecting station of the seventh embodiment are the same as the configurations of the terminal station and the collecting station of the third embodiment, respectively.

FIG. 11 is a time chart showing a state of the transmission reservation made between the control unit of the terminal station and the control unit of the collection station of the seventh embodiment. The entire procedure of the transmission reservation of the seventh embodiment is basically the same as the entire procedure of the transmission reservation of the first embodiment shown in FIG.

In the seventh embodiment, as in the third embodiment, a plurality of terminal stations are assigned to the same reserved time slot. However, the terminal stations 1 to n transmit data with a data length of 8 bytes, the terminal stations (n + 1) to 2n transmit data with a data length of 16 bytes, and the terminal stations (2n + 1) to 3n transmit data with a data length of 32 bytes. Shall be sent. In that case, for example, for the terminal stations 4, (n + 4), (2n + 4), ... Assigned to the reserved time slot 4,
The first, second, and third divided periods in the reserved time slot 4 are associated with each other.

Therefore, for example, when the terminal station 4 and the terminal station (2n + 4) desire to transmit data at the same time, the terminal station 4 transmits the carrier in the first division period in the reserved time slot 4, and the terminal station Station (2n + 4) transmits a carrier in the third divided period in reserved time slot 4.

The collection station specifies the terminal station that has sent each carrier based on the position of the reserved time slot to which these carriers have been sent and the division period, and
The length of data to be transmitted is recognized, and a time slot having a length corresponding to the data length is prepared as a transmission time slot. That is, for example, when the collecting station detects a carrier in the first and third divided periods of the time slot 4, first, the terminal station 4 is specified based on the first divided period of the time slot 4, and the transmission schedule is set. Recognizing that the length of the data is 8 bytes, a time slot for 8 bytes is prepared for the transmission time slot, and the time slot number 1 of them is notified to the terminal station 4. The transmission time slot has 8 bytes as a unit slot.

Further, the terminal station (2n + 4) is specified based on the third divided period of the time slot 4, and it is recognized that the length of the data to be transmitted is 32 bytes.
A time slot for 32 bytes is prepared as a transmission time slot, and those time slot numbers 2 to 5 are notified to the terminal station (2n + 4).

As described above, also in the seventh embodiment, when each terminal station transmits data of different lengths, a time slot for transmission is prepared in accordance with the length, so that data is transmitted in accordance with the longest data. Data can be transmitted more efficiently than when a fixed time slot is prepared.

In the seventh embodiment, the inside of one reserved time slot is divided by the number of terminal stations assigned to the same reserved time slot, and one terminal station is associated with each divided period. Alternatively, however, the number of divided periods may be reduced by associating each terminal station with a binary code and expressing this binary code by using each divided period.

Further, in the above-mentioned seventh embodiment, it is assumed that one terminal station fixedly transmits data of one length, but instead of this, one terminal station has a different length. In preparation for the case of transmitting the data of, each terminal station is allowed to transmit carriers of multiple frequencies, and at the collecting station,
The terminal station may be specified from the position of the time slot in which the carrier is sent, and the length of the transmission data may be recognized from the frequency of the carrier.

[0059]

As described above, according to the present invention, when it is desired to transmit data from the own terminal station, the reservation signal composed of the carrier is transmitted to the base station during the reserved time slot pre-allocated to the own terminal station. Then, the base station identifies the terminal station desiring to transmit data based on at least the position of the reserved time slot in which the received reservation signal is transmitted. Therefore, the reservation time slot need only have one bit, and even if the number of terminal stations increases, much time is not required for reservation, and the line efficiency can be improved.

Further, in order to improve such poor line efficiency, when a plurality of terminal stations are assigned to one reservation time slot, each terminal station transmits carriers of different frequencies, and the base station The terminal station desiring to transmit data is identified based on the frequency of the carrier that constitutes the received reservation signal and the position of the reservation time slot in which the reservation signal is transmitted. This makes it possible for a plurality of terminal stations assigned to one reservation time slot to make a reservation at the same time, preventing the line efficiency from returning to its original value.

Further, the data to be transmitted has a plurality of lengths, the data transmission time slot has a unit length equal to or shorter than the shortest data length of the data, and the base station is the terminal station. Specifies as many transmit time slots as the number of data slots it wants to transmit. As a result, a transmission time slot is set according to the data length of each terminal station, data transmission is performed without waste, and the line efficiency is improved.

[Brief description of drawings]

FIG. 1 is a diagram illustrating the principle of the present invention.

FIG. 2 is a block diagram showing a configuration of a terminal station of the first embodiment.

FIG. 3 is a time chart showing a state of transmission reservation performed between the control unit of the terminal station and the control unit of the collection station.

FIG. 4 is a time chart specifically showing a reservation time slot and a reservation signal.

FIG. 5 is a block diagram showing a configuration of a receiving unit of a collecting station of the second embodiment.

FIG. 6 is a time chart of the second embodiment showing a state of transmission reservation performed between the control unit of the terminal station and the control unit of the collection station.

FIG. 7 is a time chart of the third embodiment showing a state of transmission reservation performed between the control unit of the terminal station and the control unit of the collection station.

FIG. 8 is a time chart of the fourth embodiment showing a state of transmission reservation performed between the control unit of the terminal station and the control unit of the collection station.

FIG. 9 is a time chart of the fifth embodiment showing the state of transmission reservation performed between the control unit of the terminal station and the control unit of the collection station.

FIG. 10 is a time chart of the sixth embodiment showing a state of transmission reservation performed between the control unit of the terminal station and the control unit of the collection station.

FIG. 11 is a time chart of the seventh embodiment showing a state of transmission reservation performed between the control unit of the terminal station and the control unit of the collection station.

[Explanation of symbols]

 1 Terminal Station 1a Reserved Signal Transmission Means 1b Data Transmission Means 2 Terminal Stations 3 Base Stations 3a Identification Means 3b Designated Signal Transmission Means

Claims (8)

[Claims] 1. A base station (3) designates a time slot based on a transmission reservation from each terminal station (1, 2),
Each terminal station (1, 2) is provided in each terminal station (1, 2) in a transmission reservation device in a wireless communication system in which data is transmitted by mounting data in a time slot designated by the terminal station (1, 2). When it is desired to transmit data from (1), a reservation signal transmitting means (1a) for transmitting a reservation signal including a carrier to the base station (3) during a reservation time slot pre-allocated to the own terminal station (1). ) And a terminal which is provided in the base station (3) and receives the reservation signal and desires to transmit data based on at least the position of the reservation time slot in which the received reservation signal is transmitted. An identification means (3a) for identifying a station and a terminal station provided in the base station (3) and identified by the identification means (3a) transmits a designation signal for designating a transmission time slot in which data is to be transmitted. finger The signal transmission means (3b) and each terminal station (1, 2) are provided to receive a designation signal directed to the own terminal station (1) from the designation signal transmission means (3b) and designate by this designation signal. A wireless communication transmission reservation device, comprising: a data transmission means (1b) for transmitting and transmitting data from its own terminal station (1) in the generated transmission time slot. 2. The reservation signal transmitting means (1a) of the other terminal station, when the reservation time slot allocated to the own terminal station (1) is also allocated to the other terminal station. Transmits a carrier having a different frequency from the carrier transmitted by, and the identifying means (3a) detects the frequency of the carrier that constitutes the received reservation signal,
2. The wireless communication transmission reservation apparatus according to claim 1, wherein a terminal station desiring to transmit data is identified based on the detected frequency and the position of the reserved time slot in which the reservation signal is transmitted. . 3. The reserved signal transmitting means (1a) divides the reserved time slot into a plurality of parts when the reserved time slot allocated to the own terminal station is also allocated to another terminal station, and The carrier is transmitted by a division position pattern different from the division position pattern by the carrier transmitted by the reservation signal transmitting means of the other terminal station, and the identifying means (3a) determines the division position pattern of the carrier forming the received reservation signal. 2. The terminal station which desires to transmit data is detected, and the terminal station desiring to transmit data is identified based on the detected division position pattern and the position of the reserved time slot in which the reservation signal is transmitted. Wireless communication transmission reservation device. 4. The reservation time slot assigned to the own terminal station is also assigned to another terminal station, and the reservation signal transmitted by the reservation signal transmitting means of the own terminal station and the reservation signal transmitting means of the other terminal station are When the transmitted reservation signal collides with the reservation time slot, one of the own terminal station and the other terminal station transmits a reservation signal again in a reservation time slot different from the reservation time slot according to a predetermined rule. The identification means (3a) further comprising a reservation signal retransmission means provided in each terminal station.
The wireless communication transmission reservation according to claim 1, wherein the terminal identifies a terminal station desiring to transmit data based on the position of the reserved time slot in which the reservation signal is transmitted and the predetermined rule. apparatus. 5. The reserved time slot is divided into at least first and second zones, and a single terminal station is allocated to the reserved time slot belonging to the first zone, while in the second zone. A plurality of terminal stations are allocated to the reserved time slot to which the reserved signal is transmitted by the reservation signal transmitting means of the first terminal station allocated to the reserved time slot belonging to the second zone, and the second zone. When the reservation signal transmitted by the reservation signal transmitting means of the second terminal station assigned to the reservation time slot belonging to the above-mentioned reservation time slot collides in the reservation time slot, according to a predetermined rule, the first terminal station and the When one of the second terminal stations makes a reservation signal again in a reservation time slot belonging to the second zone different from the reservation time slot. And a reservation signal re-transmission unit provided in each terminal station for transmitting the signal.
a) is a zone to which the reserved time slot in which the reservation signal is transmitted, a position of the reserved time slot in which the reservation signal is transmitted, and a terminal station desiring to transmit data based on the predetermined rule. The wireless communication transmission reservation device according to claim 1, wherein the wireless communication transmission reservation device is identified. 6. The data transmitted by the data transmitting means (1b) has a plurality of types of length, and the transmission time slot has a unit length equal to or less than the length of the shortest data of the data, The designating signal transmitting means (3b) designates, to the terminal station identified by the identifying means (3a), a number of transmission time slots corresponding to the length of data that the terminal station desires to transmit. The wireless communication transmission reservation device according to claim 1, wherein 7. The reservation signal transmitting means (1a) transmits a reservation signal to the base station (3) during a reservation time slot pre-allocated to its own terminal station according to the length of data, The identification means (3a) receives the reservation signal, and based on the position of the reservation time slot in which the received reservation signal is transmitted, a terminal station desiring to transmit data and a length of the data. 7. The wireless communication transmission reservation device according to claim 6, wherein 8. The reservation signal transmitting means (1a) transmits a reservation signal composed of a carrier to the base station during a predetermined period within a reservation time slot pre-allocated to the terminal station according to the length of data. And the identification means (3a)
Receiving the reservation signal, and identifying a terminal station desiring to transmit data and a length of the data based on a position of a reservation time slot in which the received reservation signal is transmitted. The wireless communication transmission reservation device according to claim 6.